U.S. patent application number 15/880085 was filed with the patent office on 2018-10-04 for ingestion-related biofeedback and personalized medical therapy method and system.
The applicant listed for this patent is Proteus Digital Health, Inc.. Invention is credited to Lawrence Arne, Kit Yee Au-Yeung, Patrick Beaulieu, Yashar Behzadi, Marc Jensen, Robert Leichner, Timothy Robertson, George Savage, Andrew Thompson, Mark Zdeblick.
Application Number | 20180279910 15/880085 |
Document ID | / |
Family ID | 42317118 |
Filed Date | 2018-10-04 |
United States Patent
Application |
20180279910 |
Kind Code |
A1 |
Jensen; Marc ; et
al. |
October 4, 2018 |
INGESTION-RELATED BIOFEEDBACK AND PERSONALIZED MEDICAL THERAPY
METHOD AND SYSTEM
Abstract
A system including a sensor, a mobile device, and a computer
system is disclosed. The sensor is configured to detect physiologic
data from the body of the patient. The mobile device includes a
patient data input device. The computer system, communicatively
coupled to the mobile device, includes a patient record indicating:
patient data comprising a plurality of patient activities, and
detected physiological data received from the sensor via the mobile
device. The computer system is configured to identify an unhealthy
physiological data value from the detected physiological data of
the patient record, correlate the unhealthy physiological data
value to a patient activity of the patient data, select a
therapeutic recommendation to address the unhealthy physiological
data value, and transmit the selected therapeutic recommendation to
the patient, via the mobile device, at a future time associated
with the patient activity correlated to the unhealthy physiological
data value.
Inventors: |
Jensen; Marc; (Los Gatos,
CA) ; Leichner; Robert; (Menlo Park, CA) ;
Beaulieu; Patrick; (San Jose, CA) ; Au-Yeung; Kit
Yee; (San Francisco, CA) ; Arne; Lawrence;
(Palo Alto, CA) ; Zdeblick; Mark; (Portola Valley,
CA) ; Thompson; Andrew; (Portola Valley, CA) ;
Savage; George; (Portola Valley, CA) ; Robertson;
Timothy; (Belmont, CA) ; Behzadi; Yashar; (San
Francisco, CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Proteus Digital Health, Inc. |
Redwood City |
CA |
US |
|
|
Family ID: |
42317118 |
Appl. No.: |
15/880085 |
Filed: |
January 25, 2018 |
Related U.S. Patent Documents
|
|
|
|
|
|
Application
Number |
Filing Date |
Patent Number |
|
|
13141048 |
Jun 20, 2011 |
9883819 |
|
|
PCT/US10/20269 |
Jan 6, 2010 |
|
|
|
15880085 |
|
|
|
|
61260325 |
Nov 11, 2009 |
|
|
|
61142869 |
Jan 6, 2009 |
|
|
|
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A61B 5/1112 20130101;
G06F 19/00 20130101; G16H 20/10 20180101; A61B 5/6833 20130101;
G16H 20/00 20180101; G16H 50/20 20180101; A61B 5/486 20130101; G16H
40/67 20180101; A61B 5/021 20130101; G16H 10/60 20180101; A61B
5/0002 20130101; G16H 20/30 20180101; A61B 5/073 20130101; H04B
13/005 20130101; A61B 5/024 20130101; G06F 19/3456 20130101; G06F
19/3481 20130101 |
International
Class: |
A61B 5/07 20060101
A61B005/07; G16H 10/60 20180101 G16H010/60; G06F 19/00 20180101
G06F019/00; H04B 13/00 20060101 H04B013/00; A61B 5/00 20060101
A61B005/00 |
Claims
1-20. (canceled)
21. A system, comprising: a sensor coupled to a body of a patient,
wherein the sensor is configured to detect physiologic data from
the body of the patient and wirelessly transmit the physiologic
data; an electronic communication device associated with the
patient, wherein the electronic communication device comprises a
patient input device; and a computer system communicatively coupled
to the electronic communication device, wherein the computer system
comprises: a patient record associated with the patient, wherein
the patient record indicates: patient activity data comprising a
plurality of proposed activities of the patient, wherein each
proposed activity is associated with a proposed time to engage in
its associated proposed activity; and detected physiological data
received from the sensor via the electronic communication device;
wherein the computer system is configured to: compare the detected
physiological data of the patient record to a range of healthy
values, associated with the physiological data, to identify an
unhealthy physiological data value; correlate the identified
unhealthy physiological data value to a proposed activity of the
patient activity data; select a therapeutic recommendation to bring
the identified unhealthy physiological data value within the range
of healthy values associated with the physiological data; and
transmit the selected therapeutic recommendation to the patient,
via the electronic communication device, at a future proposed time
associated with the correlated proposed activity.
22. The system of claim 21, wherein one or more than one of the
plurality of proposed activities of the patient activity data is
received via the patient input device.
23. The system of claim 21, wherein the plurality of proposed
activities are associated with at least one of a work task, a
physical exercise, a stress inducing event, a hobby, a recreational
activity, a meal consumption, a liquid ingestion, a social
interaction, or an erotic act.
24. The system of claim 21, wherein the patient record of the
computer system further indicates: attestation data received via
the patient input device, wherein the attestation data comprises at
least one attestation associated with a change to a proposed
activity of the plurality of proposed activities; and wherein the
computer system is further configured to: correlate the identified
unhealthy physiological data value to a changed activity associated
with the attestation data; and transmit the selected therapeutic
recommendation to the patient, via the electronic communication
device, at a future proposed time associated with the correlated
changed activity.
25. The system of claim 21, wherein the computer system is further
configured to: compare the detected physiological data to the
plurality of proposed activities of the patient activity data to
identify patterns between unhealthy physiological data values and
proposed activities of the patient; and transmit a therapeutic
recommendation to the patient, via the electronic communication
device, prior to a proposed activity having an identified pattern
to an unhealthy physiological data value.
26. The system of claim 21, wherein the computer system is further
configured to: compare the detected physiological data to the
plurality of proposed activities of the patient activity data to
identify patterns between unhealthy physiological data values and
routine activities of the patient; and transmit a therapeutic
recommendation to the patient, via the electronic communication
device, prior to a routine activity having an identified pattern to
an unhealthy physiological data value.
27. The system of claim 26, wherein the routine activity is a
stress-inducing activity.
28. The system of claim 21, further comprising: a plurality of
ingestible event markers (IEMs), wherein each IEM is stably
associated with a medication, wherein each IEM is configured to
generate ingestion data and wirelessly transmit the ingestion data
after contact with bodily fluid of the patient at a target
physiological site, and wherein the ingestion data comprises an
identification of the medication and a time of the ingestion;
wherein the patient record of the computer system further
indicates: a prescribed medication of the patient, wherein the
prescribed medication is associated with a medication schedule
including prescribed times to administer the prescribed medication;
and ingestion data received from one or more than one IEM ingested
by the patient via the electronic communication device, wherein the
one or more than one ingested IEM comprises the prescribed
medication; and wherein the computer system is further configured
to: determine, based on the ingestion data of the patient record,
that the prescribed medication has not been administered at a
prescribed time of the medication schedule that has passed; and
transmit to the electronic communication device, after a designated
time period since the passed prescribed time, a message to remind
the patient to administer the prescribed medication.
29. The system of claim 28, wherein the patient record of the
computer system further indicates: attestation data received via
the patient input device, wherein the attestation data comprises at
least one attestation associated with an administered medication;
and wherein the computer system is further configured to:
determine, based on the attestation data, that the prescribed
medication has not been administered at the prescribed time of the
medication schedule that has passed.
30. The system of claim 21, wherein the patient record further
indicates: a prescribed behavior of the patient, wherein the
prescribed behavior is associated with a behavior schedule
including prescribed times to perform or to avoid the prescribed
behavior; and attestation data received via the patient input
device, wherein the attestation data comprises at least one
attestation associated with a behavior performed or a behavior
avoided; and wherein the computer system is further configured to:
determine, based on the attestation data, that the prescribed
behavior has not been attested to at a prescribed time of the
behavior schedule that has passed; and transmit to the electronic
communication device, after a designated time period since the
passed prescribed time, a message to remind the patient to perform
or to avoid the prescribed behavior.
31. The system of claim 21, wherein the electronic communication
device is further configured to communicate the selected
therapeutic recommendation to the patient.
32. The system of claim 21, wherein the therapeutic recommendation
is selected from the group consisting essentially of a medicine
prescription adjustment, a meditation practice, a relaxation
practice, a physical exercise, a period of sleep, a procedural
change, a therapy change and a dietary adjustment.
33. The system of claim 21, wherein the physiological data
comprises at least one of a heart rate, a blood pressure, a
respiration rate, a respiration intensity, or electrical skin
conductivity.
34. The system of claim 21, wherein the therapeutic recommendation
is further selected based at least partly on genetic information
descriptive of the patient.
35. The system of claim 21, wherein the therapeutic recommendation
is further selected based at least partly on additional patient
information selected from the group consisting essentially of
lifestyle data, patient adherence information, behavioral
information, emotional information and diagnostic test
information.
36. A system, comprising: a sensor coupled to a body of a patient,
wherein the sensor is configured to detect physiologic data from
the body of the patient; a mobile device associated with the
patient, wherein the mobile device comprises a patient data input
device; and a computer system communicatively coupled to the mobile
device, wherein the computer system comprises: a patient record
associated with the patient, wherein the patient record indicates:
patient data comprising a plurality of patient activities; and
detected physiological data received from the sensor via the mobile
device; wherein the computer system is configured to: identify an
unhealthy physiological data value from the detected physiological
data of the patient record; correlate the unhealthy physiological
data value to a patient activity of the patient data; select a
therapeutic recommendation to address the unhealthy physiological
data value; and transmit the selected therapeutic recommendation to
the patient, via the mobile device, at a future time associated
with the patient activity correlated to the unhealthy physiological
data value.
37. The system of claim 36, wherein the plurality of patient
activities are associated with at least one of a work task, a
physical exercise, a stress inducing event, a hobby, a recreational
activity, a meal consumption, a liquid ingestion, a social
interaction, or an erotic act.
38. The system of claim 36, wherein the computer system is further
configured to: compare the detected physiological data to the
plurality of patient activities of the patient data to identify
patterns between unhealthy physiological data values and routine
activities of the patient; and transmit a therapeutic
recommendation to the patient, via the mobile device, prior to a
routine activity having an identified pattern to an unhealthy
physiological data value.
39. The system of claim 36, further comprising: a plurality of
ingestible event markers (IEMs), wherein each IEM is stably
associated with a medication, wherein each IEM is configured to
generate ingestion data and wirelessly transmit the ingestion data
after contact with bodily fluid of the patient at a target
physiological site, and wherein the ingestion data comprises an
identification of the medication and a time of the ingestion;
wherein the patient record of the computer system further
indicates: a prescribed medication of the patient, wherein the
prescribed medication is associated with a medication schedule
including prescribed times to administer the prescribed medication;
and ingestion data received from one or more than one IEM ingested
by the patient via the mobile device, wherein the one or more than
one ingested IEM comprises the prescribed medication; and wherein
the computer system is further configured to: determine, based on
the ingestion data of the patient record, that the prescribed
medication has not been administered at a prescribed time of the
medication schedule that has passed; and transmit to the mobile
device, after a designated time period since the passed prescribed
time, a message to remind the patient to administer the prescribed
medication.
40. The system of claim 36, wherein the patient record further
indicates: a prescribed behavior of the patient, wherein the
prescribed behavior is associated with a behavior schedule
including prescribed times to perform or to avoid the prescribed
behavior; and attestation data received via the patient data input
device, wherein the attestation data comprises at least one
attestation associated with a behavior performed or a behavior
avoided; and wherein the computer system is further configured to:
determine, based on the attestation data, that the prescribed
behavior has not been attested to at a prescribed time of the
behavior schedule that has passed; and transmit to the mobile
device, after a designated time period since the passed prescribed
time, a message to remind the patient to perform or to avoid the
prescribed behavior.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of both U.S. Provisional
Patent Application No. 61/142,869, filed on Jan. 6, 2009, titled
"Ingestion-Related Biofeedback Method and System"; and U.S.
Provisional Patent Application No. 61/260,325, filed on Nov. 11,
2009, titled "Method and System for Personalized Medical Therapy",
both of which applications are incorporated by reference in their
entirety for all purposes in the Present Application.
INTRODUCTION
[0002] The present invention relates generally to medical therapy
systems, devices, and methods. More specifically, the invention
relates to systems, devices, and methods for applying information
related to an ingestion by a patient of a device, medication or
substance.
[0003] Proper adjustment of medical treatment is an important
factor in the success of medical therapies. Although some
conclusions regarding the efficacy of treatment may be drawn from
analysis of the patient's direct sensory symptoms during treatment
and used as a modification indicator, many conditions exist where
the patient has little direct sensory awareness. Hypertension is
one such disease state. Patient adherence is another important
factor in the success of medical therapies. Reliable adherence
information may be used to inform efficacy and modification
determinations. Lack of reliable adherence information, however,
may be an issue. Adherence information may not be available.
Further, adherence information may be faulty, inaccurate, or
inadequate. Poorly informed medical treatment decisions, for
example, those made in the absence of comprehensive, adherence
information, may result in suboptimal therapy programs. Such
programs may result in loss of quality of life, loss in health,
and/or loss of life span.
[0004] Biofeedback is one technique that can be used to adjust
medical treatment and to encourage patient adherence to medical
therapy. Biofeedback may be defined as the technique of revealing
certain selected internal physiologic indicators of physical health
by presenting verbal, textual, visual and/or auditory signals to a
monitored person in order to help the monitored person to
manipulate these otherwise involuntary, unfelt and/or little felt
vital processes (such as blood pressure, heart beat and respiration
rate and intensity). Biofeedback techniques can enable a person to
modify a monitored physiologic indicator to achieve, or more
consistently maintain, a healthy condition. Achieving such health
management goals typically requires voluntary cooperation on the
part of the subject.
[0005] The management of certain chronic diseases or ongoing health
conditions, hypertension for example, can be supported by
monitoring and controlling one or more vital aspects of a patient.
Examples of these disease control parameters include blood glucose
of diabetes patients, respiratory flow of asthma sufferers, blood
pressure of hypertensive patients, cholesterol of cardiovascular
disease victims, body weight of eating disorder patients, T-cell or
viral count of HIV bearers, and frequency or timing of undesirable
episodes of depression of mental health patients. Because of the
continuous nature of these diseases, clinicians can gain valuable
information by monitoring one or more vital health processes on a
regular basis outside of a clinical care facility.
[0006] A patient may monitor and control one or more vital health
parameters in clinician assisted self-care or outpatient treatment
programs. The term "health parameter" refers to any parameter
associated with health, e.g., the health of a patient, athlete, or
other living being. In these treatment programs, patients are
responsible for performing self-care actions which impact the
control parameter. Patients are also responsible for measuring the
control parameter to determine the success of the self-care actions
and the need for further adjustments. The successful implementation
of such a treatment program requires a high degree of motivation,
training, and understanding on the part of the patients to select
and perform the appropriate self-care actions. When reliable,
useful guidance is provided to the patient in a timely manner, the
patient's confidence may increase in the health improvement
program. With an increase in confidence, the patient may be more
likely to adhere to the health improvement program. Adherence, in
turn, increases the likelihood of success of the health improvement
program.
[0007] Further, ingestible pharmaceutical agents, for example,
prescription and non-prescription medicines and substances can be
an important aspect of a therapeutic regime prescribed to a given
patient. Reliable monitoring of adherence to scheduled dosages of
pharmaceutical agents is desirable to optimize biofeedback
effectiveness.
[0008] There is a long-felt need to provide behavioral guidance
developed in view of various physiologic parameters and
longitudinal monitoring of vital health aspects of the patient.
SUMMARY
[0009] The present disclosure seeks to address at least some of the
previously discussed problems. The present disclosure includes
methods and systems for acquiring information useful to support a
patient in implementing and adhering to a medically prescribed
therapy plan. The therapy may incorporate biofeedback methods
and/or personalized therapy aspects.
[0010] A method includes steps of acquiring biometric information
associated with an ingestible event marker; analyzing, by a
computing device having a microprocessor configured to perform a
biometric information analysis, the biometric information; and
determining a therapeutic recommendation at least partly on the
basis of the analysis. The method further optionally includes
integrating biofeedback techniques into patient therapy and/or
activity.
[0011] A system includes a biometric information module to acquire
information associated with an ingestible event marker; an analysis
module to analyze the information; and a determination module to
optionally determine and communicate a therapeutic recommendation
to a patient at least partly on the basis of the analysis of the
information.
INCORPORATION BY REFERENCE
[0012] All publications, patents, and patent applications mentioned
in this specification are herein incorporated by reference to the
same extent as if each individual publication, patent, or patent
application was specifically and individually indicated to be
incorporated by reference.
[0013] Such incorporations include U.S. Patent Application
Publication No. 20080284599 published on Nov. 20, 2008 titled
"Pharma-Informatics System"; U.S. Patent Application Publication
No. 20090135886 titled "Transbody Communication Systems Employing
Communication Channels", U.S. Patent Application No. 20090082645,
published on Mar. 26, 2009 titled "In-Body Device With Virtual
Dipole Signal Amplification"; U.S. patent application Ser. No.
12/546,017 filed Sep. 21, 2009 titled, "Communication System With
Partial Power Source"; U.S. Provisional Patent Application No.
61/251,088 filed Oct. 13, 2009 titled "Receiver and Method"; and
U.S. Provisional Patent Application No. 61/034,085, filed Mar. 5,
2008.
[0014] Such incorporations further include Patent Applications
filed under the Patent Cooperation Treaty ("PCT"), to include PCT
Patent Application Serial No. PCT/US2006/016370, filed Apr. 28,
2006; PCT Patent Application Serial No. PCT/US07/82563, filed Oct.
17, 2007; PCT Patent Application Serial No. PCT/US2008/52845 filed
Feb. 1, 2008; PCT Patent Application Serial No. PCT/US2006/016370
published as WO/2006/116718; PCT Patent Application Serial No.
PCT/US2007/082563 published as WO/2008/052136; PCT Patent
Application Serial No. PCT/US2007/024225 published as
WO/2008/063626; PCT Patent Application Serial No. PCT/US2007/022257
published as WO/2008/066617; PCT Patent Application Serial No.
PCT/US2008/053999 published as WO/2008/101107; PCT Patent
Application Serial No. PCT/US2008/056296 published as
WO/2008/112577; PCT Patent Application Serial No. PCT/US2008/056299
published as WO/2008/112578; and PCT Patent Application Serial No.
PCT/US2008/077753.
[0015] The publications discussed or mentioned herein are provided
solely for their disclosure prior to the filing date of the present
application. Nothing herein is to be construed as an admission that
the present invention is not entitled to antedate such publication
by virtue of prior invention. Furthermore, the dates of publication
provided herein may differ from the actual publication dates which
may need to be independently confirmed.
BRIEF DESCRIPTION OF THE FIGURES
[0016] These, and further features of various aspects of the
present invention, may be better understood with reference to the
accompanying specification, wherein:
[0017] FIG. 1 is a schematic of an electronic communications
network communicatively coupled with an IEMD, a patient management
data system and one or more vital parameter sensors.
[0018] FIG. 2 is a schematic of the patient management data system
of FIG. 1.
[0019] FIG. 3 is a schematic diagram of a system software of the
patient management data system of FIGS. 1 and 2.
[0020] FIG. 4A is an illustration of a representative first patient
record as stored in the patient management data system or elsewhere
in the network of FIG. 1.
[0021] FIG. 4B is an illustration of a representative first
medication record as stored in the patient management data system
or elsewhere in the network of FIG. 1.
[0022] FIG. 4C is an illustration of a representative first
behavior recommendation record as stored in the patient management
data system or elsewhere in the network of FIG. 1.
[0023] FIG. 4D is an illustration of a representative patient
history data of the first patient record of FIG. 4A.
[0024] FIG. 5 is an illustration of additional aspects of the
method of the present invention, wherein a patient is treated for a
health condition by means of the electronic communications network,
the IEMD, the patient management data system and one or more vital
parameter sensors of FIGS. 1 and 2.
[0025] FIG. 6 is an illustration of other aspects of the method of
the present invention, wherein certain behaviors of the patient and
interaction of the patient with the patient management data system
of FIGS. 1 and 2 is denoted.
[0026] FIG. 7 is an illustration of a process implemented by the
patient management data system of FIGS. 1, 2 and 3 in communication
with the network, IEMD and sensors of FIG. 1.
[0027] FIG. 8 is a process chart of a method in which a clinician
or an expert system monitors a vital parameter of the patient and
suggest via the network of FIG. 1 a therapeutic behavior intended
to improve the health of the patient.
[0028] FIG. 9 is a process chart of a method of the patient
management data system to determine if and when to send a text or
audio message to the patient transceiver and/or the patient input
device of FIG. 1.
[0029] FIG. 10 is another process chart of a method of the patient
management data system to determine if and when to send a text or
audio message to the patient transceiver and/or the patient input
device of FIG. 1.
[0030] FIG. 11 shows an exemplary process flow.
[0031] FIG. 12 is a schematic of a patient coupled with a plurality
of biometric sensors and in communication with a cellular
telephone, other mobile computational devices and information
technology networks.
[0032] FIG. 13 is an illustration of a display screen of the
cellular telephone of FIG. 12 displaying icons.
[0033] FIG. 14 is a schematic diagram of the cellular telephone of
FIGS. 12 and 13.
[0034] FIG. 15 is a schematic diagram of a mobile phone system
software of the cellular telephone of FIGS. 12, 13 and 14.
[0035] FIG. 16 illustrates a first disclosed exemplary additional
or alternate process, wherein the cellular telephone of FIG. 12-15
displays one or more icons of FIG. 13.
[0036] FIG. 17A is an illustration of an exemplary record that
includes an icon identifier relating to an icon of FIG. 13.
[0037] FIG. 17B is an illustration of log event data that contain
biometric information generated and transmitted by a biometric
sensor of FIG. 12.
[0038] FIG. 18 illustrates a graph 114 wherein a plurality of event
log data of FIG. 6A and a plurality of biometric data of FIG. 17B
are displayed on a display screen of FIGS. 12, 13 and 14.
[0039] FIG. 19 is an illustration of an additional or alternate
method wherein the cellular telephone of FIGS. 12-15 transmits
information via the network to the data base system and/or the
diagnostic system of FIG. 12.
[0040] FIG. 20 is an illustration of an additional or alternate
method, wherein the cellular telephone of FIGS. 12-15 receives
information via the network from the data base system and/or the
diagnostic system of FIG. 12.
[0041] FIG. 21 illustrates a still other additional or alternate
method, wherein global positioning data (hereinafter "GPS data")
collected from the cellular telephone of FIGS. 12-15 of the patient
of FIG. 12 are used to determine the current and relative level of
social interaction in which the patient is engaging.
[0042] FIG. 22 illustrates yet another additional or alternate
method, wherein a diagnostician applies an activity monitor logic
of the diagnostic system of FIG. 12.
[0043] FIG. 23 is a schematic of a diagnostic system software of
the diagnostic system of FIG. 12.
[0044] FIGS. 24A, 24B and 24C are schematics of information stored
in the diagnostic system of FIGS. 12 and 23.
[0045] FIG. 25 illustrates a still other additional or alternate
method, wherein GPS data collected from the cellular telephone of
FIGS. 12-15 of the patient of FIG. 12 are used to determine the
current and relative level of social interaction in which the
patient is engaging.
[0046] FIG. 26 is an illustration of yet another additional or
alternate method, wherein a diagnostician applies a mobility
monitor logic of the diagnostic system of FIGS. 12 and 23 to
generate a GPS data baseline (hereinafter "GPS baseline").
[0047] FIG. 27 is a process chart of an even other additional or
alternate method, wherein the cellular telephone of FIGS. 12-15 is
programmed to render a distinctive ringtone, alarm tone, audio
message, and/or text message to alert the patient of FIG. 1 to take
a medication, engage in a medically recommended behavior, or cease
a behavior.
[0048] FIG. 28 illustrates a still further additional or alternate
method, wherein the phone of FIGS. 12-15 is programmed to remind
the patient of FIG. 12 to take, e.g., ingest, inhale, insert, or
topically apply, one or more medications of FIG. 12.
[0049] FIG. 29 is a schematic of a first exemplary patient record
selected from a plurality of patient records that are stored in the
cellular telephone of FIGS. 12-15, the DB computer of FIG. 12,
and/or the diagnostic system of FIGS. 12 and 23.
[0050] FIG. 30 illustrates an even other additional or alternate
method, wherein a patient record is applied by the phone of FIGS.
12-15 to record biometric data received from one or more sensors of
FIG. 1 and to send reminding alerts to encourage the patient of
FIG. 1 to perform meditative exercises, relaxation exercises, or
other therapeutic or prescribed behaviors.
[0051] FIG. 31 describes another additional or alternate method,
wherein high stress events that occur routinely in the routine life
of the patient are identified and the phone of FIGS. 12-15 is
programmed to encourage the patient of FIG. 12 to take therapeutic
steps to reduce the harmful impact of the stress inducing
events.
[0052] FIG. 32 is a schematic of an exemplary patient activity
log.
[0053] FIG. 33 describes a yet other alternate or additional
method, wherein the diagnostician analyzes information about
diagnostic test results, genetic test results, patient records,
patient activity logs, and other information to develop and
prescribe therapy.
[0054] FIG. 34 is a schematic of an exemplary first diagnostic test
record that includes a patient identifier, a phone identifier, and
a plurality of diagnostic test notes.
[0055] FIG. 35 is a schematic of an exemplary first genetic test
record that includes the patient identifier of FIG. 34, the phone
identifier, and a plurality of genetic test notes.
[0056] FIG. 36 is a schematic illustrating the diagnostic system
software as containing patient records, diagnostic records and
genetic records.
[0057] FIG. 37 is a schematic of the patient of FIG. 12 being
monitored by additional sensors.
[0058] FIG. 38 is a schematic diagram of the exemplary heart rate
sensor of FIG. 12.
[0059] FIG. 39 illustrates another still additional or alternate
method, wherein a diagnostician receives and analyzes information
and advises the patient of FIGS. 12-15 and 37 with therapeutic
guidance.
[0060] FIG. 40 illustrates another even additional or alternate
method, wherein the patient of FIGS. 12 and 37 is encouraged by yet
other engagement modalities to adhere to a prescribed ingestion of
the medicine of FIG. 12.
[0061] FIG. 41 illustrates another even additional process wherein
the patch receiver of FIG. 12 is attached or coupled to the patient
of FIG. 12 and monitored over two separate time periods.
[0062] FIG. 42 illustrates a system to facilitate adherence to a
treatment plan.
[0063] FIG. 43 illustrates a system to facilitate adherence to a
treatment plan including a patient management system
communicatively coupled with all other parts via a communications
bus.
DETAILED DESCRIPTION
[0064] While the present invention has been described with
reference to specific methods, devices and systems, it should be
understood by those skilled in the art that various changes may be
made and equivalents may be substituted without departing from the
true spirit and scope of the invention. In addition, many
modifications may be made to adapt a particular situation,
material, composition of matter, process, process step or steps, to
the objective, spirit and scope of the present invention. All such
modifications are intended to be within the scope of the claims
appended hereto.
[0065] Methods recited herein may be carried out in any order of
the recited events which is logically possible, as well as the
recited order of events.
[0066] Where a range of values is provided herein, it is understood
that each intervening value, to the tenth of the unit of the lower
limit unless the context clearly dictates otherwise, between the
upper and lower limit of that range and any other stated or
intervening value in that stated range, is encompassed within the
invention. The upper and lower limits of these smaller ranges may
independently be included in the smaller ranges and are also
encompassed within the invention, subject to any specifically
excluded limit in the stated range. Where the stated range includes
one or both of the limits ranges excluding either or both of those
included limits are also included in the invention.
[0067] Unless defined otherwise, all technical and scientific terms
used herein have the same meaning as commonly understood by one of
ordinary skill in the art to which this invention belongs. Although
any methods and materials similar or equivalent to those described
herein can also be used in the practice or testing of the present
invention, the methods and materials are now described.
[0068] It must be noted that as used herein and in the appended
claims, the singular forms "a", "an", and "the" include plural
referents unless the context clearly dictates otherwise. It is
further noted that the claims may be drafted to exclude any
optional element. As such, this statement is intended to serve as
antecedent basis for use of such exclusive terminology as "solely,"
"only" and the like in connection with the recitation of claim
elements, or use of a "negative" limitation.
[0069] Referring now generally to the Figures and particularly to
FIG. 1, FIG. 1 is a schematic of an electronic communications
network 2 communicatively coupled with an ingestible device 4
(hereinafter "IEMD" 4) wherein the IEMD 4 has been ingested within
a patient's body 6. A patient transceiver 8 is configured to
receive a wireless transmission from the IEMD 4 that includes an
ingestible event datum M, or "IEM M". Alternatively, the patient
transceiver 8 may be configured to acquire communicated information
comprising an IEM M, or a datum of an IEM M, via the electronic
communications network 2 or an aspect device or source 6-24
communicatively coupled with or comprised within the electronic
communications network 2.
[0070] The IEMD 4 gathers, collects, and/or generates ingestion
data via various methods, e.g., ingestion timing, contact with
alimentary system substances, sampling, etc. Further, various
ingestible event marker data source devices IEMD 4 communicate the
IEM M data via various methods, e.g., wireless methods, conductive
methods via body tissue, etc. The following are examples of the
ingestible devices 300a.
[0071] A pharma-informatics system described in PCT/US2006/016370,
filed Apr. 28, 2006, includes compositions, systems and methods
that allow for the detection of the actual physical delivery of a
pharmaceutical agent to the body 6 are provided. Embodiments of the
compositions include an identifier and an active agent.
[0072] A system described in PCT/US2008/52845, filed Feb. 1, 2008,
includes an IEMD 4 referred to therein as an ingestible event
marker IEM and patient transceiver 8 referred to therein as a
personal signal receiver. Aspects of data transmitted from the IEMD
4 may include an identifier, which may or may not be present in a
physiologically acceptable carrier. The identifier is characterized
by being activated upon contact with a target internal
physiological site of the body 6, such as digestive tract internal
target site. The patient transceiver 8 may be configured to be
associated with a physiological location, e.g., inside of or on the
body 6, and to receive a signal from the IEMD 4. During use, the
IEMD 4 broadcasts a signal which is received by the patient
transceiver 8.
[0073] The ingestion data associated with the electronic
communications network 2 (hereinafter "network" 2) include personal
patient data, e.g., physiologic data generated by the IEMD 4.
Examples are derived metrics, e.g., processed physical data to
derive various metrics such as time of ingestion data; combined
metrics, e.g., derived metrics combined with other derived metric
data such as time of ingestion data combined with data identifying
the ingested substance; and patient data, e.g., derived metrics
and/or combined metrics aggregated with various physiologic data
such as time of ingestion data combined with data identifying the
ingested substance and physiologic data such as ECG data,
temperature, etc.
[0074] A controlled activation ingestible identifier described in
PCT Patent Application PCT/US07/82563, filed Oct. 17, 2007,
includes ingestible compositions such as pharma-informatics enabled
compositions. The controlled activation ingestible identifiers
include a controlled activation element that provides for
activation of the identifier in response to the presence of a
predetermined stimulus at a target site of interest.
[0075] A life cycle pharma informatics system described in U.S.
Patent Provisional Application Ser. No. 61/034,085, filed Mar. 5,
2008 includes RFID and conductive communications technology
combined with medication and/or medication packaging such that the
medication can be tracked for the duration of its existence. The
system further allows in-body data transmissions while addressing
the potential privacy and signal degradation concerns associated
with RFID technology.
[0076] Additional examples of ingestible identifiers of interest
include those described in Examples of different types of
identifiers of interest include, but are not limited to, those
identifiers described in PCT application serial no.
PCT/US2006/016370 published as WO/2006/116718; PCT Patent
Application Serial No. PCT/US2007/082563 published as
WO/2008/052136; PCT Patent Application Serial No. PCT/US2007/024225
published as WO/2008/063626; PCT Patent Application Serial No.
PCT/US2007/022257 published as WO/2008/066617; PCT Patent
Application Serial No. PCT/US2008/052845 published as
WO/2008/095183; PCT Patent Application Serial No. PCT/US2008/053999
published as WO/2008/101107; PCT Patent Application Serial No.
PCT/US2008/056296 published as WO/2008/112577; PCT Patent
Application Serial No. PCT/US2008/056299 published as
WO/2008/112578; and PCT Patent Application Serial No.
PCT/US2008/077753; the disclosures of which are herein incorporated
by reference.
[0077] The patient transceiver 8 may be or comprise an electronic
communications device configured for receipt of wireless
transmissions from the IEMD 4 and optionally comprising, for
example, (a.) an information appliance; (b.) a television set-top
box; (c.) a VAIO FS8900 (.TM.) notebook computer marketed by Sony
Corporation of America, of New York City, N.Y., (d.) a SUN
SPARCSERVER (.TM.) computer workstation marketed by Sun
Microsystems of Santa Clara, Calif. and running a LINUX (.TM.) or a
UNIX (.TM.) operating system; (e.) a wireless communications
enabled personal computer configured for running WINDOWS XP (.TM.)
or VISTA (.TM.) operating system marketed by Microsoft Corporation
of Redmond, Wash.; (f.) a PowerBook G4 (.TM.) personal computer as
marketed by Apple Computer of Cupertino, Calif.; (g.) an iPhone
(.TM.) cellular telephone as marketed by Apple Computer of
Cupertino, Calif.; and/or (h.) a personal digital assistant enabled
for wireless communications.
[0078] The electronic communications network 2 may be or comprise,
for example, in whole or in part, a telephony network 2A, a
wireless communications network, a computer network, and/or the
Internet 2B.
[0079] The patient transceiver 8 is communicatively coupled with a
patient management data system 10 (hereinafter, "PMDS" 10) via the
electronics communications network 2. The patient transceiver 8 may
be communicatively coupled with the electronics communications
network 2 (hereinafter, "the network" 2) by a hard wire connection
and/or a wireless communications mode with a first network
transceiver 12, wherein the first network transceiver 12 is
communicatively coupled with the network 2 by a hard wire
connection.
[0080] A patient messaging module 14 is additionally coupled with
the network 2, wherein the patient messaging module 14 enables a
clinician or an automated information system (not shown) to
transmit recommendations to the patient regarding medicinal
ingestion, patient behavior and therapeutic activity. The patient
messaging module 14 and/or the PDMS transceiver 8 may be
communicatively coupled with the network 2 by means of a hard wire
connection and/or a wireless communications mode with a second
network transceiver 16, wherein the first network transceiver 12 is
communicatively coupled with the network 2 by a hard wire
connection.
[0081] It is understood that the patient messaging module 14 may be
comprised within the PMDS 10, and that the patient messaging module
14 and/or the PMDS 10 may comprise or be comprised within a unified
or distributed electronic information technology system configured
for communication via the network 2 and optionally comprising, for
example, (a.) an information appliance; (b.) a television set-top
box; (c.) a VAIO FS8900 (.TM.) notebook computer marketed by Sony
Corporation of America, of New York City, N.Y., (d.) a SUN
SPARCSERVER (.TM.) computer workstation marketed by Sun
Microsystems of Santa Clara, Calif. and running a LINUX (.TM.) or a
UNIX (.TM.) operating system; (e.) a wireless communications
enabled personal computer configured for running WINDOWS XP (.TM.)
or VISTA (.TM.) operating system marketed by Microsoft Corporation
of Redmond, Wash.; (f.) a PowerBook G4 (.TM.) personal computer as
marketed by Apple Computer of Cupertino, Calif.; (g.) a mobile or
cellular digital telephone; (h.) an iPhone (.TM.) cellular
telephone as marketed by Apple Computer of Cupertino, Calif.;
and/or (i.) a personal digital assistant enabled for wireless
communications.
[0082] A patient input device 18 is additionally coupled with the
network 2, wherein the patient input device 18 enables a patient or
caregiver (not shown) to transmit reports and information regarding
patient adherence or non-adherence to recommended therapy; patient
behavior; patient physical, mental, or emotional condition; risk
taking or risk seeking behavior by the patient; and therapeutic
activity of the patient. The patient input device 18 may be
included within the patient transceiver 8, and/or may comprise or
be comprised within an electronic communications device, or a
unified or distributed electronic information technology system
configured for communication via the network 2 and optionally
comprising, for example, (a.) an information appliance; (b.) a
television set-top box; (c.) a VAIO FS8900 (.TM.) notebook computer
marketed by Sony Corporation of America, of New York City, N.Y.,
(d.) a SUN SPARCSERVER (.TM.) computer workstation marketed by Sun
Microsystems of Santa Clara, Calif. and running a LINUX (.TM.) or a
UNIX (.TM.) operating system; (e.) a wireless communications
enabled personal computer configured for running WINDOWS XP (.TM.)
or VISTA (.TM.) operating system marketed by Microsoft Corporation
of Redmond, Wash.; (f.) a PowerBook G4 (.TM.) personal computer as
marketed by Apple Computer of Cupertino, Calif.; (g.) an iPhone
(.TM.) cellular telephone as marketed by Apple Computer of
Cupertino, Calif.; (h.) an iPhone (.TM.) cellular telephone as
marketed by Apple Computer of Cupertino, Calif.; and/or (i.) a
personal digital assistant enabled for wireless communications.
[0083] A first vital parameter monitor 20, or "first sensor" 20, is
coupled with the patient's body 6 and may be or comprise, for
example, a motion detector, a heart rate monitor, a blood pressure
monitor, a respiration monitor, and/or a patient skin electrical
current conductivity monitor. A second vital parameter monitor 22,
or "second sensor" 22, is coupled with the patient's body 6 and may
additionally be or comprise, for example, a motion detector 23, a
heart rate monitor, a blood pressure monitor, a respiration
monitor, and/or a patient skin electrical current conductivity
monitor.
[0084] The motion detector 23 is communicatively coupled to the
analysis module and the PMDS 10 whereby the PMDS 10 incorporates a
patient motion datum generated by and communicated from the motion
detector 23 in an analysis of at least one health parameter of a
patient. The motion detector 23 may be, comprise, or comprised
within, for example, a cellular telephone, an accelerometer and/or
a global positioning signal device.
[0085] A third vital parameter monitor 24 is positioned remotely
from the patient's body 6, and is configured to monitor a vital
parameter of the patient's body 6 by remote sensing, for example,
sound detection, air pressure variation, light energy reflection,
and/or heat detection. The third sensor 24 may be or comprise a
motion detector, for example, a heart rate monitor, a blood
pressure monitor, a respiration monitor, and/or a patient skin
electrical current conductivity monitor.
[0086] A system described in PCT/US2008/52845, filed Feb. 1, 2008,
includes an IEMD 4 referred to therein as an ingestible event
marker IEMD 4 and patient transceiver 8 referred to therein as a
personal signal receiver. Aspects of IEM M data transmitted from
the IEMD 4 and/or sensors 20, 22, 23 and 24 may include an
identifier (sometimes, for example, referred to herein as an
"ingestible event marker", an "ionic emission module", and/or an
"IEM"), which may or may not be present in a physiologically
acceptable carrier. The identifier is characterized by being
activated upon contact with a target internal physiological site of
a body, such as digestive tract internal target site. The patient
transceiver 8 may be configured to be associated with a
physiological location, e.g., inside of or on the body, and to
receive a signal from the IEMD 4 and/or sensors 20, 22, 23 and 24.
During use, the IEMD 4 and/or sensors 20, 22, 23 and 24 broadcasts
signals that are received by the patient transceiver 8.
[0087] The ingestion data associated with the network 2 include
personal data, e.g., physiologic data generated by the IEMD 4
and/or sensors 20, 22, 23 and 24. Examples are derived metrics,
e.g., processed physical data to derive various metrics such as
time of ingestion data; combined metrics, e.g., derived metrics
combined with other derived metric data such as time of ingestion
data combined with data identifying the ingested substance; and
patient data, e.g., derived metrics and/or combined metrics
aggregated with various physiologic data such as time of ingestion
data combined with data identifying the ingested substance and
physiologic data such as ECG data, temperature, etc.
[0088] A controlled activation ingestible identifier described in
PCT/US07/82563, filed Oct. 17, 2007, includes ingestible
compositions such as pharma-informatics enabled compositions. The
controlled activation ingestible identifiers include a controlled
activation element that provides for activation of the identifier
in response to the presence of a predetermined stimulus at a target
site of interest.
[0089] A life cycle pharma informatics system described in U.S.
Patent Application Ser. No. 61/034,085, filed Mar. 5, 2008 includes
RFID and conductive communications technology combined with
medication and/or medication packaging such that the medication can
be tracked for the duration of its existence. The system further
allows in-body data transmissions while addressing the potential
privacy and signal degradation concerns associated with RFID
technology.
[0090] The computer architecture shown in FIG. 2 illustrates the
aspects of the PMDS 10, including a central processing unit 26
(hereinafter, "CPU"), a system memory 28, including a random access
memory 30 (hereinafter, "RAM") and a read-only memory (hereinafter,
"ROM") 32, and a power and communications system bus 34 that
couples the system memory 28 to the CPU 26. A basic input/output
system 36 containing the basic software-encoded instructions and
routines that help to transfer information between elements within
the PMDS 10, such as during startup, is stored in the ROM 20. The
PMDS 10 further includes a system software 38 and a database
management system 40 (hereinafter "DBMS" 40), which will be
described in greater detail below, stored in the system memory 28
and/or a computer-readable medium 42.
[0091] A media writer/reader 44 is bi-directionally communicatively
coupled to the CPU 26 through the power and communications system
bus 34 (hereinafter "the bus" 34). The media writer/reader 44 and
the associated computer-readable media 42 are selected and
configure to provide non-volatile storage for the PMDS 10. Although
the description of computer-readable media 42 contained herein
refers to a mass storage device, such as a hard disk or CD-ROM
drive, it should be appreciated by those skilled in the art that
computer-readable media can be any available media that can be
accessed by the PMDS 10.
[0092] By way of example, and not limitation, computer-readable
media 42 may comprise computer storage media and communication
media. Computer storage media includes volatile and non-volatile,
removable and non-removable media implemented in any method or
technology for storage of information such as computer-readable
instructions, data structures, program modules or other data.
Computer storage media includes, for example, but is not limited
to, RAM, ROM, EPROM, EEPROM, flash memory or other solid state
memory technology, CD-ROM, digital versatile disks ("DVD"), or
other optical storage, magnetic cassettes, magnetic tape, magnetic
disk storage or other magnetic storage devices, or any other medium
which can be used to store the desired information and which can be
accessed by the PMDS 10.
[0093] The computer-readable medium 42 may comprise
machine-readable instructions which when executed by the PMDS 10 to
cause the PMDS 10 to perform one or more steps as described in the
Figures and enabled by the present disclosure. The bus 34 further
bi-directionally communicatively couples a network interface 46, a
user input interface 48, a user audio input interface 50, and a
video screen interface 52 with the CPU 26 and the system memory 28.
The video screen interface 52 directs visual presentations of data
on a visual display screen 54 and bi-directionally communicatively
couples the visual display screen 54 with the CPU 26 via the
communications bus 34. The user input interface 48 couples a user
input device 56, for example, an electronic keyboard, a computer
mouse, a computer trackball, or a computer mouse pad, with the CPU
26 via the communications bus 34 and enables the clinician to input
icon selections, commands and data to the PMDS 10. The icon
selections may be chosen from images presented on the visual
display screen 54.
[0094] The audio input interface 50 couples a user audio input
device 58, for example an audio microphone, with the CPU 26 via the
communications bus 34 and enables the clinician to input vocal
input that communicates icon selections, commands and data to the
PMDS 10, and/or digitized representations of verbal expressions.
The digitized representations of verbal expressions may be
transmitted via the network interface 46 to enable VoIP
communications with the patient input device 18 and/or the patient
transceiver 8.
[0095] An audio output interface 60 communicatively coupled with
the communications bus 34 receives digitized verbal information,
for example, VoIP messages, from the network 2 via the network
interface 46 and drives the audio output device 62 to audibly
output verbal message derived from the digitized verbal
communications.
[0096] An audio/text converter module 64 (a.) converts digitized
audio data into textual data for storage in a patient record R.0;
and (b.) converts text data into audio data representative of
vocalizations of the source text data. The converted text data may
be received via the bus 34 and from the system memory 28 or the
network 2, or generated by the CPU 26.
[0097] A wireless interface 66 enables bi-directional communication
between the bus 34 and a wireless transceiver 68, whereby the PMDS
10 may communicate via the wireless and/or hard wired telephony
network 2A with an element 8-16 to the network 2.
[0098] It is understood that the additional elements 8 and 12-16 of
the network 2 may include one, several or all of the aspects 26-68
of the PMDS 10. It is further understood that the PMDS 10 may
optionally, additionally or alternatively be configured to acquire
a communicated information comprising an IEM M, or a datum of an
IEM M, via the electronic communications network 2 or an aspect
device or source 6-24 communicatively coupled with or comprised
within the electronic communications network 2.
[0099] FIG. 3 is an illustration of the system software 38 of the
PMDS 10 of FIGS. 1 and 2. An operating system 70 enables a VOIP
client software module 72 to provide voice data to the network 2 by
directing the audio input driver 74 to digitize acoustic signals
detected by the audio input device 58 to form a digitized voice
record and transmit the digitized voice record to the patient
transceiver 8 and or the patient input device 18 via the network 2.
It is understood that the first network transceiver 12 and/or the
second network transceiver 16 may facilitate the transmission of
voice communications between the PMDS 10 and the patient
transceiver 8 and/or the patient input device 18. An audio output
driver 76 processes digitized acoustic signals received from the
network 2 and directs the audio output interface 60 and the audio
output device 62 to derive and broadcast acoustic signals from the
received digitized acoustic signals for hearing by the
clinician.
[0100] A display driver 78 directs the video interface 52 and the
video screen 54 to visually present information received from, or
derived from inputs derived from the network 2, the patient
transceiver 8, the patient input device 18, the first network
transceiver 12, the second network transceiver 16, a graphical user
interface driver 80 of the PMDS 10, the audio input device 58
and/or the input device 56. A web browser 82 may enable the PMDS 10
to visually display information received from the Internet 2B. The
user record R.0 and a plurality of user records R.1-R.N are stored
in a patient database 84 of the DBMS 40.
[0101] A text editor 86 and an email client 87 separately or in
combination enable the clinician to, for example, prepare text
messages, and/or to include reminder messages for medication
ingestion, for transmission via the network 2 and to the patient
transceiver 8 and or the patient input device 18. It is understood
that the first network transceiver 12 and/or the second network
transceiver 16 may facilitate the transmission of text messages
between the PMDS 10 and the patient transceiver 8 and/or the
patient input device 18.
[0102] It is understood that the additional elements 8 and 12-16 of
the network 2 may include one, several or all of the software
aspects 70-86 of the PMDS 10.
[0103] Referring now generally to the Figures and particularly to
FIG. 4A, FIG. 4A is an illustration of the representative first
patient record R.0 the format of which may be followed in whole or
in part by one or more of the remaining patient records R.1-R.N. A
first record identifier R.0.ID uniquely identifies the first record
R.0 within the PMDS 10 and a patient identifier R.0.PID identifies
the patient associated with the first record R.0. A network patient
address R.0.ADDR identifies a network address of the patient
transceiver 8 and/or the patient input device 18 to which
electronic messages, for example, email messages, may be sent. A
patient telephone number R.0.ADDR.T identifies a telephone number
used to establish a telephonic communications session during which
a text message or a voice communication maybe accomplished. One or
more medication records R.0.MR.0-R.0.MR.N specify one or more
medicines prescribed to the patient. A medication reminder flag
R.0.FM indicates whether the patient is to be reminded by the PMDS
10 to ingest or otherwise apply a medication. One or more behavior
records R.0.BHR.0-R.0.BHR.N specify one or more behaviors
prescribed to the patient. A behavior remind flag R.0.FB indicates
whether the patient is to be reminded by the PMDS 10 to engage in
(or to avoid) a specified behavior. A patient history data retains
information associated with the patient and may include records of
receipt of attestations from the patient and receipt of ingestible
event data IEM M. A patient activity data R.ACT retains information
describing expected types of patient activities and expected times
of the patients may be engaging in each expected activities.
[0104] Referring now generally to the Figures and particularly to
FIG. 4B, FIG. 4B is an illustration of the representative first
medication record R.0.MR.0. A first medication record identifier
RM.ID uniquely identifies the first medication record R.0.MR.0
within the PMDS 10, and the patient identifier R.0.PID identifies
the patient associated with the first medication record R.0.MR.0. A
medication identifier MED.ID identifies the medication and dosage
thereof associated with the first medication record R.0.MR.0. A
dosage data MED.D indicates what dosage of the identified
medication is to be ingested or applied.
[0105] An application schedule MED.S indicates when the associated
medication is prescribed to be ingested or otherwise applied. A
first remind flag FLAG1 indicates if the patient shall be reminded
to apply or ingest the associated medication before the next
prescribed time, wherein the reminder may be sent at approximately
a first remind time period TR1 before the next prescribed time. A
first remind medication text TXT1 (hereinafter, "first remind text"
TR1) is a prerecorded text message that may be sent prior to the
scheduled time of ingestion or application as a reminder message to
the patient to encourage ingesting or applying the associated
medication.
[0106] A second remind flag FLAG2 indicates if the patient shall be
reminded to ingest the medication associated with the first
medication record R.0.MR.0 in the event that an ingestion event
datum IEM M has not been received by the network 2 within a second
remind TR2 time after a prescribed ingestion time has passed. A
second remind text TXT2 is a prerecorded text message that may be
sent after a scheduled time as a reminder message to the patient to
encourage ingesting or applying the associated medication
identified by the medication identifier MED.0.
[0107] Referring now generally to the Figures and particularly to
FIG. 4C, FIG. 4C is an illustration of the representative first
behavior record R.0.BHR.0. A first behavior record identifier
R.BHR.ID uniquely identifies the first behavior record R.0.BHR.0
within the PMDS 10, and the patient identifier R.0.PID identifies
the patient associated with the first behavior record R.0.BHR.0. A
behavior identifier BHR.ID identifies the behavior associated with
the first behavior record R.0.BHR.0. A behavior description text
BHR.D includes a textual description of a behavior recommended to
be engaged in or avoided. A behavior application schedule BHR.S
indicates when the associated behavior is prescribed to be ingested
or otherwise applied. A first behavior remind flag BFLG1 indicates
if the patient shall be reminded to perform or avoid the associated
behavior before the next prescribed time, wherein the reminder may
be sent at approximately a TRB1 time period before the next
prescribed time. A first behavior text TXT1B is a prerecorded text
message that may be sent prior to the scheduled time of ingestion
or application as a reminder message to the patient to encourage
performing, or alternatively avoided, the behavior identified by
the behavior identifier BHR.ID.
[0108] A second behavior remind flag BFLG2 indicates if the patient
shall be reminded to perform, or alternatively avoid, the behavior
associated with the first behavior record R.0.BHR.0 if an
attestation by the patient has not been received by the network 2
within a time after a prescribed time of performance has passed. A
second behavior text TXT2B is a prerecorded text message that may
be sent, for example, after a scheduled time of behavior
performance, or alternatively, a behavior avoidance, as a reminder
message to the patient to encourage performing, or alternatively
avoid performing, the associated behavior identified by the
behavior identifier BHR.ID.
[0109] Referring now generally to the Figures and particularly to
FIG. 4D, FIG. 4D is an illustration of the representative patient
history data H.D of the first record R.0. The patient history data
H.D includes, for example, (a.) a plurality of marker record
H.M0-H.MN of previously received ingestion markers IEM M, (b.) a
plurality of attestation records H.PA0-H.PAN containing notations
of attestations received from the patient, and (c.) a plurality of
text message records H.T0-H.TN of previously transmitted text
messages sent to the patient transceiver 8 and/or the patient input
device 18. The received patient attestation records H.PA0-H.PAN may
include, for example, notations of attestations of performed
behaviors, attestations of applications or ingestions of medicines,
and/or attestations of avoided behaviors.
[0110] Referring now generally to the Figures and particularly to
FIG. 5, FIG. 5 is an illustration of additional aspects of the
method of the present invention, wherein a patient is treated for a
health condition. In step 502 a database record R.0 is initiated in
the PMDS 10 identifying the patient. The patient is evaluated in
step 504 and diagnosed in step 506. A patient activity model is
generated in step 508 wherein the daily activity of the patient is
included in a software-encoded portion of the database record R.0.
Medications and behaviors are prescribed in step 510 and the
prescribed medications and behaviors are stored in the database
record R.0. The patient is counseled and advised of the prescribed
medications and behaviors as stored in the database record R in
step 514.
[0111] The receipt of ingestion markers IEM M transmitted from one
or more IEMD's 4 and measurements and transmissions of the sensors
20, 22, 23 and 24 are received by the patient transceiver 8 and
transmitted to the PMDS 10 via the network 2 and the patient record
R.0 is updated with the received parametric data in step 516.
Attestations by the patient, for example, of (a.) changes in
patient activity varying from the activity model of step 508; (b.)
adherence and non-adherence to prescribed medication ingestion
schedule by the patient; and (c.) performance and non-performance
of prescribed patient behaviors are received via the patient input
device 18 and by the PMDS 10 via the network 2 in step 518.
[0112] The information received in steps 516 and 518 are evaluated
by a clinician or an expert information technology system (not
shown) in step 520 in view of other information included in the
patient record R.0. The clinician or the expert information
technology system may update the patient diagnosis in step 522, and
may further determine in step 524 whether to cease treatment of the
patient. When the clinician or expert system determines in step 824
that the current treatment cycle of the patient shall cease, the
patient is informed of the cessation of treatment, and the database
record R.0 is updated with a notice of treatment termination, in
step 526. The treatment is ended in step 528.
[0113] When the clinician or expert system determines in step 524
that the current treatment cycle of the patient shall continue, the
clinician or expert system determines by analysis of the patient
record R.0, or one or more additional patient records R.0-R.N and
optionally in consultation with the patient, determines in step 530
whether to increase or decrease medication dosage or frequency.
When the clinician or expert system determines in step 530 to
increase or decrease medication dosage or frequency, the patient is
informed of the prescription change and the pharmacy is updated in
step 534.
[0114] The clinician or expert system determines by analysis of the
patient record R.0, and optionally in consultation with the patient
determines in step 536 whether to alter prescribed or recommended
behaviors. The patient is informed in step 538 of any alterations
or additions of prescribed or recommended behaviors.
[0115] The PMDS 10 determines by analysis of the patient record
R.0, in step 542 whether to remind the patient to, for example,
ingest or apply a medication, or engage in a prescribed or
recommended behavior, and the patient is reminded in step 542 to,
for example, ingest or apply a medicine, or engage in a prescribed
or recommended behavior.
[0116] Referring now generally to the Figures and particularly to
FIG. 6, FIG. 6 is an illustration of other aspects of the method of
the present invention, wherein certain behavior of the patient is
denoted. In step 602 the patient receives a prescription of
medications and behaviors. It is understood that a prescription of
medication may include both the medication to be ingested and a
schedule for ingesting the prescribed medications. The patient
reports a schedule of expected activities via the patient input
device 18 to the PMDS 10 in step 604. The schedule of expected
activities, for example, may include work sessions, such as manual
labor, expense report authoring, staff meetings, customer
interaction periods, negotiations sessions, employee review
meetings, sales forecast development, and presentations. The
expected activities reported by the patient in step 604 are
integrated into a patient record R.0 of the patient database 84 by
means of the patient input device 18 and the network 2. The patient
positions one or more sensors 20, 22, 23 and 24 in step 606 to
enable the sensors 20, 22, 23 and 24 to detect one or more vital
parameters of the patient. The patient ingests an IEMD 4 wherein
the IEMD 4 transmits an ingestion report with a marker datum IEM M
in step 608. The patient may further adhere to behaviors in step
612 as suggested in the prescription received in step 602, and
report adherence in step 612 with suggested behaviors, to include
one or more ingestions of an IEMD 4.
[0117] The patient may elect to cease following medical advice in
step 614, and for example, to cease ingesting IEMD's 4, may proceed
on to report cessation of adherence to the PMDS 10 by means of the
patient input device 18 and the network 2 in step 616. The patient
may cease implementing the prescriptive behaviors in step 618.
Alternatively, the patient may determine to proceed from step 614
to step 620 and to query the PMDS 10 to determine whether the
prescription assigned by the PMDS 10 has been modified. When the
patient determines in step 620 that the assigned prescription has
not been modified, the patient proceeds from step 620 back to step
608. When the patient determines in step 620 that the assigned
prescription has been modified, the patient proceeds from step 620
back to step 602 to receive and review the modified assigned
prescription.
[0118] Referring now generally to the Figures and particularly to
FIG. 7, FIG. 7 describes a process implemented by the PMDS 10 in
communication with the network 2, the sensors 20, 22, 23 and 24 and
the IEMD 4. In step 702, the PMDS 10 receives a marker datum IEM M
of an ingestion report transmitted from the IEMD 4. In step 704,
the PMDS 10 compares the medicine identified by the marker datum
IEM M and the time of receipt of the marker datum IEM M with the
medication records R.0.MR.0-R.0.MR.N. The PMDS 10 determines in
step 7.06 whether the marker datum IEM M received step 7.02 is
compliant with a medication record R.0.MR.0-R.0.MR.N. When the PMDS
10 determines in step 7.06 that receipt of the marker datum IEM M
of step 7.02 is noncompliant with a medication record
R.0.MR.0-R.0.MR.N, the PMDS 10 records the instant receipt of the
marker datum IEM M in the patient history data H.D as a
noncompliant event and issues and transmits a patient notice of
nonadherence in step 710 to the patient transceiver 8 and/or the
patient input device 18. When the PMDS 10 determines in step 7.06
that receipt of the marker datum IEM M of step 7.02 is compliant
with a medication record R.0.MR.0-R.0.MR.N, the PMDS 10 updates
patient history data H.D in step 712 with a notation of adherence.
The PMDS 10 proceeds from either step 710 or 712 to step 714 and to
perform alternate computational operations.
[0119] Referring now generally to the Figures and particularly to
FIG. 8, FIG. 8 is a process chart of a method in which a clinician
or an expert system monitors a vital parameter of the patient and
suggest via the network 2 a therapeutic behavior intended to
improve the health of the patient. In step 802 the PMDS 10 receives
vital parameter data from one or more sensors 20, 22, 23 and 24. In
step 804 the PMDS 10 compares the vital parameter data received in
step 802 with a range of healthy values of the instant vital
parameter, for example, heart rate, blood pressure, respiration
rate, respiration intensity, and electrical skin conductivity. The
PMDS 10 determines in step 806 whether the vital data received in
step 802 falls within the healthy range of the instant vital
parameter as stored in the PMDS 10 or elsewhere in the network 2.
When the PMDS 10 determines in step 806 that the vital data
received in step 802 does not falls within the healthy range of the
instant vital parameter, the PMDS 10 proceeds from step 806 to step
808 and correlates the time of the receipt of the vital parameter
data with the activity schedule of patient activity data R.ACT of
one or more patient records R.0-R.N associated with the patient. In
step 810 the PMDS 10 selects a therapeutic behavior intended to
encourage the patient to maintain the vital parameter referenced in
step 802 within the healthy range selected in step 802. The
therapeutic behavior selected in step 810 may be provided by a
clinician by input to the PMDS 10 or by means of the
patient-messaging module 14. When the vital parameter referenced in
step 802 is hypertension of the cardiovascular system, the selected
therapeutic behavior may be or include, for example, listening to
calming music, performing meditation, and/or physical exercise. In
step 812 the therapeutic behavior is prescribed to the patient in
view of a patient activity associated in the patient activity data
R.ACT with the time of the receipt of the vital parameter data
received in step 802. A patient behavior suggestion is transmitted
from the PMDS 10 and/or the patient messaging module 14 in step
814, wherein the suggestion advises the patient to engage in the
therapeutic behaviors selected in step 810 at times correlated with
patient behavior correlated in step 808 and reported in the patient
activity data R.ACT. The PMDS 10 proceeds from step 816 and to
perform alternate or additional computational operations.
[0120] Referring now generally to the Figures and particularly to
FIG. 9, FIG. 9 is a process chart of a method of the PMDS 10 to
determine if and when to send a text or audio message to the
patient transceiver 8 and/or the patient input device 18. In step
902 the PMDS accesses one or more patient records R.0-R.N. The PMDS
10 determines in step 904 whether an ingestion of a medicine has
been prescribed to the patient. When the PMDS determines in step
904 that the patient has not been prescribed to ingest a
medication, the PMDS 10 proceeds on from step 904 to step 906 and
to perform alternate or additional computational operations.
[0121] When the PMDS determines in step 904 that the patient has
been prescribed in a medication record R.0.MR.0-R.0.MR.N of a
patient record R.0-R.N to ingest an IEMD 4 containing a medication,
the PMDS 10 proceeds on from step 904 to step 908, and to examine
the first remind flag FLAG1 of the instant medication record
R.0.MR.0-R.0.MR.N. When the first remind flag FLAG1 indicates an
instruction to remind the patient of a recommended medication
ingestions. When the first remind flag FLAG1 indicates an
instruction to remind the patient of prescribed medicine ingestion
recommendations, the PMDS 10 proceeds from step 908 to step 910.
The PMDS 10 calculates the next scheduled time for an IEMD 4
ingestion in step 910 by analyzing information of the application
schedule MED.S and calculates the next scheduled ingestion time
TNEXT. The PMDS 10 reads the first remind time period TR1 from the
medication record R.0.MR.0-R.0.MR.N accessed in step 908. The PMDS
10 accesses the real time clock 27 determines the current real time
TACTUAL in step 914, and calculates the time difference TDELTA
between the current time TACTUAL and the next scheduled ingestion
time TNEXT. The PMDS 10 determines in step 918 whether the time
difference TDELTA is less than the first remind time period TR1.
When the PMDS 10 determines in step 918 that the time difference
TDELTA is not less than the first remind time period TR1, the PMDS
10 proceeds from step 918 to step 906. When the PMDS 10 determines
in step 918 that the time difference TDELTA is less than the first
remind time period TR1, the PMDS 10 proceeds from step 918 to step
920 and selects the first remind text TXT1 from the medication
record R.0.MR.0-R.0.MR.N accessed in step 908, and transmits the
first remind text TXT1 to the patient transceiver 8 and/or the
patient input device 18 in step 922.
[0122] The PMDS 10 proceeds from either step 922 or step 906 to
step 924 and to determine whether to cease monitoring for
transmissions of markers IEM M from the IEMD 4 and the sensors 20,
22, 23 and 24. When the PMDS 10 determines to continue monitoring
the sensors 20, 22, 23 and 24 and for transmissions of markers IEM
M from the IEMD 4, the PMDS 10 proceeds from step 924 to step 902.
When the PMDS 10 determines to cease monitoring the sensors 20, 22,
23 and 24 and for transmissions of markers IEM M from the IEMD 4,
the PMDS 10 proceeds from step 924 to step 926 perform alternate or
additional computational operations.
[0123] Referring now generally to the Figures and particularly to
FIG. 10, FIG. 10 is a process chart of a method of the PMDS 10 to
determine if and when to send a text or audio message to the
patient transceiver 8 and/or the patient input device 18 when an
ingestion marker datum IEM M is not received approximately when a
marker datum IEM M would be received when the IEMD 4 is ingested
prescribed. In step 1002 the PMDS accesses one or more patient
records R.0-R.N. The PMDS 10 determines in step 1004 whether an
ingestion of a medicine has been prescribed to the patient. When
the PMDS determines in step 1004 that the patient has not been
prescribed to ingest a medication, the PMDS 10 proceeds on from
step 1004 to step 1006 and to perform alternate or additional
computational operations.
[0124] When the PMDS determines in step 1004 that the patient has
been prescribed in a medication record R.0.MR.0-R.0.MR.N of a
patient record R.0-R.N to ingest an IEMD 4 containing a medication,
the PMDS 10 proceeds on from step 1004 to step 1008, and to examine
the second remind flag FLAG2 of the instant medication record
R.0.MR.0-R.0.MR.N. When the second remind flag FLAG2 indicates an
instruction to remind the patient of a recommended medication
ingestion when an ingestible event marker datum IEM M has not been
received as would be when an IEMD 4 had been ingested as directed
by the medication record R.0.MR.0-R.0.MR.N of step 1004. When the
second remind flag FLAG2 indicates an instruction to remind the
patient of a tardiness in following prescribed medicine ingestion
as prescribed, the PMDS 10 proceeds from step 1008 to step 1010.
The PMDS 10 calculates the next scheduled time for an IEMD 4
ingestion in step 1010 by analyzing information of the application
schedule MED.S and calculates the next scheduled ingestion time
TNEXT. The PMDS 10 accesses the real time clock 27 determines the
current real time TACTUAL in step 1012, and calculates the time
difference TOVER between the current time TACTUAL and the scheduled
ingestion time TNEXT IN STEP 1014.
[0125] The PMDS 10 reads the second remind time period TR2 in step
1016 from the medication record R.0.MR.0-R.0.MR.N accessed in step
1008. The PMDS 10 determines in step 1018 whether the time
difference TOVER calculated in step 1014 is less than the second
remind time TR2 of step 1016. When the PMDS 10 determines in step
1018 that the time difference TOVER is less than the second remind
time TR2, the PMDS 10 proceeds from step 1018 to step 1006. When
the PMDS 10 determines in step 1018 that the time difference TDELTA
is not less than the second remind time TR2, the PMDS 10 proceeds
from step 1018 to step 1020 and selects the second remind text TXT2
from the medication record R.0.MR.0-R.0.MR.N accessed in step 1008,
and transmits the second remind text TXT2 to the patient
transceiver 8 and/or the patient input device 18 in step 1022.
[0126] The PMDS 10 proceeds from either step 1022 or step 1006 to
step 1024 and to determine whether to cease monitoring for
transmissions of markers M from the IEMD 4 and the sensors 20, 22,
23 and 24. When the PMDS 10 determines to continue monitoring the
sensors 20, 22, 23 and 24 and for transmissions of markers M from
the IEMD 4, the PMDS 10 proceeds from step 1024 to step 1002. When
the PMDS 10 determines to cease monitoring the sensors 20, 22, 23
and 24 and for transmissions of markers M from the IEMD 4, the PMDS
10 proceeds from step 1024 to step 1026 perform alternate or
additional computational operations.
[0127] Referring now generally to the Figures and particularly to
FIGS. 2, 4A, 4B, 4C, and 4D, the audio/text converter module 64 is
configured to convert digitized audio data received from the
patient transceiver 8, the patient input device 18, the patient
messaging module 14, the first network transceiver 12 and/or the
second network transceiver 16 into textual data for storage in a
patient record R.0, for example in the patient history data H.D,
the patient activity data R.ACT, the first remind text TXT1, the
second remind text TXT2, the first behavior remind text TXT1B and
the second behavior remind text TXT2B, and/or the behavior
description text BHR.D.
[0128] The audio/text converter module 64 is further configured to
convert text data into digitized audio data representative of
vocalizations of the source text data from the PMDS 10 and/or the
patient messaging module 14 and for transmission of the digitized
audio data representations to the patient transceiver 8 and/or the
patient input module 18. The text data and the digitized audio data
may be received via the bus 34 and from the system memory 28 or the
network 102, or generated by the CPU 26.
[0129] Referring now generally to the Figures and particularly to
FIG. 12, FIG. 12 is a schematic of a patient coupled with a
plurality of biometric sensors and in communication with a cellular
telephone, other mobile computational devices and information
technology networks. In one example, it is a schematic of a patient
88 with a blood pressure sensor 90 wrapped around a right arm 92, a
wireless heart rate sensor 94 in contact with a right leg 96, a
wireless body temperature sensor 98 positioned within a left ear
canal 100, and a respiration monitor 102 positioned at a patient's
mouth and nose area 104. These sensors are bi-directionally
communicatively coupled to a first network computer 106. To
illustrate, biometric data may include body related data, e.g.,
temperature, ph factor, pulse rate, and ingestion data may include
event and/or medication related data, e.g., nature, type of
medication, dosage, time at which ingestion took place, adherence
to prescription, level of adherence to prescription, etc.,
communicated to a wireless communications device or receiver, e.g.,
computer, patch receiver, etc. The biometric data may include, for
example, a unique identifier which may be compared to various data,
e.g., genetic profile data, emotional data, and other data. Such
data may be associated with one or more of a variety of devices,
e.g., cellular phone, wireless computer, PDA, and wireless comms
system or receiver for validation purposes.
[0130] A database computer 108, or "DB computer" 108, and a medical
diagnostic computational system 110 (hereinafter, "diagnostic
system" 110) are bi-directionally communicatively coupled with the
network 2. A software-encoded database may be associated with the
database computer 108 and may include current and historical data
pertaining to the patient 88. The historical data includes, for
example, medical record(s), health record(s), or medical chart(s)
which are systematic documentation of a patient's medical history
and care. The term "medical record" is used both for the physical
information for the patient and for the body of information which
comprises the total of each patient's health history. The network 2
is bi-directionally and communicatively coupled with a telephonic
network, represented by telephony network 2A and with other forms
of telecommunication devices, e.g., fax etc, represented by,
telecommunications network 112 (hereinafter "TELCO" 112).
[0131] Communication devices, for example, a digital cellular
telephone 114, a wireless enabled network computer 116 and a
wireless enabled personal digital assistant (PDA) 118 are further
bi-directionally communicatively coupled with the network 2 via a
wireless communications system 120 (hereinafter "wireless comms
system" 120). It is understood that the definition of the term
"computer" as used in the present disclosures includes, for
example, digital cellular telephones, personal digital assistants,
network computer, computer workstations, automated database
systems, servers, and web servers.
[0132] In another aspect, one or more sensors 20, 22, 23, 24, 94,
98, and/or 102 may be conductively or communicatively coupled to a
patch receiver 122, positioned on the skin or subcutaneously or as
a wristband or any such wearable device. The patch receiver 122 in
turn may be communicatively coupled to the first network computer
106. The first network computer 106 is bi-directionally
communicatively coupled to electronics communications network 2.
The network 2 may further facilitate a two-way communication with
the Internet 2B.
[0133] An IEMD 4 optionally includes a medicine 126. The IEMD 4 is
an in-body device as disclosed herein. Examples of in-body devices
include, but are not limited to: implantable devices, e.g.,
implantable therapeutic devices, such as but not limited to stents,
drug delivery devices, orthopedic implants, implantable diagnostic
devices, e.g., sensors, biomarker recorders, etc.; ingestible
devices such as the IEMD 4 described in the preceding references;
etc.
[0134] In various aspects, the biometric data may be communicated
to and/or from one or more receiving devices (not shown), for
example, a biometric data receiver such as the computer 106, etc.
The biometric receiver 106, 114, 116, 118 and 120 may be embodied
in various ways, for example, as the cellular telephone 114, the
wireless computer 116, the personal digital assistant 118, and/or a
personal receiver such as an implantable receiver, a
semi-implantable receiver, and an externally applied device such as
the personal signal patch receiver 122. The patch receiver is a
personal receiver that may be removably affixed to the person's
person, apparel, or personal equipment, for example, by an
adhesive, a clip, a fabric, or other suitable attachment means
known in the art.
[0135] To illustrate one exemplary application of the method of the
present invention, a patient 88 may ingest the IEMD 4 integrated
with medicine 126. The IEMD 4 may communicate data that includes
biometric data and ingestion data. The biometric data may include
body related data, for example, temperature, pH factor, pulse rate,
and ingestion data may include event and/or medication related
data, for example, nature, type of medication, dosage, time at
which ingestion took place, adherence to prescription, level of
adherence to prescription, etc., communicated to a wireless
communications device 114, 116, 118, and 120, or receiver, for
example, computer 106, patch receiver, etc. The biometric data may
include, for example, a unique identifier which may be compared to
various data, for example, genetic profile data, emotional data,
and other data. Such data may be associated with one or more of a
variety of devices, for example, the cellular phone 114, the
wireless computer 116, PDA 118, and the wireless comms system 120
or receiver for validation purposes,
[0136] The biometric data reception may be affected or effected by
one or more receiving devices, for example, personal signal
receivers such as patch receivers that are removably attachable
externally to the patient 88 or a non-human body; or comprised
within a subcutaneous device, an implantable devices, and/or
various external devices, for example, devices which are or are not
designed for attachment or other permanent or semi-permanent
contact with the body, for example, the cellular telephone 114. An
ingestible event marker system is described in the Patent
Application PCT/US2008/52845 and includes an IEMD 4 and a personal
patch signal receiver 122. The patch receiver 122 includes, for
example, devices capable of at least receiving data and/or signals,
etc. Patch receivers 122 may be attachable, for example,
permanently or removably attachable externally to a human body or a
non-human body. For example, the patch receiver 122 may include the
receiver and an adhesive layer to provide for attachment to and
removal from the patient 88. Alternatively, the patch receiver 122
may be implantable or semi-implantable, for example, subcutaneous
implantation.
[0137] The wireless communications system 120, the cellular
telephone 114, the wireless computer 116, and/or the personal
digital assistant 118, may include systems, subsystems, devices,
and/or components that receive, transmit, and/or relay the
biometric data. In various aspects, the wireless communications
system 120 communicably interoperates with a receiver 37 such as
the patch receiver 120 and a communications network 2 such as the
Internet 2B. Examples of wireless comms systems 120 are computers,
for example, servers, personal computers, desktop computers, laptop
computers, intelligent devices/appliances, etc., as heretofore
discussed.
[0138] In various aspects, the wireless communications system 120
may be embodied as an integrated unit or as distributed components,
for example, a desktop computer and a mobile telephone in
communication with one another and in communication with a patch
receiver and the Internet 2B.
[0139] Further, various aspects of the network include combinations
of devices. For example, one such combination is a receiver 122
such as the patch receiver 122 in communication with the portable
digital assistant 118 or the mobile telephone 114. Thus, for
example, the patch receiver 122 wirelessly transmits biometric data
received from the IEMD 4 to the cellular telephone 114 having a
receiver and a software agent available thereon. The cellular
telephone 114 receives the biometric data transmitted by the IEMD
4. In one scenario, the patient 88 ingests prescription medication
126 in conjunction with an IEMD 4. The IEMD 4 identifies various
information, for example, the medication type and dosage and
transmits this information in a biometric data transmission via,
for example, a conductive transmission to the patch receiver 120,
which may be removably attached to the patient 88. The patch
receiver 122 transmits the biometric data to, for example, the
cellular telephone 114, the wireless computer 116, the personal
digital assistant 118, and/or the wireless comms device 120 as the
case may be.
[0140] For ease of description, the in-body devices of the
invention will now be further described in terms of configurations
having current path extender capabilities such as those provided by
a skirt (not shown) where the skirt is part of the IEMD 4, for
example, the wireless IEMD 4. One or more IEMD 4 may be or comprise
a composition that includes in certain configurations a vehicle,
where the vehicle may or may not include an active agent such as
the medicine 126.
[0141] IEMDs 4 of interest include those described in PCT
Application No. PCT/US2006/016370 filed on Apr. 28, 2006 titled
"Pharma-Informatics System"; PCT Application No. PCT/US2007/022257
filed on Oct. 17, 2007 titled "In-vivo Low Voltage Oscillator for
Medical Devices"; PCT Application No. PCT/US2007/82563 filed on
Oct. 25, 2007 titled "Controlled Activation Ingestible Identifier";
U.S. patent application Ser. No. 11/776,480 filed Jul. 11, 2007
titled "Acoustic Pharma Informatics System"; PCT/US2008/52845 filed
on Feb. 1, 2008 titled "Ingestible Event Marker Systems"; Patent
Application No. PCT/US08/53999 filed Feb. 14, 2008 titled "In-Body
Power Source Having High Surface Area Electrode"; U.S. patent
application Ser. No. 12/238345 filed Sep. 25, 2008 titled "In-Body
Device With Virtual Dipole Signal Amplification", the disclosures
of which applications are herein incorporated by reference.
[0142] The IEMD 4 communicates, e.g., generates, alters, produces,
emits, etc., a communication upon contact of the IEMD 4 with a
target physiological location (or locations) depending on the
particular configuration of the IEMD 4. The IEMD 4 of the present
compositions may vary depending on the particular configuration and
intended application of the composition.
[0143] As such, variations of IEMDs 4 may communicate, for example,
communicate a unique identifier, when activated at a target site,
for example, when the instant IEMD 4 contacts a target surface or
area within the patient's body 6, for example, a physiological,
site and/or alters a current when in contact with a conducting
fluid, for example, gastric acid in the stomach. Depending on the
configuration, the target physiological site or location may vary,
where representative target physiological sites of interest
include, for example, but are not limited to: a location in the
alimentary system, such as the mouth, esophagus, stomach, small
intestine, large intestine, etc.
[0144] In certain configurations, the IEMD 4 is configured to be
activated upon contact with fluid at the target site, for example,
stomach fluid, regardless of the particular composition of the
target site. In some configurations, the IEMD 4 is configured to be
activated by interrogation, following contact of the composition
with a target physiological site. In some configurations, the IEMD
4 is configured to be activated at a target site, wherein the
target site is reached after a specified period of time.
[0145] Depending on the needs of a particular application, the
communication of an ingestible event marker datum IEM M associated
with the event marker IEMD 4, for example, altered current, an RFID
signal, etc., may be generic such as a communication that merely
identifies that the composition has contacted the target site, or
may be unique, for example, a communication which in some way
uniquely identifies that a particular event marker datum TEM M from
a group or plurality of different markers M in a batch has
contacted a target physiological site.
[0146] As such, the IEMD 4 may be one that, when employed with a
batch of unit dosages, for example, a batch of tablets, is
associated with a communication which cannot be distinguished from
the signal emitted by the IEMD 4 of any other unit dosage member of
the batch. In yet other configurations, each member of the batch
has an IEMD 4 that is associated with a unique communication, at
least with respect to all the other ingestible event markers of the
members of the batch. For example, each wireless ingestible device
IEMD 4 of the batch emits a signal that uniquely identifies that
particular wireless ingestible device in the batch, at least
relative to all the other ingestible event markers M of the batch
and/or relative to a universe of ingestible event markers M. In one
configuration, the communication may either directly convey
information about a given event, or provide an identifying code,
which may be used to retrieve information about the event from a
database, for example, a database linking identifying codes with
compositions.
[0147] The IEMD 4 may generate a variety of different types of
signals as a marker datum IEM M, including, for example, but not
limited to: RF signals, magnetic signals, conductive (near field)
signals, acoustic signals, etc. Of interest in certain
configurations are the specific signals described in the PCT
application serial no. PCT/US2006/16370 filed on Apr. 28, 2006; the
disclosures of various types of signals in this application being
specifically incorporated herein by reference. The transmission
time of the IEMD 4 may vary, where in certain configurations the
transmission time may range from about 0.1 microsecond to about 48
hours or longer, for example, from about 0.1 microsecond to about
24 hours or longer, for example from about 0.1 microsecond to about
4 hours or longer, for example from about 1 sec to about 4 hours,
including from about 1 minute to about 10 minutes. Depending on the
given configuration, the IEMD 4 may transmit a given signal once.
Alternatively, the IEMD 4 may be configured to transmit a signal
with the same information, for example, identical signals, two or
more times, where the collection of discrete identical signals may
be collectively referred to as a redundant signal.
[0148] Various configurations of elements are possible, e.g.,
dissimilar materials 124A, 124B. When in contact with a conducting
fluid, a current is generated. A control device 124C may alter the
current. The altered current may be detectable, for example, by a
receiving device, etc., and associated with a communication
providing a unique IEM, etc., as previously discussed. The
dissimilar materials making up the electrodes can be made of any
two materials appropriate to the environment in which the
identifier will be operating. The dissimilar materials are any pair
of materials with different electrochemical potentials. For
example, in some configurations where the ionic solution comprises
stomach acids, electrodes may be made of a noble metal, e.g., gold,
silver, platinum, palladium or the like, so that they do not
corrode prematurely. Alternatively, for example, the electrodes can
be fabricated of aluminum or any other conductive material whose
survival time in the applicable ionic solution is long enough to
allow the identifier to perform its intended function. Suitable
materials are not restricted to metals, and in certain
configurations the paired materials are chosen from metals and
non-metals, for example, a pair made up of a metal (such as Mg) and
a salt. With respect to the active electrode materials, any pairing
of substances, for example, metals, salts, or intercalation
compounds, that have suitably different electrochemical potentials
(voltage) and low interfacial resistance are suitable.
[0149] Various other configurations may include other
communication-related components, for example, an RFID signal
generator, etc.
[0150] In various aspects, the IEMD 4 communicates an ingestion
alert when the medicine 126 is dissolved within a gastrointestinal
pathway of the patient 88. The IEMD 4 is configured to transmit the
ingestion alert as a wireless transmission that is detectable by,
for example, the cellular telephone 114, the wireless enabled
network computer 116, the wireless enabled personal digital
assistant 118, and/or the wireless comms system 120. In addition,
the wireless heart rate sensor 94, the wireless body temperature
sensor 98, and/or the respiration monitor 16 are optionally
configured to transmit biometric measurements in a wireless
transmission that is detectable by, for example, the cellular
telephone 114, the wireless enabled network computer 116, the
wireless enabled personal digital assistant 118 and/or the wireless
comms system 120. The wireless transmissions, for example, of the
IEMD 4, the wireless heart rate sensor 94, the wireless body
temperature sensor 98, and/or the respiration monitor 102
alternately or additionally are or comprise radio frequency wave or
pulse transmissions and/or light wave or pulse transmissions.
[0151] Information regarding alternate configurations of the
pharmaceutical composition 40 and the IEMD 4 are disclosed in U.S.
Patent Application Publication No. 20080284599, published on Nov.
20, 2008 titled "Pharma-Informatics System", which is incorporated
by reference in its entirety and for all purposes in this
document.
[0152] Referring now generally to the Figures and particularly to
FIG. 13, FIG. 13 is an illustration of a display screen 128 of the
cellular telephone 114, the wireless enabled network computer 116
and/or the wireless enabled personal digital assistant 118 wherein
a plurality of icons 129-136 are available for user selection. In
one configuration, the display screen 128 is a touch screen and the
icons 129-136 are selected by the application of the patient 88 of
finger pressure or body heat. In other configurations, alternately
or additionally the patient 88 may select one or more icon by
positioning a cursor 138 over an icon 129-136 and selecting the
icon 129-136 over which the cursor 138 is positioned by means of an
input device 140 of, for example, the cellular telephone 114, the
wireless enabled network computer 116 and/or the wireless enabled
personal digital assistant 118. The medicine cursor 138 is selected
by the patient 88 to indicate a taking of the medicine 126, for
example by an oral or nasal ingestion of one or more pharmaceutical
compositions 122, a topical application of the medicine 126, or
injection or other introduction of the medicine 126 to the patient
88. Accomplishment icon 130 is selected by the patient 88 to
indicate an achievement or an engagement in an activity, for
example an athletic session, exercise or event, a hobby, a
meditation session, a therapeutic practice or exercise, a leisure
activity, a recreational activity, a rehabilitative activity, a
period of sleep, a meal consumption, a liquid ingestion, an erotic
thought, erotic act, or an occurrence of an aspect of
menstruation.
[0153] Each emotion icon 129-136 is selected by the patient 88 to
indicate a perception of an associated emotion or a psychological
state by the user, for example an emotion or psychological state of
happiness, appreciation, kindness, love, joy, fondness, bliss,
anger, fear, dread, loathing, anxiety, jealousy, envy, contempt,
resentment, perceived pain, perceived pleasure, confidence,
insecurity, optimism, pessimism, patience, impatience, attraction,
repulsion, clarity, confusion, encouragement, discouragement, a
romantic sensation, a sexual arousal, or an erotic sensation. Each
sad icon 134-135 is selected by the patient 88 to report an
occurrence of an undesirable event or condition, for example
nausea, diarrhea, anxiety, physical pain, bleeding, or a loss of
balance. An external icon 136 may be selected by the patient 88 to
indicate a perception of an event or condition external to the
patient 88, for example an inbound phone call or a visit from a
friend. It is understood that each icon 129-136 may be individually
associated with a single emotion, perception, event, process or
condition.
[0154] Referring now generally to the Figures and particularly to
FIG. 14, FIG. 14 is a schematic diagram of the cellular telephone
114. It is understood that the network computer 106, the wireless
enabled network computer 116, the wireless enabled personal digital
assistant 118 and the wireless comms system 120 may comprise one or
all of the elements of the cellular telephone 114.
[0155] The cellular telephone 114 includes a central processing
unit 142, or "CPU" 142 and a firmware 144. The firmware 144 further
includes a set of software-encoded instructions comprising a mobile
basic input output system 146 used to boot-up the cellular
telephone 114. A power and communications bus 148 (or "mobile bus"
148) bi-directionally communicatively couples the CPU 142, the
firmware 144, a display device interface 150, the input device 140,
a telephone audio output module 152, a wireless network interface
154, a global positioning system module 156, a telephone system
memory 158, a telephone media writer/reader 160, a date time
circuit stamp 162, a telephone audio input module 164, a telephone
mechanical vibration module 166, a small message service module
168, and an accelerometer 170.
[0156] The display interface 150 bi-directionally communicatively
couples a display module 172 comprising a telephone display screen
174 with the communications bus 148. The telephone audio output
module 152 accepts digitized information from the bus 148 and
derives and generates an audible sound wave output therefrom.
[0157] An electrical power battery 176 provides energy to the
elements 142-174 of the cellular telephone 114 via the mobile bus
148.
[0158] The wireless network interface 154 bi-directionally
communicatively couples the electronics communications bus 146 and
the network 2. The system memory 158 is a random only access memory
wherein a mobile telephone system software 178 is maintained and
optionally edited or modified by deletion, addition or update of
software-encoded instructions.
[0159] The global positioning system module GPS (hereinafter "GPS
module" 156) is a communications device that communicates with a
global positioning system that comprises earth-orbiting satellites
and allows the GPS module 156 to determine coordinates of the
location of the GPS module 156 on the earth's surface.
[0160] The date/time circuit 162 is bi-directionally
communicatively coupled with the communications bus 148 and
provides a digitized date time stamp data when polled by the
telephone CPU 142. The date/time circuit 162 further generates time
pulses and synchronizing signals that the telephone CPU 142 and the
cellular telephone 114 generally, apply to measure the passage of
time, time period durations, and to schedule alarms and alerts.
[0161] The telephone media writer/reader 160 is configured to read,
and optionally write, machine readable, computer executable
software encoded instructions from a computer program product 180.
The telephone media writer/reader 160 and the associated computer
program product 180 are selected and configured to provide
non-volatile storage for the cellular telephone 114. Although the
description of computer program product 180 contained herein refers
to a mass storage device, for example a hard disk or CD-ROM drive,
it should be appreciated by those skilled in the art that computer
program product 160 can be any available media that can be accessed
by the digital telephone 114.
[0162] By way of example, and not limitation, computer program
product 180 may be or comprise computer operable storage medium 182
and communication media. Computer operable storage media 182
include, for example, volatile and non-volatile, removable and
non-removable media implemented in any method or technology for
storage of information such as computer-readable instructions, data
structures, program modules or other data. Computer operable
storage media include, for example, but are not limited to, RAM,
ROM, EPROM, EEPROM, flash memory or other solid state memory
technology, CD-ROM, digital versatile disks ("DVD"), or other
optical storage, magnetic cassettes, magnetic tape, magnetic disk
storage or other magnetic storage devices, or any other medium
which can be used to store the desired information and which can be
accessed by the cellular telephone 144.
[0163] The computer program product 180 may comprise
machine-readable instructions within a computer operable storage
medium which when executed by the computer to cause the computer to
perform one or more steps as described in the Figures and enabled
by the present disclosure, and/or generate, update, maintain and
apply one or more data structures.
[0164] The input device 140 may be or comprise a character input
keypad 184 and/or a mouse 186, or other point and click selection
or data input device known in the art.
[0165] Referring now generally to the Figures and particularly to
FIG. 15, FIG. 15 is a schematic diagram of the mobile telephone
system software 178 of the cellular telephone 114. A mobile device
operating system 188 acts as a control layer between the hardware
elements 142-186 of the cellular telephone 114 and the mobile
system software 178 of the cellular telephone 114. A network
communications software 190 enables the wireless network interface
154 to bi-directionally couple the network 2 with internal
communications bus 148 and the CPU 142. A mobile display device
driver 192 enables the CPU 142 to direct the state of the telephone
display screen 128 to include the rendering of the icons 129-136. A
mobile input device driver 194 enables the CPU 142 to accept,
execute and interpret commands, instructions, data and selections
from the input device 140. A mobile reader driver 196 enables the
CPU 140 to accept, execute and interpret software encoded programs,
commands, instructions, data and selections from the computer
program product 180. A graphical user interface driver 198, or
"mobile GUI" 198, enables the cellular telephone 114 to visually
render data, for example, to render the icons 129-136.
[0166] The mobile telephone system software 178 further includes a
data base management system 98 (hereinafter, "mobile DBMS" 200)
storing a plurality of records 202.A-202.N. and a plurality of
logged event data 204.A-204.N (hereinafter, "log" 204.A-205.N). The
system software 178 further comprises a plurality of software
applications 206.A-206.N.
[0167] Referring now generally to the Figures and particularly to
FIG. 16, FIG. 16 illustrates a first aspect of a method wherein an
exemplary process is represented. In the process of FIG. 16, the
cellular telephone 114 powers up in step 1600 and displays one or
more icons 129-136 in step 1602. The computer determines in step
1604 whether the patient 88 has selected an icon 129-136. When the
cellular telephone 114 determines in step 1604 that the patient 88
has selected an icon 129-136, the cellular telephone 114 proceeds
on to step 1606 to form an exemplary record 202.A and store the
record 202.A in the DBMS 188, wherein the record 202.A includes an
icon identifier and a date/time stamp data generated by the date
time circuit 162 and related to the time of selection of the icon
129-136.
[0168] The cellular telephone 114 determines in step 1608 whether
or not to display the information contained or associated with the
exemplary record 202.A in a graphical representation on the display
screen 128. The cellular telephone 114 renders information of the
record 202.A in a visually presented temporal relationship with
information contained within or associated with the plurality of
logged event data 204.A-204.N. The cellular telephone 114
alternately displays the graphical representation, such as an
exemplary graph 181 of FIG. 18, in step 1610, or proceeds on to
step 1612. The cellular telephone 114 determines in step 1612 to
return or continue to display the icons 129-136 in step 1602, or to
proceed on to step 1614 and cease displaying the icons 129-136 in
step 1612 and to continue on to perform alternate computational
processes.
[0169] Referring now generally to the Figures and particularly to
FIGS. 17A and 17B, FIG. 17A is an illustration of the exemplary
record 202.A that includes an icon identifier 202.A.1. The date
time stamp 202.A.2 is generated by the date time circuit 162. The
icon identifier 202.A.1 associates the exemplary record 202.A with
an icon 29-36. FIG. 17B is an illustration of the exemplary log
event data 204.A that includes a biometric identifier 204.A.1, a
measured biometric value 204.A.2 and an event date time stamp
204.A.3 related to the time of recordation of the event biometric
value 204.A.2. In certain exemplary methods, the biometric
identifier 204.A.1 may associate the exemplary log data 204.A. with
a measurement, for example, of a heart rate, a blood pressure, a
body temperature, and/or a respiration, wherein the measured
biometric value 204.A.2 may be a numeric value of the biometric
parameter identified by the biometric identifier 204.A.1 of the
exemplary log data 204.A. An optional record information 202.A.3
includes additional information provided by the patient 88 via the
input module 140, by uploading from a computer program product 180
and/or by downloading from the network 2. The record information
202.A.3 may include textual information entered from a computer
keyboard 184 or mouse 186. According to even other additional or
alternate methods, the record information 202.A.3 may optionally be
input to the cellular telephone 114 via an audio input module 164
that accepts sound waves and generates digitized recordings
therefrom, wherein the digitized recordings may be stored as audio
data in the record information 202.A.3. In addition, the audio
input and/or a textual interpretation of sound waves received by
the audio input module 122 and thereupon stored as text data in the
record information 202.A.1.
[0170] When the icon identifier 202.A.1 indicates that the
identified icon 132-136 specifies an accomplishment, or the record
information 202.A.3 indicates that that the comprising exemplary
record 202.A identifies an accomplishment, the exemplary record
202.A is defined as an accomplishment record 202.A, and the
exemplary record information 202.A.3 is defined as an
accomplishment information 202.A.3.
[0171] Referring now generally to the Figures and particularly to
FIG. 18, FIG. 18 illustrates a graph 206 wherein a plurality of
event log data 204.A-204.N that each datum includes a beats per
minute measurement value as the biometric value 204.A.2-204.N.2.
Each biometric value 204.A.2-204.N.2 is plotted within the graph
206 according to its value along a heart rate axis 208.A and the
value of the date time stamp 204.A.3-204.N.3 of the same event log
data 204.A-204.N along a time axis 208.B. In addition, one or more
records 202.A-202.N are plotted as events along the same time axis
208.B, wherein the quality associated with each displayed record
202.A-202-N is presented along the time axis 208.B. The patient 88
may thus review the graph 206 and observe the temporal relationship
between each event documented by a record 202.A-202.N and the
biometric data measurement values 204.A.2-204.N.2 contained in the
plurality of event log data 204.A-204.N.
[0172] Referring now generally to the Figures and particularly to
FIG. 19, FIG. 19 is an illustration of an additional or alternate
method, wherein the cellular telephone 114 transmits in step 1902
the exemplary record 202.A via the network 2 to the data base
system 108 and/or the diagnostic system 110. In step 1904 the
cellular telephone 114 receives a digitized message that includes a
medical advice content via the network 2. The cellular telephone
114 displays the medical guidance content in the display screen 128
in step 1906. In a yet other aspect of the method of the FIG. 19,
the medical guidance content is rendered as an audible signal
output through the audio output module 152.
[0173] Referring now generally to the Figures and particularly to
FIG. 20, FIG. 20 is an illustration of a still additional or
alternate aspect of the method of the of FIG. 20 wherein the
cellular telephone 114 receives one or more event logs 204.A-204.N
in step 2002 via the network 2. The cellular telephone 114 then
stores the one or more event logs 204.A-204.N in the mobile DBMS
200 in step 2004. The one or more event logs 204.A-204.N received
in step 2002 will then be included in the next calculation of the
graph 206 in the next execution of step 1610. It is understood that
the one or more event logs 204.A-204.N received in step 2002 may
include biometric measurement values 204.A.2-204.N.2 that are
measures, for example, of heart rate, blood pressure, respiration
or body temperature.
[0174] Referring now generally to the Figures and particularly to
FIGS. 3 and 21, FIG. 21 illustrates a still other additional or
alternate method, wherein GPS data collected from the cellular
telephone 114 of the patient 88 are used to determine the current
and relative level of social interaction in which the patient 88 is
engaging. In step 2102 the cellular telephone 114 is associated
with the patient 88. In step 2104 the communications traffic of the
cellular telephone 114 is monitored and each phone call is recorded
in a session record 210.A-210.N of the patient database 40 of the
PMDS 10. The monitoring of the use of the cellular phone 114 may be
accomplished by a telecommunications carrier from whom the patient
88 receives a communications enabling service and/or by monitoring
by the wireless comms system 120. The session records 210.A-210.N
and the patient database are transmitted to, stored in, and made
accessible for review to a diagnostician at the diagnostic system
110 and/or the data base computer 108 in step 2106. The
diagnostician determines in step 2108 that the level of social
interaction indicates an increased risk of degradation in the state
of mental health of the patient 88, the diagnostician then
determines in step 2110 whether or not to issue an alarm to alert
the patient 88 or third parties of a potential decline in mental
health. An alarm is transmitted to and rendered in step 2112 by the
cellular telephone 114 in optional step 1012. Additionally or
alternatively, the diagnostician may in step 2114 generate a
therapeutic recommendation, e.g., a diagnosis of, study of,
analysis of, determination of or a prescription regarding, one or
more health issues of the patient 88 in step 2114, and optionally
the medical advice generated in step 2114 is transmitted to and
rendered by the cellular telephone 114 in step 2116. It is
understood that either or both the alarm transmitted and rendered
in step 2112 and the advice transmitted and rendered in step 2116
may optionally, alternatively or additionally be sent to and
rendered by the cellular telephone 114, the first network computer
106, the wireless-communications enabled network computer 116
and/or the wireless-communication enabled personal digital
assistant 118 in whole or in part.
[0175] Referring to FIGS. 14, 15 and 21, it is understood that the
cellular telephone 114 may have a plurality of pre-recorded
ringtone records 212. The alarm of step 2112 may be rendered by the
cellular telephone 114 generating a sound energy as derived from a
digitized alarm tone record 214, wherein the sound generated is
distinctive to the patient 88 from the sounds generated by the
cellular telephone by rendering from one of the ringtones records
212. Alternatively or additionally, the alarm of step 2112 may
direct the cellular telephone 114 to energize the vibration module
166 with the aim to attract the attention of the patient 88.
[0176] The medical advice transmitted and received by the cellular
telephone 114 in step 2116 may be included in whole or in part in
an audio message 216 that may be rendered by audible output module
152 for the patient 88 to listen to, and/or by a textual message
218 that the patient 88 may read from the display screen 128.
[0177] Additionally or alternatively, the textual message 218, some
or all of the therapeutic advice of step 2116, and/or the alarm
2112 may be transmitted to the cellular telephone 114 by means of a
text messaging service or a small message service as received and
rendered by the SMS module 168 of the cellular telephone 114 and
enabled via the TELCO 112 by a telephone services provider, for
example, AT&T (.TM.) text messaging service or small message
service provider.
[0178] Referring now generally to the Figures and particularly to
the FIGS. 3 and 22, in yet another alternate or additional method,
the diagnostician applies in the process of FIG. 22 an activity
monitor process of the diagnostic system 110 to generate a
communications activity baseline 220 of telephone communications
and compares the baseline with a calculation of recent telephone
communications to generate a current communications frequency to
determine if the current telephone use of the patient 88 is
indicative of an increased risk of the patient entering into a
declining state of mental health, for example, in certain
circumstances, decreased sociability may be an early indicator of
declining mental state or other conditions. In step 2202 the
diagnostic system 110 counts the number of phone calls C1 placed by
the patient 88 over a first length of time T1, for example, over
the preceding three months. In step 2204 the diagnostic system 110
calculates a baseline ratio R1 of placed phone calls C1 as divided
the first length of time T1. The baseline ratio R1 is thus one
instantiation of the communications activity baseline 220.
[0179] In step 2206 the diagnostic system 110 determines the number
of telephone calls C2 placed by the patient 88 over a shorter and
more recent second period of time T2, for example, over the most
recent five-day period. In step 2208 the diagnostic system then
calculates a current ratio R2 equal to the number of more recently
placed phone calls C1 as divided the second length of time T2.
[0180] In step 2210 the diagnostic system 110 divides the current
ratio R2 by the baseline ratio R1 and determines whether the result
of this division is less than a first indicator value V1 of, for
example, 0.70. In one exemplary application of the process of FIG.
22, the first indicator value V1 is 0.70, the first ratio R1
indicates the number of telephone calls placed by the patient 88
via the cellular telephone 114 per unit time during the most recent
three months, and the second ratio R2 indicates the number of
telephone calls placed by the patient 88 via the cellular telephone
114 per unit time during the most recent five day period, whereby
if the frequency of phone call placed by the patient 88 dips below
70% of the frequency of telephone calls exhibited by the patient 88
in the most recent three month period, the diagnostic system 110
issues an alert to patient 88 in step 2212 as described above in
the process of FIG. 21. It is understood that the alert of step
2212 may be issued by either direction of the diagnostician or by
an automatic activity monitor logic 223 of the diagnostic system
110. It is further understood that the activity monitor logic 223
may calculate C1 and/or C2 by calculated number of telephone calls
placed from the cellular telephone 114 summed with the number of
telephone calls received through the cellular telephone 114. It is
further understood that the activity monitor logic 223 may
calculate C1 and/or C2 by including the number of attempted
telephone calls placed from the cellular telephone 114. It is
further understood that the activity monitor logic 223 may
calculate C1 and/or C2 by additionally or alternately by counting
the number of text messages sent to and/or from the cellular
telephone 114.
[0181] It is further understood that the diagnostician may provide
therapeutic guidance to the patient 88 as an element of the
transmitted alarm of step 2212 in steps 2210 through 2216, as per
steps 2112 through 2116 of FIG. 21.
[0182] Referring now generally to the Figures and particularly to
FIG. 23, FIG. 23 is a schematic of a diagnostic system software 222
of the diagnostic system 110. The diagnostic system software 222
includes a diagnostic system operating system 224 and the patient
DBMS 40 that stores a plurality digitized software encoded records
of one or more ringtones records 212, alarm tone records 214, audio
message records 216, and/or text messages 218 that may be
transmitted via the network 2 to the cellular telephone 114. The
patient DBMS 40 may include a plurality of call records
226.A-226.N, a plurality of GPS records 228.A-228.N, a plurality of
text messages records 230.A-230.N and the GPS baseline data 220.
The plurality of call records 226.A-226.N, plurality of GPS records
228.A-228.N and plurality of text message records 218 may be
provided to the diagnostic system 110 via the network 2 by the
TELCO 112 and/or the telecommunications network services
provider.
[0183] Referring now generally to the Figures and particularly to
FIGS. 24A, 24B and 24C, FIG. 24A is a schematic diagram of an
exemplary first phone call record 224.A selected from the plurality
of call records 226.A-226.N provided by or the via the TELCO 112 by
the telephone services provider. Each phone call record 226.A-226.N
contains information related to an individual communication session
that is enabled by the network 2. It is understood that a
communication session may be enabled by the Internet 2B by voice
over Internet Protocol technology and/or by the telephony network
2B. The information contained within the plurality of phone call
records 226.A-226.N may be provided by or via the TELCO 112 by the
telephone services provider in whole or in part.
[0184] The exemplary first call record 226.A relates to a first
communications session, for example, an "instant communications
session". A phone identifier 226.A.1 identifies the cellular
telephone 114. The phone identifier 226.A.1 may be, for example, a
telephone number or a network address, or may be another telephone
(not shown) or a network address of a computer 106, 116. A second
phone identifier 226.A.2 identifies a second telephone (not shown)
or a computer 106 or 116. It is understood that the second phone
identifier 226.A.2 may be a telephone number or a network address,
or may be a reference number to the second telephone or a computer
106 or 116 that is issued to protect the privacy of another party.
An origin flag 226.A.3 indicates whether the instant communications
session was initiated by the means of either (a.) the cellular
telephone 114, or (b.) the computer 106 or other computer 116. A
call start data 226.A.4 identifies the start time of the instant
communications session. A call duration data 226.A.5 documents the
length of time of the instant communications session. A GPS data
226.A.6 includes a global position system data that indicates the
location of the cellular telephone 114 at the start time of the
instant communications session or at a moment during the duration
of the instant communications session. The GPS data 226.A.6 may be
generated by the GPS module 156 of the cellular telephone 114 in
concert with information received from a global positioning
system.
[0185] Referring now generally to the Figures and particularly to
FIG. 24B, FIG. 24B is a schematic diagram of an exemplary first GPS
record 228.A. A phone identifier 228.A.1 identifies the cellular
telephone 114. A GPS sampling data 228.A.2 includes a global
position system data that indicates the location of the cellular
telephone 114. A GPS time data 228.A.3 indicates a time and date
that the GPS sampling data 228.A.2 was acquired by the cellular
telephone 114.
[0186] Referring now generally to the Figures and particularly to
FIGS. 24C, FIG. 24C is a schematic diagram of an exemplary first
text message record 228.A selected from the plurality of text
session records 230.A-230.N. Each text record 230.A-230.N contains
information related to an individual texting session that is
enabled by the network 2. It is understood that a communications
session may be enabled by the Internet 2B by various technologies,
for example, Voice Over Internet Protocol (VOIP) technology, the
telephony network 2A, etc. The information contained within the
plurality of text records 230.A-230.N may be provided by or via the
TELCO 112 by the telephone services provider in whole or in
part.
[0187] The exemplary text session record 230.A relates to a first
text session, i.e., an "instant text session". A phone identifier
230.A.1 identifies the cellular telephone 114. A second phone
identifier 230.A.2 identifies a second telephone (not shown) or a
computer 106 or 116 that participated in the instant text message.
A text time data 230.A.3 identifies a time of initiation or
completion of the instant text message session. An origin flag
230.A.4 indicates whether the instant communications session was
initiated by the means of either, for example, (a.) the cellular
telephone 114, or (b.) the computer 106 or other computer 116.
[0188] Referring now generally to the Figures and particularly to
FIG. 25, FIG. 25 illustrates a still other additional or alternate
method, wherein GPS data collected from the cellular telephone 114
of the patient 88 is used to determine the current and relative
level of social interaction in which the patient 88 is engaging. In
step 2502 the cellular telephone 114 is associated with the patient
88 and monitored. The GPS module 156 of the cellular telephone 114
is periodically sampled and each sampled GPS datum is recorded in
an individual GPS record 228.A-228.N of the patient DBMS 40. The
monitoring of the use of the cellular phone 114 may be provided by
or via the TELCO 112 by the telephone services provider in whole or
in part, for example, in step 2504 during a phone session, from
which the patient 88 receives a text enabling service and/or by
monitoring by the wireless comms system 120, etc. The GPS records
228.A-228.N and the patient database 40 are transmitted to, stored
in, and made accessible for review to a diagnostician at the
diagnostic system 110 and/or the data base computer 108. The
diagnostician determines in step 2508 that the level of social
interaction indicates an increased risk of degradation in the state
of mental health of the patient 88, the diagnostician then
determines in step 2510 whether or not to issue an alarm to alert
the patient 88 or third parties of a potential decline in mental
health. An alarm is transmitted to and rendered in step 2512 by the
cellular telephone 114 in optional step 2512. Additionally or
alternatively, the diagnostician may in step 2514 generate a
therapeutic recommendation, for example, a diagnosis of, or a
prescription regarding, one or more health issues of the patient 88
in step 2514, and optionally the medical advice generated in step
2516 is transmitted to and rendered by the cellular telephone 114.
It is understood that either or both the alarm transmitted and
rendered in step 2512 and the advice transmitted and rendered in
step 2516 may optionally, alternatively or additionally be sent to
and rendered by the cellular telephone 114, the first network
computer 106, the wireless-communications enabled network computer
116 and/or the wireless-communication enabled personal digital
assistant 118 in whole or in part.
[0189] It is understood that the cellular telephone 114 may have a
plurality of pre-recorded standard ringtones records 212. The alarm
of step 2112 may be rendered by the cellular telephone 114
generating a sound energy as derived from an alarm tone record 212,
wherein the sound generated is distinctive to the patient 88 from
the sounds generated by the cellular telephone 114 by rendering
from one of the ringtones records 214. Alternatively or
additionally, the alarm of step 2512 may direct the cellular
telephone 114 to energize the vibration module 166 with the aim to
attract the attention of the patient 88.
[0190] The medical advice transmitted and received by the cellular
telephone 114 in step 2516 may be included in whole or in part in
an audio message record 216 that may be rendered by audible output
module 152 for the patient 88 to listen to, and/or by a textual
message record 230 that the patient 88 may read from the display
screen 128.
[0191] Additionally or alternatively, the textual message 230, some
or all of the therapeutic advice of step 2116, and/or the alarm
2112 may be transmitted to the cellular telephone 114 by means of a
text messaging service or a small message service as received and
rendered by an SMS module 168 of the cellular telephone 114 and may
be provided in whole or in part by or via the TELCO 112 by the
telephone services provider.
[0192] Referring now generally to the Figures and particularly to
the FIG. 26, in yet another additional or alternate method, the
diagnostician applies a mobility monitor logic 232 of the
diagnostic system 110 to generate the GPS baseline 220 derived from
the telephone GPS information of the plurality of GPS records
226.A-226.N and compares the GPS baseline 220 with a more recent
plurality of GPS readings to determine if the mobility of the
patient 88 is indicative of an increased risk of the patient
entering into a reduced state of mental health. In step 2602 the
diagnostic system 110 examines the GPS records 228.A-228.N
containing GPS information collected over an extended length of
time T3, for example, over the preceding three months. In step 2604
the diagnostic system 110 calculates the GPS mobility baseline 220
indicative of the movement presented by the patient 88 during the
extended time C3, for example, an extended mobility value M1.
[0193] In one alternate aspect of the method of FIG. 26, the
mobility baseline 220 is automatically calculated by (a.) selecting
a plurality of GPS records 228.A-228.N; (b.) ordering the GPS
records 228.A-228.N in order of the GPS time data 228.A.3-228.N.3;
(c.) calculating the distance between each ordered GPS records
228.A-228.N by straight line measurements between succeeding each
ordered GPS location data 228.A.2-228.N.2; (d.) summing the
distances measured in the previous step; and dividing the distance
measurement by a length time measured between the earliest GPS time
data 228.A.3-228.N.3 and the most recent GPS time data
228.A.3-228.N.3 of the selected plurality of GPS records
228.A-228.N.
[0194] In step 2604 the diagnostic system 110 examines the GPS
records 228.A-228.N containing GPS information collected over a
shorter and recent mobility period of time T4, for example, over
the most recent five day period, and calculates a recent mobility
value M1 in step 2604. In step 2606 the diagnostic system 110
examines the GPS records 228.A-228.N containing GPS information
collected over a greater period of time and calculates an extended
time period mobility value M2.
[0195] In step 2608 the diagnostic system 110 calculates a current
mobility ratio R3 equal to the recent mobility value M1 divided by
the extended mobility value M2.
[0196] In step 2610 the diagnostic system 110 compares the current
mobility ratio R3 to a level L. In one exemplary application of the
measurement of the patient's recent mobility dips below 70% the
patient's estimated mobility as expressed by the mobility baseline
220, the diagnostic system 110 issues an alert to patient 88 in
step 2612 as described above in the process of FIG. 25. It is
understood that the alert of step 2612 may be issued by either
direction of the diagnostician or by the mobility monitor logic
232. It is further understood that the diagnostician may provide
therapeutic guidance to the patient 88 as an element of the
transmitted alarm of step 2612 in steps 2620 through 2216, and as
per steps 2512 through 2520 of FIG. 25.
[0197] Referring now generally to the Figures and particularly to
FIG. 27, FIG. 27 is a process chart of an even other additional or
alternate method, wherein the cellular telephone 114 is programmed
to render a distinctive ringtone record 212, alarm tone record 214,
audio message record 216, and/or text message record 218 to alert
the patient 88 to take a medication, engage in a medically
recommended behavior, or cease a behavior. In step 2702 the
cellular telephone 114 determines if a programmer, for example, the
patient 88, the diagnostician, a health care provider, or other
party, has input a command to place the cellular phone 114 into an
alert programming mode. When the cellular telephone 114 determines
in step 2702 that the programmer has input a programming command,
the cellular telephone 114 proceeds to step 2704 and accepts a
selection of an alert selection from the programmer, where the
alert selection may be indicated from a group including for
example, but not limited to, a distinctive ringtone record 212,
alarm tone record 214, audio message record 216, and/or text
message record 218. In step 2706 the cellular telephone 114 accepts
an alert time from the programmer which indicates at which time the
cellular telephone 114 is to render the selected alert. The
cellular telephone 114 proceeds from step 2706 to step 2708 to
access the date/time circuit 162 and in step 1610 to determine
whether the alert time has passed. When the cellular telephone 114
determines in step 2710 that the alert time has occurred, the
cellular telephone 114 proceeds on to step 712 and renders the
selected alarm, wherein such rendering may include an excitation
of, for example, the vibration module 166, a sound generated from
ringtone record 212, alarm tone record 214, and/or audio message
record 216 by means of the audio output module 152, and/or text
message record 218 by means of the display device 156. The cellular
telephone 114 proceeds from either step 2710 or step 2712 to
determine whether to cease the alert cycle in step 2714. When the
cellular telephone 114 determines in step 2714 to cease the alert
cycle of steps 2708 and 2710, the cellular telephone 114 proceeds
on to step 2716 and performs additional or alternate computational
operations, which may include a return to step 2702 at a later
time. When the cellular telephone 114 determines in step 2714 to
continue to execute the alert cycle of steps 2708 through 2714, the
cellular telephone 114 proceeds on to step 2718 and performs
additional or alternate computational operations before performing
another comparison of the programmed alert time of step 2710 with
the real time as indicated by a current output of the date/time
circuit 162 execution of step 2708.
[0198] It is understood that the alert rendered in step 2710 may
encourage the patient to inhale a second medication 240 or to apply
a topical medication 242 to a skin area 244 of the patient 88.
[0199] Referring now generally to the Figures and particularly to
FIG. 28, FIG. 28 illustrates a still further alternate additional
or alternate method, wherein the cellular phone 114 is programmed
to remind the patient 88 to take, for example, ingest, inhale,
insert or topically apply, etc., one or more medications 126. The
phone 114 initializes a resting time variable TD to a current date
and time reading received from the date/time circuit 162 in step
2802. The phone 114 then proceeds to step 2804 to perform alternate
computational operations, and periodically returns to step 2806 to
determine whether to query the accelerometer 170 to determine
whether the accelerometer 170 has detected motion since the most
recent execution of step 2802. When the phone 114 determines in
step 2806 that the accelerometer 170 indicates motion of the phone
114 since the most recent execution of step 2802, the phone 114
proceeds on to step 2808 to determine whether the time elapsed
between the current value of the resting time variable TD and a
newer and actual date and time reading TA received from the
date/time circuit 162 is greater than a sleep time value TS, for
example, wherein the sleep time value is a value preferably between
the time durations of four hours and eight hours. When the phone
114 determines in step 2808 that the accelerometer 170 has not
detected motion for a period of time greater than the sleep time
value TS, the phone 114 proceeds on to step 2810 and to render an
alert to encourage the patient 88 to take one or more medications,
e.g., medicine 126, 240 and 242.
[0200] It is understood that the motion detector 23 of FIG. 1 may
be, include, or be comprised within, an accelerometer 170, a GPS
module 156, or a cellular telephone 114.
[0201] When the cellular telephone 114 determines in step 2808 that
the alert time has occurred, the cellular telephone 114 proceeds on
to step 2810 and renders the selected alarm, wherein such rendering
may include, for example, an excitation of the vibration module
166, a sound generated from ringtone record 212, alarm tone record
214, and/or audio message record 216 by means of the audio output
module 152, and/or text message record 218 by means of the display
device 156.
[0202] The cellular telephone 114 proceeds from either step 2810 or
step 2812 to determine whether to cease the alert cycle of steps
2800 through 2812. When the cellular telephone 114 determines in
step 2812 to cease the alert cycle of steps 2800 through 2812, the
cellular telephone 114 proceeds on to step 2814 and performs
additional or alternate computational operations, which may include
a return to step 2802 at a later time.
[0203] Referring now generally to the Figures and particularly FIG.
29, FIG. 29 is a schematic of a first exemplary patient record
232.A selected from a plurality of patient records 232.A.1-232.A.N
that are stored in the patient DBMS 40 and/or the mobile DBMS 200
as stored in the cellular telephone 114, the DB computer 108,
and/or the diagnostic system 110. The first exemplary patient
record 232.A includes a patient identifier 232.A.1, a phone
identifier 232.A.2, a biometric data field 232.A.3, an ingestion
record 232.A.4, a patient reminder instructions data field 232.A.5,
and a behavior data field 232.A.6. The patient identifier 232.A.1
uniquely identifies the patient 88 to the DBMS 178 and 206. The
phone identifier 232.A.2 uniquely identifies the phone 114 to the
DBMS 178 and 206. The biometric data field 232.A.3 includes
biometric data received from the sensors 20-23 and 98-104 with
associated time date stamps generated by the time/date circuit 162
wherein each date time stamp individually identifies the time of
generation of an associated biometric datum. The ingestion record
232.A.4 includes data identifying medicines taken, for example,
inhaled, applied, inserted, ingested, etc., with associated time
date stamps generated by the time/date circuit 162 wherein each
date time stamp individually identifies the time of generation of a
comprising ingestion record. The patient reminder instructions data
field 232.A.5 includes instructions directing the phone 114 to when
and how to render an alert to encourage the patient 88 to perform a
specified meditative practice, a relaxation practice, and/or a
therapeutic behavior. The behavior data field 232.A.6 includes data
noting a performance of a meditative practice, a relaxation
practice, a therapeutic behavior, and/or other practice or behavior
of the patient 88, with associated time date stamps generated by
the time/date circuit 162 wherein each date time stamp individually
identifies the time of the referenced performance or behavior.
[0204] Referring now generally to the Figures and particularly to
FIG. 30, FIG. 30 illustrates an even additional or alternate
method, wherein a patient record 232.A-232.N is applied by the
phone 114 to record biometric data received from one or more
sensors 20-23 and 98-104 and to send alerts to encourage the
patient 88 to perform meditative exercises, relaxation exercises,
or other therapeutic behaviors. In step 3002 the phone 114 receives
notice of a taking of a medication, e.g., medicine 126, 240 or 242,
and records the medicine application datum with an associated time
date stamp in the ingestion records data field 232.A.4 of the
exemplary first patient record 232.A. In step 3004 the phone 114
issues an alert to the patient in accordance with information
stored in the reminder message instructions 232.A.5. In step 3006
the phone 114 receives a biometric datum received from one or more
sensors 20-23 and 98-104, and records the received biometric datum
with an associated time date stamp in the biometric data field
232.A.3. It is understood that the biometric datum might be (a.) a
measure of blood pressure or hypertension generated by and received
from the blood pressure sensor 90; (b.) a measure of heart rate
generated by and received from the heart rate sensor 94; (c.) a
measure of body temperature generated by and received from the
temperature sensor 98; and/or (d.) a measure of respiration
generated by and received from the respiration sensor 102.
[0205] In step 3008, the data stored in the exemplary first patient
data record 232.A is visually presented to the patient 88 via the
display screen 128 by the GUI driver 198 and optionally as
described in reference to FIG. 18. This presentation of step 3008
is executed with the intent to provide feedback to the patient 88
of the effect that the behavior of the patient 88 is having on the
physiological state of the patient 88, whereby the patient 88 is
encouraged to follow the practices. e.g., making a pause, avoiding
a situation, taking a pill, etc., to achieve a prescribed behavior,
e.g., cool, calm, composed, etc., and behavior specified by the
reminder message instructions 232.A.5.
[0206] The phone 114 determines in step 3010 whether to continue
performing the cycle of steps 3000 through 3008, or to proceed on
to alternate computational processes of step 3014. When the phone
114 determines in step 3010 to continue performing the cycle of
steps 3000 through 3008, the phone proceeds on to step 3012 and to
determine whether instructions to the patient 88 of a dosage of a
medicine 126, 240 and 242, a schedule of taking a medicine 126, 240
and 242, or a recommended patient practice or behavior. When a
therapeutic alteration is determined in step 3012, the phone 114
proceeds on to step 3016 and to alter information stored in the
reminder message instructions 232.A.5. The phone 114 then proceeds
from step 3016 on to step 3002.
[0207] It is understood that the biometric datum received in one or
more executions of step 3006 may be received by (a.) wireless
transmissions from the wireless comms system 120, and/or a wireless
enabled sensor 20-23, 90, 94, 98 and 102; and/or (b.) a hardwired
connection with the network 2. It is further understood that a
notice of an ingestion of the composition device 122 may be
received by the phone 114 as transmitted wirelessly from the IEMD 4
and/or the wireless comms system 120.
[0208] It is additionally understood that the alteration of
information stored in the reminder message instructions 232.A.5 as
performed in step 3016 may be directed and provided by a health
care professional as input from the DB computer 108 and/or the
diagnostic system 110.
[0209] Referring now generally to the Figures and particularly to
FIG. 31, FIG. 31 describes another additional or alternate method,
wherein high stress events that occur routinely in the life of the
patient are identified and the phone 114 is programmed to encourage
the patient 88 to follow or perform therapeutic or prescribed steps
or instructions to reduce the harmful impact of the stress inducing
events. In step 3102 a plurality of patient records 232.A-232.N are
formed by observing and storing the readings of the sensors 20-23,
90, 94, 98 and 102. In step 3104 patient activity logs 168 are
formed and populated with data, wherein the patient 88 records time
and dates and descriptions of daily events experienced by the
patient 88. The patient activity logs 168 may be populated from
inputs by the patient 88 to the phone 114, the PDA 118, and/or the
wireless computer 116. The diagnostician or other health care
professional analyzes the plurality of patient logs 232A-232N in
comparison with the patient records 232.A-232.N to isolate and find
patterns between sensory indications of physiological stress
experienced by the patient 88 and predictable events in the life of
the patient, e.g., meetings with supervisors, subordinates, or
family members. The diagnostician or health care professional then
determines those events that can be anticipated and lead to high
stress conditions for the patient 88 in step 3108. The
diagnostician then programs the phone 114 to issue a message to the
patient prior to one or more anticipated stress-inducing event. The
diagnostician or health care professional programs the phone 114 in
step 3110 via the diagnostic system 110 and the network 2. The
diagnostician or health care professional determines in step 3112
whether to continue the loop of steps 3102 to 3112 or to proceed on
to alternate processes of step 3114.
[0210] FIG. 29 is a schematic of an exemplary patient activity log
232A that includes the patient ID 232.A.1, the phone ID 232.A.2,
and a plurality of activity notes 232A.1-232A.N. Each activity note
232A.1-232A.N contains a notation by the patient 88 of the date,
time and nature of an activity experienced by the patient 88, e.g.,
arrival at work, commuting experiences, physical exercise, social
interactions, and work related behavior.
[0211] Referring now generally to the Figures and particularly to
FIG. 32, FIG. 32 describes a yet additional or alternate method,
wherein the diagnostician analyzes information about diagnostic
test results, genetic test results, patient records 232.A-232.N,
patient activity logs 232A-232N, and other information to develop
and prescribe therapy. One or more diagnostic tests are performed
in step 3202. The results of these diagnostic tests are stored in
the diagnostic system 110 in step 3204 in one or more diagnostic
test records 236.A-236.N. One or more genetic tests are performed
in step 3206. The results of these genetic tests are stored in the
diagnostic system 110 in step 3208 in one or more genetic test
records 252.A-252.N. The diagnostician then analyzes the diagnostic
test records 236.A-236.N, the genetic test records 252.A-252.N, the
patient records 232.A-232.N, the patient activity logs 232A-232N,
and other information in step 3210 by means of the diagnostic
system 110. The diagnostician then updates a therapeutic plan in
step 3212, and programs the cell 114 to transmit alerts and alarms
to the patient 88 in step 3314 that are designed to encourage the
patient 88 to comply with the prescribed therapy of step 3312.
[0212] The diagnostician or health care professional determines in
step 3316 whether to continue the loop of steps 3302 to 3316 or to
proceed on to alternate processes of step 3318.
[0213] FIG. 34 is a schematic of an exemplary first diagnostic test
record 236.A that includes the patient ID 232.A.1, the phone ID
232.A.2, and a plurality of diagnostic test notes 236.A.1-236.A.N.
Each diagnostic test note 236.A.1-236.N contains information
identifying a diagnostic test, a time and date of the diagnostic
test, and the results of the diagnostic test.
[0214] FIG. 35 is a schematic of an exemplary first genetic test
record 238.A that includes the patient ID 232.A.1, the phone ID
232.A.2, and a plurality of genetic test notes 238.A.1-238.A.N.
Each genetic test note 238.A.1-238.N contains information
identifying a genetic test, a time and date of a performance of the
genetic test, and the results of the genetic test.
[0215] FIG. 36 is a schematic illustrating the diagnostic system
software 222 as containing the patient records 232.A-232.N, the
patient activity logs 234.A-234.N, the diagnostic records
236.A-236.N and the genetic records 238.A-238.N.
[0216] FIG. 37 is a schematic of the patient 88 being monitored by
additional sensors 240 and 242. An impedance sensor 240 is in
contact with a second skin area 244 of the patient. The impedance
sensor 240 is configured and positioned to detect variations in
dermal impedance of the patient 88 that are generally determined by
sweat forming on the second skin area 244. An electrocardiograph
sensor 242 (or "ECG sensor" 242) is configured and positioned
relative to the patient 88 to measure the electrical activity of
the heart 246 of the patient 88.
[0217] FIG. 38 is a schematic diagram of the exemplary heart rate
sensor 94. The heart rate sensor 94 includes a biometric detector
94A, a logic circuit 94B, a wireless interface 94C, a signal
emitter 94D, and a battery 94E that are all mounted onto a flexible
band 94F. The biometric sensor 94A monitors and measures the heart
rate of the patient 88 and communicates the heart rate measurement
to the logic circuit 94B. The logic circuit 94B formats and
populates a biometric data message and directs the wireless
interface 94C to transmit the biometric message in a wireless
transmission via the emitter 94D. It is understood that the emitter
94D may be a radio wave antenna or a light pulse emitter. The
emitter 94D is configured to transmit the biometric message for
successful reception by the phone 114, the wireless computer 116,
the PDA 118 and/or the wireless comms system 120. The battery 94E
provides electrical power to the biometric detector 94A, the logic
circuit 94B, the wireless interface 94C and the signal emitter
94D.
[0218] A first strap 94G and a second strap 94H are each separately
coupled with the flexible band and enable the heart rate sensor to
be detachably coupled to the patient 88. A first hook and loop
fabric strip 941 and a second hook and loop fabric strip are
positioned to detachably engage and hold the flexible band 94E
against a skin area 163 and 176 of the patient 88. Alternatively or
additionally an adhesive strip 94L of the flexible band 94F is
configured and positioned to enable detachable placement of the
flexible band against a skin area 163 and 164 of the patient
88.
[0219] It is understood that the illustration of the heart sensor
94 of FIG. 37 is exemplary and is descriptive in part of other
sensors 20-23, 94, 98, 102, 240 and 242.
[0220] Referring now generally to the Figures and particularly to
FIG. 39, FIG. 39 illustrates another still additional or alternate
method, wherein the diagnostician receives and analyzes information
and advises the patient 88 with therapeutic guidance. In step 3902
the phone 114 receives accelerometer data from the accelerometer
170. The phone 114 transmits the received accelerometer data to the
diagnostic system 110 in step 3904, wherein the accelerometer data
is stored in a movement record 248.A-248.N. The diagnostic system
110 calculates a walking gait of the patient 88 by analyzing a
plurality of movement records 248.A-248.N and stores the gait
calculation in step 3906. The phone 114 receives skin impedance
data from the impedance sensor 240 and transmits the received
impedance data to the diagnostic system 110 in step 3908. The phone
114 receives electrocardiograph data from the ECG sensor 242 and
transmits the received electrocardiograph data to the diagnostic
system 110 in step 3910. The phone 114 receives body temperature
data from the temperature sensor 98 and transmits the received body
temperature data to the diagnostic system 110 in step 3912.
[0221] The diagnostic system 110 displays the gait calculated and
the data received in steps 3904, and 3908-3912 to the diagnostician
in step 3914 on the display screen 128 as rendered by the GUI
driver 176. The diagnostician analyzes the displayed information
and communicates diagnostic information, prognostic information,
and therapeutic guidance to the patient in step 3916 via the
network 2.
[0222] The diagnostician determines in step 3918 whether to
continue the loop of steps 3902 through 3918 or to proceed on to
alternate activities of step 3920.
[0223] Referring now generally to the Figures and particularly to
FIGS. 22 and 40, FIG. 40 illustrates another even additional aspect
of a method, wherein the patient is encouraged by yet other
engagement modalities to adhere to a prescribed ingestion of the
medicine 126. In step 4002 the phone 114 determines whether the
IEMD 4 has emitted an ingestion signal. When the phone 114
determines in step 4002 that the IEMD 4 has emitted an ingestion
signal, the phone 114 informs the DB computer 108 via the network 2
in step 4004 an ingestion signal has been received. The DB computer
108 then updates a virtual pet status in step 4006 in accordance
with the information transmitted in step 4004. The virtual pet
status is an aspect of a virtual pet personality software 254 is
maintained by a virtual world web service 256 that is hosted on a
virtual world services server 258. The virtual world services
server 258 is accessible to the phone 114 through the network 2,
and the virtual pet personality software 254 maintains status and
conditions on the basis of instructions from the virtual world web
service 256 and from the patient 88 and the DB computer 108 as
delivered via the network 2 to the virtual world services server
256.
[0224] The DB computer 108 further determines in step 4008 whether
with the information transmitted in step 4004 in combination with
additional information related to the patient and stored in the
patient data base 40 indicates that the patient 88 has earned a
reward or achieved a new reward state or level. When the DB
computer 108 determines in step 4008 that the patient 88 has earned
a reward, the reward is issued in step 4010. The reward of step
4010 may be as modest as directing the phone 114 to vibrate,
visually display a congratulations message, and/or render a
pleasant audible tone or musical tune. The reward of step 4010 may
also include making provisions for delivery of a physical coin,
medallion, or crystal. The reward of step 4010 may alternatively or
additionally include (a.) providing the patient 88 with a ringtone
data or file; (b.) rewarding the patient 88 with a music download
service at no extra charge; and/or (c.) a delivery of a hard copy
note of congratulations. In various aspects, the rewards may be
provided by, or otherwise associated with, one or more
reward/incentive sources. Such sources may include, for example,
proprietary reward systems, e.g., developed in conjunction with or
for aspects of the invention, and existing reward systems, e.g.,
commercial incentive or reward systems such as point systems,
coupon systems, etc., associated with one or more independent
providers.
[0225] In optional step 4012 the DB computer 108 informs an online
community of the achievement and/or status of the patient 88 via
the network 2. The DB computer 108 in step 4014 whether to continue
the loop of steps 4002 through 4014 or to proceed on to perform
alternate computational activities of step 4016.
[0226] Referring now generally to the Figures and particularly to
FIG. 41, FIG. 41 illustrates another even additional process
wherein the patch receiver 122 is attached or coupled to the
patient 88, or clothing or personal equipment of the patient 88 in
step 4102. The biometric data received by the patch receiver 122 is
monitored during a first time period T1 in step 4104. The biometric
data received in step 4104 is stored in the patient database 40 in
step 4106. The biometric data received by the receiver patch 122 is
then monitored during a second time period T2 in step 4108. In step
4110 the biometric data received by the path receiver 122 e.g.,
from the one or more IEMD 4, during the first time period T1 and
second time period T2 is compared by a diagnostician and/or the
activity monitor logic 223. The diagnostician and/or the activity
monitor logic 223 then determines in step 4112 whether a
predetermined action shall be taken at least partly on the basis of
the comparison of step 4112 of the behavior of the one or more IEMD
4 that transmit an ingestible event marker datum IEM M during the
first time period T1 and the second time period T2. The
predetermined action, such as transmitting an alert to the patient
88 via the cellular telephone 114 or informing a healthcare
provider of the state of the patient 88, is affected in step
4114.
[0227] In various aspects, a system is provided, for example and as
illustrated in FIG. 42, a system 4200 may include a biometric
information module 4202 to receive biometric information associated
with an ingestible event marker datum IEM M; an analysis module
4204 to analyze the biometric information; and a determination
module 4206 to determine a therapeutic recommendation at least
partly on the basis of the analysis. Biometric information includes
any data and/or information associated with living being, e.g.,
physiologic information such as heart rate, blood pressure, etc.;
subA skilled artisan will recognize that the modules may be
standalone or integrated in various combinations. Further, one or
more modules may be implemented as software modules, as hardware,
as circuitry, etc.
[0228] FIG. 43 illustrates a unified system 4300 to facilitate
adherence to a treatment plan which may include a biometric
information module 4202 to receive biometric information associated
or contained within an ingestible event marker datum IEM M; an
analysis module 4204 to analyze the biometric information; and the
determination module 4206 to determine a therapeutic recommendation
at least partly on the basis of the analysis. The patient
management data system 10 is optionally comprised within the
unified system 4300 and may be communicatively coupled with all
other parts of the unified system 4300 via a communications bus
4302. Further, one or more modules 4202, 4204, 4206 and PMDS 10 may
be implemented as software modules, as hardware, as circuitry,
etc.. Referring now to FIG. 2, in certain alternate configurations,
the unified system 4300 may be, in whole or in part, comprised
within the PMDS 10.
[0229] In addition, one or more modules may be associated with one
or more devices. To illustrate, a receiver or computer may be
associated with the biometric information module 4202 of the
unified system 4300. One or more modules 4202, 4202, 4206 and PMDS
10 may be associated with a computer, a network, the internet 2B,
the telephony network 2A, a database computer 108, a database 40,
an ingestible event device IEMD 4, an ingestible event marker datum
IEM M, a receiver, e.g., a receiver associated with an IEMD 4 or
other device, a wireless computer 116; a temperature sensor, a
respiration sensor, a pressure sensor, a heart sensor, and/or other
devices and systems.
[0230] While the present invention has been described with
reference to specific methods, devices and systems, it should be
understood by those skilled in the art that various changes may be
made and equivalents may be substituted without departing from the
true spirit and scope of the invention. In addition, many
modifications may be made to adapt a particular situation,
material, composition of matter, process, process step or steps, to
the objective, spirit and scope of the present invention. All such
modifications are intended to be within the scope of the claims
appended hereto.
[0231] The foregoing disclosures and statements are illustrative
only of the present invention, and are not intended to limit or
define the scope of the present invention. The above description is
intended to be illustrative, and not restrictive. Although the
examples given include many specificities, they are intended as
illustrative and not limiting. Those skilled in the art will
appreciate that various adaptations and modifications of the
just-described systems and methods can be configured without
departing from the scope and spirit of the present invention.
Therefore, it is to be understood that the present invention may be
practiced other than as specifically described herein. The scope of
the present invention as disclosed and claimed should, therefore,
be determined with reference to the knowledge of one skilled in the
art and in light of the disclosures presented above.
* * * * *