U.S. patent application number 11/469965 was filed with the patent office on 2007-02-01 for pharmaceutical tracking.
This patent application is currently assigned to MEPS Realtime, Inc.. Invention is credited to Christer O. Andreasson, Jimmy C. Caputo.
Application Number | 20070023513 11/469965 |
Document ID | / |
Family ID | 27767342 |
Filed Date | 2007-02-01 |
United States Patent
Application |
20070023513 |
Kind Code |
A1 |
Andreasson; Christer O. ; et
al. |
February 1, 2007 |
PHARMACEUTICAL TRACKING
Abstract
A medication-dispensing unit is provided for tracking medical
products having a Radio Frequency Identification (RFID) tag
uniquely associated therewith. The dispensing unit includes
compartments for receiving medical products therein, and readers
for reading the RFID tags associated with the medical products in
the compartments. A processor is coupled to the readers for
receiving and processing readings of the RFID tags in the
compartment to identify the medical products in the compartments.
The processor may identify a medical product removed from a
compartment by determining a difference between readings of the
RFID tags in the compartment taken before and after the medical
product is removed from the compartment. The processor may verify
that the medical product removed from the compartment is authorized
to be removed or confirmed that an identified patient is intended
to receive the medical product being removed from the compartment.
A system and method for counterfeit prevention is disclose, as is
specimen, blood, organ and the like, tracking.
Inventors: |
Andreasson; Christer O.;
(Escondido, CA) ; Caputo; Jimmy C.; (Carlsbad,
CA) |
Correspondence
Address: |
ORRICK, HERRINGTON & SUTCLIFFE, LLP;IP PROSECUTION DEPARTMENT
4 PARK PLAZA
SUITE 1600
IRVINE
CA
92614-2558
US
|
Assignee: |
MEPS Realtime, Inc.
|
Family ID: |
27767342 |
Appl. No.: |
11/469965 |
Filed: |
September 5, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
10448978 |
May 29, 2003 |
|
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11469965 |
Sep 5, 2006 |
|
|
|
10085472 |
Feb 26, 2002 |
6935560 |
|
|
10448978 |
May 29, 2003 |
|
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|
10086183 |
Feb 26, 2002 |
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10448978 |
May 29, 2003 |
|
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Current U.S.
Class: |
235/385 ;
235/375 |
Current CPC
Class: |
A61J 1/14 20130101; G07G
1/0045 20130101; G16H 40/20 20180101; G07G 1/009 20130101; G16H
20/13 20180101; G07G 1/0036 20130101; A61J 7/0084 20130101; G07F
17/0092 20130101; A61J 2205/60 20130101; G06Q 10/06 20130101; G07F
11/62 20130101; G06Q 10/087 20130101 |
Class at
Publication: |
235/385 ;
235/375 |
International
Class: |
G06Q 30/00 20060101
G06Q030/00; G06F 17/00 20060101 G06F017/00 |
Claims
1. A method for counterfeit prevention with respect to medical
products comprising the steps of providing an RFID tag for medical
products and which tag contains a unique identification, storing
the unique identification for each product in a master product
database, sending the unique identification for products to a
recipient database at a receipient medical facility, and
transferring the products to the facility, at the medical facility,
performing an RF scan of each product and verifying the unique
identification from the RF scan with the identification received,
in the recipient database, and providing product information and
identification to the recipient database, and identifying any
product that is not verified as an authentic product.
2. A method as in claim 1 wherein the recipient facility is a
hospital pharmacy.
3. A method as in claim 1 wherein the unique identification is
transmitted to the recipient location by the worldwide web.
4. A system for counterfeit prevention with respect to medical
products comprising, RFID tags on respective medical products and
which tags contain a unique identification, a master product
database for storing the unique identification for each product, a
recipient database at a recipient medical facility for receiving
the unique identification for products and the medical products,
and transferring the products to the facility, and a scanner at the
medical facility for performing an RF scan of each product and
verifying the unique identification from the RF scan with the
identification received, in the recipient database, and for
providing product information and identification to the recipient
database, and identifying any product that is not verified as an
authentic product.
5. A method as in claim 4 wherein the recipient facility is a
hospital pharmacy.
6. A method as in claim 4 wherein the unique identification is
transmitted to the recipient location by the worldwide web.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a divisional of application Ser. No.
10/448,978 filed May 29, 2003, which is a continuation-in-part of
application Ser. Nos. 10/085,472 and No. 10/086,183, both filed
Feb. 26, 2002, the disclosures of both of which are incorporated
herein by reference.
FIELD OF THE INVENTION
[0002] The present invention relates generally to systems and
methods for tracking, verifying and dispensing medical products,
and more particularly to systems and methods for tracking and
monitoring the receipt and transfer of medical products within a
facility, including verifying authenticity or ensuring medical
products are not counterfeit, as well as tracking and monitoring
transfer and removal of medical products from medication dispensing
units and/or for inventorying medication dispensing units.
BACKGROUND OF THE INVENTION
[0003] In the field of medicine, tracking and verifying medical
products from the manufacturer to a medical facility and the
subsequent control and dispensing of such medical products is
crucial to ensure that proper medical products are both received
and dispensed correctly. This includes monitoring the medical
products such as pharmaceuticals to ensure that none are
counterfeit, tracking medical products as well as specimens, blood
products, organs and the like and, further, to track such products
throughout the medical facility. Considering pharmaceuticals, for
example, they typically move from the manufacturer to a hospital or
medical warehouse, such as a pharmacy within a hospital, and from
there they ultimately are dispensed typically to a patient within a
hospital room.
[0004] In healthcare facilities, such as, hospitals, medical
products prescribed to patients may be temporarily stored in
medication-dispensing units. Typically, a healthcare facility has
one or more medication-dispensing units located on each floor
and/or nursing station of the healthcare facility for storing
medical products prescribed to patients on that floor. Each of the
medication-dispensing units may include lockable storage
compartments to limit access of the medical products contained
therein to authorized healthcare workers. Controlled substances,
such as morphine, may be segregated into individual storage
compartments in a medication-dispensing unit to control access to
these substances.
[0005] A healthcare worker, e.g., nurse, may log onto a
medication-dispensing unit before administering medical products to
patients. In order to authenticate the healthcare worker logging
on, the dispensing unit may require the healthcare worker to scan
an identification badge. Alternatively, the healthcare worker may
gain access to the medical products in the dispensing unit with an
electronic or manual key. Once logged on, the healthcare worker may
pull up a list of patients assigned to him or her, including the
medical products to be administered to the patients. The healthcare
worker may then remove the medical products identified in the list
of patients from the dispensing unit. In a further alternative, the
dispensing unit may automatically grant the healthcare worker
access to one or more individual storage compartments including
medical products.
[0006] The inventory of medical products in a medication-dispensing
unit may be monitored manually by requiring healthcare workers
logged onto the dispensing unit to perform inventory checks of
medical products in the dispensing unit, e.g., by counting the
quantities of the medical products in the dispensing unit. The
healthcare workers may then manually report their inventory checks
to the dispensing unit, e.g., by entering inventory counts into the
dispensing unit with a keypad or other input device. The healthcare
workers may perform the manual inventory checks before and/or after
removing medical products from the dispensing unit.
[0007] One problem with a manual approach for monitoring the
inventory of medical products in a dispensing unit is that it
relies on the accuracy of healthcare workers to manually check and
report the inventory of medical products in the dispensing unit,
which introduces human error. Another problem with a manual
approach is that it may not prevent a dishonest healthcare worker
from removing one or more unauthorized medical products, e.g., a
controlled substance, from the dispensing unit. When this occurs,
an unauthorized removal of a medical product may not be detected
until another healthcare worker performs an inventory check of the
medical product in the dispensing unit and detects a discrepancy.
In this case, the healthcare worker detecting the discrepancy may
report it to a healthcare administrator so that the administrator
may investigate the discrepancy, e.g., by tracking down all of the
healthcare workers that have logged onto the dispensing unit within
a certain period of time. A problem with this approach is that a
few days may pass before the unauthorized removal is detected,
making it difficult to track down all of the healthcare workers.
This may be especially troublesome if some of the healthcare
workers are roaming nurses who only occasionally visit the
healthcare facility in question.
[0008] Accordingly, automated systems and methods for tracking
and/or monitoring removing medical products from a
medication-dispensing unit would be considered useful.
SUMMARY OF THE INVENTION
[0009] The present invention is directed to systems and methods for
tracking, monitoring and inventorying medical products within a
healthcare facility, such as a hospital. This may include systems
and methods for monitoring medical products entering and/or leaving
a pharmacy, for dispensing medical products from a
medication-dispensing unit, and/or for delivering medical products
to individuals within the facility.
[0010] In accordance with one aspect of the present invention, each
medical product has a Radio Frequency Identification (RFID) tag
uniquely associated therewith. Each tag preferably includes data
which allows the product to be checked for authenticity, for
example, not counterfeit, and enables the product to be tracked
within the facility. Preferably each RFID tag contains a unique
serial number that cannot be altered or erased that has been
provided by the manufacturer of the product. The serial number can
identify unique items, and the tag can have additional information
to help ensure that the product is not counterfeit. The serial
number and data can be provided to the healthcare facility such as
over the worldwide web, by e-mail, postal mail or CD Roms with or
separate from shipments. The hospital can include the appropriate
RFID tag reader, and all products received can be scanned and
verified as authentic, and then entered into the inventory system
of the hospital electronically. Any product not in conformance can
be rejected at the time of scan.
[0011] In accordance with another aspect of the present invention,
the products are tracked and monitored through the healthcare
facility by monitoring the RFID tags by readers within apparatus
such as medicine cabinets and the like. For example, the apparatus
can include a casing having one or more compartments for receiving
one or more medical products therein. One or more readers are
provided for reading the RFID tags associated with the medical
products in the compartment. For example, a single reader may read
the RFID tags of all of the medical products simultaneously in the
casing, or one or more readers may be provided for each
compartment.
[0012] A processor is coupled to the reader for receiving and
processing readings of the RFID tags in the compartment to identify
the medical products in the compartment. The processor may identify
a medical product removed from the compartment by determining a
difference between readings of the RFID tags in the compartment
taken before and after the medical product is removed from the
compartment. Optionally, the processor may verify that the medical
product removed from the compartment is authorized to be removed,
e.g., by comparing a product identifier associated with the RFID
tag of the removed medical product to a product identifier of a
medical product authorized to be removed from the compartment. The
product identifier may include at least one of a product name, a
product serial number, a product lot number, and a patient
identifier.
[0013] The apparatus may also include a display coupled to the
processor for displaying a mismatch notification on the display
when the processor detects a mismatch between the product
identifier read from the RFID tag of the removed medical product
and the product identifier of the medical product authorized to be
removed. Optionally, the apparatus may include an input device
coupled to the processor for identifying a patient to be associated
with one or more medical products being removed from the
compartment.
[0014] The apparatus may also include a return compartment for
returning unused medical products, and a reader for reading an RFID
tag of any returned medical product placed in the return
compartment, the processor coupled to the reader for identifying
the returned medical product.
[0015] In accordance with another aspect of the present invention,
a method is provided for monitoring removal of medical products
stored in a medication-dispensing unit, each of the medical
products comprising a Radio Frequency Identification (RFID) tag
uniquely associated therewith. The RFID tags of the medical
products in an individual compartment or in the dispensing unit may
be read before removing one or more medical products from the
dispensing unit. One or more medical products may be removed from
the dispensing unit, and then the RFID tags of the medical products
remaining in the individual compartment or dispensing unit may be
read after the one or more medical products are removed from the
dispensing unit. A difference between the readings of the RFID tags
taken before and after the one or more medical products are removed
from the dispensing unit may be determined to identify the one or
more medical products removed from the dispensing unit.
[0016] Optionally, the dispensing unit may automatically verify
that the one or more medical products removed from the dispensing
unit are authorized to be removed from the dispensing unit. For
example, a product name identified by an RFID tag removed from the
dispensing unit may be compared with a product name authorized to
be removed from the dispensing unit. In addition or alternatively,
a patient may be identified, and a product name identified by the
RFID tag removed from the dispensing unit may be compared with a
list of medical products scheduled for deliver to the identified
patient.
[0017] In another option, the dispensing unit may transmit an
inventory notice from the dispensing unit when a quantity of RFID
tags stored within the dispensing unit falls below a threshold
and/or to provide a current inventory of the contents of the
dispensing unit.
[0018] In yet another option, a medical product may be returned to
the dispensing unit, and the RFID tags of the medical products in
the dispensing unit may be read before and after the medical
product is returned to the dispensing unit. A difference between
the readings of the RFID tags taken before and after the medical
products are returned to the dispensing unit may be used to
identify the medical product returned to the dispensing unit. In
addition, an intended patient for the returned medical product may
be identified, and a notice may be sent, e.g., to a pharmacy,
doctor, administrator, and the like, that the intended patient did
not receive the returned medical product.
[0019] It will be appreciated that any of these procedures, e.g.,
identifying medical products removed or returned to a dispensing
unit, inventorying contents, and/or identifying intended patients,
may be performed separately from one another or together.
[0020] In accordance with yet another aspect of the present
invention, an apparatus is provided for monitoring administration
of medical products to a patient, each of the medical products
including a Radio Frequency Identification (RFID) tag for storing
data related to the respective medical product. The apparatus
includes a reader for substantially simultaneously reading RFID
tags associated with a plurality of medical products to obtain the
data stored in the RFID tags, and a processor coupled to the reader
for comparing the data obtained from the RFID tags with data
associated with a patient to verify that the patient is intended to
receive the medical products. In a preferred embodiment, the reader
is an antenna in a read pad for reading the RFID tags associated
with the medical products when the medical products are placed in
close proximity to the read pad, e.g., when the medical products
are placed on a surface of the read pad.
[0021] Optionally, the apparatus may include an output device
coupled to the processor; the processor activates the output device
when the processor detects a mismatch between the data obtained
from the RFID tags and the data associated with the patient.
[0022] During use, one or more medical products may be placed in
close proximity to a RF antenna, e.g., the reader, and the Radio
Frequency Identification (RFID) tags associated with the medical
products may be read using the RF antenna to obtain the data stored
in the RFID tags. Each of the plurality of medical products may be
identified based upon the data obtained from the RFID tags.
Optionally, data associated with a patient may be accessed, and the
processor or a computer device communicating with the processor may
verify that the patient is intended to receive the medical product
by comparing the data obtained from the RFID tag with the data
associated with the patient.
[0023] In accordance with a further aspect of the present
invention, RFID tags can be provided for other items being
processed in some way in a hospital, lab or the like. For example,
these tags can be applied to specimen containers to enable complete
tracking of specimens from retrieval through lab testing and on to
patient treatment. Similarly, these tags can be applied to
containers for organs to enable organ matches, history, typing and
the like and to prevent mix-ups such as providing an incorrect
organ or type to a patient. Also, these tags can be used for blood
products control including typing, history such as donor
information and the like, blood constituents tracking to original
donor and blood typing history information from donor to recipient.
Furthermore, various medical facility items, such as gowns, patient
records and the like, can incorporate RFID tags to facilitate
tracking thereof according to the present invention.
[0024] Other objects and features of the present invention will
become apparent from consideration of the following description
taken in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0025] FIG. 1a shows a delivery device including an RFID tag, in
accordance with the present invention.
[0026] FIG. 1b shows a medical container including an RFID tag, in
accordance with the present invention.
[0027] FIG. 2a shows an embodiment of a system for tracking and
monitoring medical products, in accordance with the present
invention.
[0028] FIG. 2b is a flow chart for facilitating counterfeit
prevention.
[0029] FIG. 3 is a flowchart, showing a method for tracking the
inventory of medical products in a pharmacy, in accordance with the
present invention.
[0030] FIGS. 4a-4c show an embodiment of a medication-dispensing
unit, in accordance with the present invention.
[0031] FIG. 5 is a flowchart, showing a method for verifying that a
medication-dispensing unit receives medical products, in accordance
with the present invention.
[0032] FIG. 6 is a flowchart, showing a method for verifying that a
healthcare worker only removes medical products from the dispensing
unit that he or she is authorized to remove, in accordance with the
present invention.
[0033] FIG. 7 shows an embodiment of a bedside terminal, in
accordance with the present invention.
[0034] FIG. 8 is a flowchart, showing a method for verifying that a
healthcare worker intends to administer the correct medical
products to a patient, in accordance with the present
invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0035] The present invention provides systems and methods for
tracking and monitoring medical products within a healthcare
facility, such as a hospital, clinic, or the like. The medical
products may include vaccines, pharmaceuticals, or other
therapeutic or diagnostic agents, as well as specimens, blood
products, organs and the like.
[0036] The medical products may be placed in drug delivery devices,
such as syringes or other injection devices. FIG. 1A illustrates an
exemplary drug delivery device 12 in the form of a syringe. Each of
the drug delivery devices 12 may contain a unit dose of the medical
product, such as a pre-filled syringe or ampoule. In addition, or
alternatively, each of the delivery devices 12 may include a holder
(not shown) within which a syringe or other medical cartridge may
be received and/or a needle guard device (not shown) that may be
attached to a syringe or medical cartridge. In a further
alternative, the medical products may be placed in medical
containers, such as bottles, vials, IV bags, pouches, and the like,
or packaging (not shown) from which the medical products may be
removed and administered to patients. FIG. 1B illustrates an
exemplary medical container 15 in the form of a vial.
[0037] The medical products are tracked within the healthcare
facility by attaching a radio frequency identification (RFID) tag
20 to each of the delivery devices 12 and/or medical containers 15
containing the medical products, as explained further below. FIGS.
1A and 1B show an exemplary RFID tag 20 attached to a delivery
device 12 and a medical container 15, respectively. Each of the
RFID tags 20 includes a write/read memory (not shown) for storing
information and a built-in antenna (not shown) for communicating
with a RF reader/writer. A RF reader may include an antenna for
reading information stored in the RFID tag 20, e.g., by
transmitting an RF interrogation signal to induce the RFID tag 20
to transmit its information to the RF reader, which is detected by
the antenna. The RFID tag 20 may be active, i.e., powered by an
internal power source, or passive, i.e., powered by a RF signal
transmitted from the RF reader.
[0038] The RFID tag 20 attached to each of the delivery devices 12,
medical containers 15, and/or packaging (not shown) stores
information related to the medical product contained therein. The
information in the RFID tag 20 may include product information,
such as a serial number and/or a National Drug Code (NDC)
associated with the medical product, a product name, a
manufacture's name, a lot number, and/or an expiration date.
Alternatively, the information in the RFID tag 20 may include a
product identifier uniquely associated with one or more entries in
a database that may be accessed to obtain information related to
the medical product. The information in the RFID tag 20 may also
include dosage information, identifying the amount and/or
concentration of the medical product, and/or a patient identifier
identifying a patient intended to receive the medical product.
Other optional information may include administration requirements,
instructions for use and/or product warning, such as possible
allergic reactions or adverse interaction of the product with other
medical products. Other information that may be stored in the RFID
tag 20 is given below. Information may be written into the RFID tag
20 by the manufacturer of the medical product and/or the healthcare
facility receiving the medical product. Some or all of the
information in the RFID tag 20 may also be printed on the outer
surface of the RFID tag 20 so that a healthcare worker may visually
read the information.
[0039] Each of the RFID tags 20 may be made thin and flexible,
allowing the RFID tag 20 to be attached to a delivery device 12,
medical container 15, and/or packaging (not shown) so that it does
not interfere with using the delivery device 12 or medical
container 15. For example, an RFID tag 20 may be affixed around the
barrel of a syringe 12, as illustrated in FIG. 1A.
[0040] RFID tags 20 offer several advantages over conventional
barcode tags. For example, a RF reader does not require a line of
sight between itself and a RFID tag 20 to read the information in
the RFID tag 20. In addition, a RF reader may read many RFID tags
20 at a time, while a barcode reader or scanner can only read one
barcode tag at a time. Furthermore, RFID tags 20 may be smaller,
more accurate, more durable, and may be capable of storing more
information than barcode tags.
[0041] FIG. 2a is a diagram illustrating a system 110 for tracking
and monitoring medical products according to an exemplary
embodiment of the invention. The system 110 may be implemented at a
healthcare facility, such as a hospital, a nursing home, a clinic,
or the like.
[0042] The system 110 includes a healthcare management computer 115
and a healthcare database 120. The healthcare management computer
115 manages and stores information related to the operation of the
healthcare facility in the healthcare database 120. The management
computer 115 may be a central computer and/or a network of
computers and may or may not be physically located on the premises
of the healthcare facility. The system 110 also includes a pharmacy
terminal 130 coupled to a RF reader/writer 135 and a medication
dispensing terminal 140 coupled to a RF reader 145. The system 110
further includes a bedside terminal 150 coupled to a RF reader 155,
which may be located at or near the bedside of a patient (not
shown). Each of the terminals 130,140,150 preferably includes a
processor, memory, an input device, and an output device (all not
shown) for performing the tasks described below. The use of RFID
tags and RF readers allows individual medical products to be
scanned and also allows boxes of medical products to be scanned at
once. Thus, the products can be read at any appropriate station,
namely, the pharmacy, dispensing terminal, bed side terminal and
the like.
[0043] In addition, each of the RF readers 135,145,155 may be built
into their respective terminal 130,140,150. Each of the terminals
130,140,150 as described later may be linked to the management
computer 115 via communications links 160,165,170, respectively.
The communications links 160,165,170 may be cable links, optical
links, and/or wireless links, e.g., short-range RF links.
Preferably, each of the terminals 130,140,150 may access patient
and/or medical product information stored in the healthcare
database 120 via the communications links 160,165,170.
[0044] The information stored in the healthcare database 120 may
include a patient file uniquely associated with each individual
patient admitted in the healthcare facility. Each of the patient
files may include the patient's name, address, social security
number, and/or patient ID, which may be assigned to the patient
upon admission to the healthcare facility. Each of the patient
files may also include the medical products prescribed to the
respective patient and/or a record of the medical products
administered to the respective patient, including dates and time of
administration, the healthcare worker who administered the medical
products, and the like. Each of the patient files may also include
the current location of the respective patient within the
healthcare facility, e.g., the floor and/or room number of the
patient in the healthcare facility. The information in the database
120 may further include insurance billing information for each
individual patient, including the name, telephone number, billing
address, and/or group ID of the patient's insurer. In addition, the
information in the database 120 may include a healthcare worker
file associated with each individual healthcare worker working at
the healthcare facility. Each of the healthcare worker files may
include reports reflecting the work performance of the healthcare
worker, as explained further below. Additional information that may
be stored in the database 120 is given below.
[0045] FIG. 2b is a flow chart illustrating a counterfeit
prevention aspect of the present invention and provides more detail
with regard to the application and content of RFID tags. The
manufacturer's facility is illustrated at 200 and the healthcare
facility such as a hospital or medical warehouse is illustrated at
202. A product batch 204 such as syringes, pharmaceuticals or the
like, each has applied thereto a label with an RFID tag at 206.
Appropriate data is written to the tag at 208, such as the
manufacturer identification, NDC, lot number, expiration date and
whatever other information may be desired. Each RFID tag contains a
unique serial number that cannot be altered or erased. This serial
number is used to identify a unique item. In addition to the unique
serial number contained on the tag, the tag can have additional
information written up to a limited number of characters. At
present, typical RFID tags can contain up to 192 characters in
addition to the serial number. A master product database 210 stores
all of the relevant information with regard to the products, and
this information can be provided or transferred as indicated by
link 220 to the hospital.
[0046] As indicated further in FIG. 2b, the product is received at
226, the tags scanned at 228 and verified at 230. The RF scan 228
includes a scanner and software that reads individual, or multiple
items simultaneously to interpret the serial number as well as any
other information stored on the tag. In order to eliminate or
minimize counterfeiting, the manufacturer places such tags on all
products of concern. Serial number lists are provided to the
hospital via link 220 over the world wide web, via e-mail, CD ROMs,
or the like, with or separate from shipments of the products. Thus,
the products are scanned upon receipt at the hospital and verified
as authentic and then entered into the inventory system
electronically. Any product not in conformance with appropriate
serial numbers is rejected at the scan and the appropriate action
taken by the pharmacy personnel. If attempts are made to remove
tags from the product or the packaging, the tags will be damaged
and will read as defective products on the tag scanner.
[0047] Turning to FIG. 3, after the product is verified as
authentic, a method for tracking the inventory of medical products
in a pharmacy of the healthcare facility is shown and will now be
described according to an embodiment of the invention. The
healthcare database 120 in this embodiment includes a pharmacy
inventory of the medical products stored in the pharmacy.
[0048] In step 310, the pharmacy receives a shipment of medical
products. Preferably, each of the medical products may be
identified by an RFID tag 20, which may be attached to a delivery
device 12 and/or medical container 15 containing the medical
product. Each of the RFID tags 20 may include product information
for the associated medical product, including a serial number
and/or a NDC, the product name, the manufacturer's name, a lot
number, and/or an expiration date. Alternatively, or in addition,
each of the RFID tags 20 may include a product identifier uniquely
associated with one or more entries in a database that may be
accessed to obtain information related to the associated medical
product.
[0049] In step 320, the product information in the RFID tags 20 of
the received medical products is read into the pharmacy terminal
130 using the RF reader 135. In step 330, the pharmacy terminal 130
transmits the product information read from the RFID tags 20 of the
received medical products to the management computer 115 via the
communications link 160. In step 340, the management computer 115
uses the received information to update the pharmacy inventory in
the database 120 accordingly. The pharmacy inventory may be updated
to include the product name, amount, and/or expiration date of each
of the medical products received by the pharmacy.
[0050] In an optional step 350, the database 120 receives
information of the medical products shipped to the healthcare
facility from the manufacturer. This information may be downloaded
into the database 120 from a remote manufacturer database (not
shown) via, e.g., an Internet link, from a CD-ROM disc included
with the medical product shipment, or the like. The information of
the medical products shipped to the healthcare facility may include
the serial number, NDC, and product name of each of the medical
products shipped to the healthcare facility.
[0051] In step 360, the management computer 115 compares the
information of the medical products shipped to the healthcare
facility with the information received from the pharmacy terminal
130 to verify that all of the medical products shipped to the
healthcare facility were received by the pharmacy. This comparison
may be carried out, e.g., by having the management computer 115
compare the serial numbers of the medical products shipped to the
healthcare facility with the serial numbers read from the RFID tags
20 of the received medical products. If the management computer 115
detects a mismatch between the medical products shipped to the
healthcare facility and the medical products received by the
pharmacy in step 360, the management computer 115 may transmit a
notification of the detected mismatch to the pharmacy terminal 130.
The notification may then be displayed to a healthcare worker at
the pharmacy, e.g., via a display (not shown) at the pharmacy
terminal 130. The notification may include specific information of
the mismatch, such as the identity of any shipped medical products
missing from the pharmacy.
[0052] In one embodiment, the management computer 115 automatically
orders a medical product from a manufacturer and/or wholesaler when
the amount of the medical product stored in the pharmacy 130 drops
below a predetermined minimal level. This may be done, e.g., by
having the management computer 115 monitor the amount of the
medical product in the pharmacy using the pharmacy inventory in the
database 120. When the amount of the medical product in the
pharmacy inventory drops below the minimal level, the management
computer 115 may place an electronic order for the medical product
to a manufacturer computer, e.g., via an Internet link.
[0053] When a physician prescribes a medical product to a patient,
the prescription is forwarded to the pharmacy, e.g., electronically
or in the form of a handwritten prescription. The prescription may
include the frequency, dosage, and duration that the medical
product is to be administered to the patient. The prescription may
also be sent to the management computer 115 to be included in the
associated patient file in the healthcare database 120. A
pharmacist at the pharmacy may prepare the prescribed medical
product for administration to the patient in accordance with the
prescription. This may involve transferring and/or admixing unit
doses of the prescribed medical product from a bulk medical
container into separate delivery devices 12. Preferably, each of
the delivery devices 12 has a RFID tag 20 attached thereon into
which information related to the medical product contained therein
may be written using the RF writer 135. The written information may
include the product name and dosage of the medical product in the
delivery device, and/or the name, patient ID and/or the location of
the patient intended to receive the medical product. In addition,
the written information may include the identity of the pharmacist
or other health care worker preparing the medical product and/or
the date and time that the medical product was prepared.
[0054] Alternatively, or in addition, the prescribed medical
product may be shipped to the pharmacy from the manufacturer in
unit-dose delivery devices 12 or medication containers 15, e.g.,
vials, bottles, bags, and the like. In this case, the pharmacist
may use the RF writer 135 to write additional information into each
of the RFID tags 20 attached to the delivery devices 12 and/or
medication containers 15, including the name, patient ID and/or
location of the patient intended to receive the medical product.
Optionally, individual delivery devices 12 and/or medication
containers 15 may be assigned to individual patients as they are
removed from a dispensing unit (not shown), as described further
below.
[0055] After the medical product is prepared for the patient, the
medical product may be grouped with other prepared medical products
for transport to a medication-dispensing unit. As the medical
products are withdrawn from the pharmacy for transportation to the
medication-dispensing unit, the information in the RFID tags 20 of
the medical products may be read into the pharmacy terminal 130
using the RF reader 135. For example, all of the medical products
may be identified by passing a cart or other device carrying the
medical products into close proximity with the RF reader 135,
thereby simultaneously reading all of the RFID tags 20 identifying
the medical products. For example, the RF reader 135 may be mounted
to a doorway of the pharmacy for automatically reading the RFID
tags 20 of the medical products as they are withdrawn from the
pharmacy. The pharmacy terminal 130 may also identify the
medication-dispensing unit intended to receive the medical
products. This may be done by having a healthcare worker manually
enter the identity of the dispensing unit into the pharmacy
terminal 130, and/or reading a RFID tag identifying the dispensing
unit using the RF reader 135. This may also be done by reading a
patient identifier and/or location from the RFID tags 20 of the
medical products into the pharmacy terminal 130 and having the
pharmacy terminal 130 access a database matching the patient
identifier and/or location with an assigned dispensing unit. The
pharmacy terminal 130 may also identify the healthcare worker
transporting the medical products to the dispensing unit. This may
be done by having the healthcare worker enter a code and/or pin
number uniquely associated with the healthcare worker into the
pharmacy terminal 130, and/or reading a RFID tag identifying the
healthcare worker using the RF reader 135.
[0056] The pharmacy terminal 130 may then transmit the information
read from RFID tags 20 of the medical products to the management
computer 115 via the communications link 160. The pharmacy terminal
130 may also transmit the identity of the dispensing unit to
receive the medical products and/or the identity of the healthcare
worker transporting the medical products to the dispensing unit.
The management computer 115 uses the received information to record
the medical products being withdrawn from the pharmacy in the
database 120 and to update the pharmacy inventory in the database
120 accordingly. The record of the medical products being withdrawn
from the pharmacy may include the product name and amount of each
of the medical product being withdrawn. The record may also include
the date and time that the medical products are withdrawn from the
pharmacy, the identity of the dispensing unit to receive the
medical products, and/or the identity of the healthcare worker
transporting the medical products to the dispensing unit.
[0057] Medication-dispensing unit may be placed throughout the
medical facility for temporarily storing medical products and for
dispensing the medical products to healthcare workers, e.g.,
nurses, assigned to administer the medical products to patients.
Each of the medication-dispensing units, e.g., stationary
medication stations and/or movable medication carts, may be located
on the same floor, wing, and the like of the healthcare facility as
the patients intended to receive the medical products stored
therein.
[0058] FIG. 4a illustrates an exemplary medication-dispensing unit
410 according to an embodiment of the invention. The dispensing
unit 410 includes a casing 435 including one or more and preferably
a plurality of storage compartments 440 for storing medical
products therein. Each of the storage compartments 440 may store
medical products for an individual patient or for general use. The
dispensing unit 410 may include lockable doors for controlling
access to the storage compartments 440. Alternatively, or in
addition, the dispensing unit 410 may include lockable drawers that
may be pulled out from the storage compartments 440.
[0059] The dispensing unit further includes a medication dispensing
terminal 140 and a RF reader or scanner 145. The dispensing
terminal 140 further includes a display 420, e.g., a monitor, which
can be a touch screen as an input device or an optional keyboard
430, as illustrated in FIG. 4a.
[0060] Preferably, the RF reader 145 is configured to read the RFID
tags 20 inside the storage compartments 440 of the dispensing unit
410. To accomplish this, the RF reader 145 may be made up of a
plurality of RF readers, each of the RF readers configured to read
the RFID tags 20 in one of the storage compartments 440.
Alternatively, a single RF reader may be used to read the RFID tags
20 of the entire contents of the dispensing unit 410.
[0061] In the embodiment shown in FIG. 4a, the medical dispensing
unit 410 has one or more drawers or compartments 440 each with
individual sections 442 that have the capability of storing
medications. On utility drawer space 450 houses a single board PC
460, the RFID scanner 145 and the associated power circuitry.
[0062] The dispensing station unit is connected to a computer
server 115 (FIG. 2) via a local area network (LAN) for
communications to and from databases. The server stores a database
or databases containing various fields of information pertinent to
patient identification, medications, manufacturers, medication
expiration dating, medication lot numbers, patient history and the
like. Within the dispensing unit, there are one or more RFID
antennas 464 on the PCB 460 that enable reading RFID tagged product
within the drawer compartment 440. These antennas 464 are in a
fixed location in the dispensing station such that when the drawer
440 is closed, the antennas 464 are located directly under the
closed drawer 440 as seen in FIG. 4a.
[0063] As an alternate method, the antenna PCB 464 can be mounted
to the sidewalls 468 of the dispensing station 410 as shown in FIG.
4b. As another alternative, the antenna PCB 460 can also attach to
the bottom of the drawer 440 and connected to the dispensing unit
410 via an umbilical 470 as shown in FIG. 4c.
[0064] RFID Tags can be placed directly on the product to be
monitored or its packaging. Each drawer compartment 440 can be read
separately or together as a system. A user accesses the system
according to the dispensing station flow chart shown in FIGS. 5 and
6 and described further below. When a user shuts a drawer 440, a
sensing device such as a switch (not shown) detects the closure and
sends a signal via an I/O relay to the computer of the terminal
140. The circuit also detects a drawer in the open condition. The
computer software program preferably has a drawer open time-out
function. Once a preset time has expired, the system goes into an
alarm mode. The computer is pre-programmed to perform a sequence of
operations including the initiation of an RF field through the
antennas 468. Product containing the RFID tag in the drawer are
then energized by the RF field, and an exchange of data to the
computer takes place. This exchange comprises information that is
stored on the tag being transmitted to the computer for
interpretation by the software program. The scanner circuitry is
capable to both "read" RFID tags and "write to" RFID tags. The
dispensing unit 410 can be on wheels for portability or without
wheels for fixed location.
[0065] Optionally, the dispensing unit 410 also may include one or
more return compartments or bins (not shown) for unused medical
products, as explained further below. Each return bin may include a
slot or drawer (not shown) for placing one or more medical products
therein, e.g., such that the medical products cannot be removed
from the return bin without gaining authorization to override a
lock and open the return bin. Each return bin may include a RF
reader for reading the RFID tags of any returned medical products
placed in the return bin, e.g., to inventory returned medical
products. Alternatively, a single RF reader of the dispensing unit
410 may read any RFID tags of medical products in the return bin,
along with the RFID tags of medical products in the other
compartments.
[0066] Turning to FIG. 5, a method for verifying that the medical
products transported to the dispensing unit 410 from the pharmacy
are received by the dispensing unit 410 is described according to a
preferred embodiment. In this embodiment, the healthcare database
120 includes a dispensing unit inventory of the medical products in
the dispensing unit 410.
[0067] In step 510, the dispensing terminal 140 reads the RFID tags
20 inside the dispensing unit 410 before the dispensing unit 410
receives the medical products from the pharmacy. In step 520, a
healthcare worker places the medical products from the pharmacy in
the dispensing unit 410. In step 530, the dispensing terminal 140
reads the RFID tags 20 inside the dispensing unit 410 after the
medical products are placed in the dispensing unit 410. In step
540, the dispensing terminal 140 identifies the medical products
placed in the dispensing unit 410 by determining the difference
between the RFID tag readings taken before and after the medical
products are placed in the dispensing unit 410. Alternatively, the
dispensing terminal 140 may transmit the RFID tag readings to the
management computer 115 so that the management computer 115 may
identify the medical products placed in the dispensing unit. In
step 550, the dispensing terminal 140 transmits information of the
medical products received by the dispensing unit 410 to the
management computer 115 via the communications link 165. This
information may include the product information read from the RFID
tags 20 of the received medical products. The management computer
115 uses the information received from the dispensing terminal 130
to update the dispensing unit inventory in the database 120
accordingly.
[0068] In step 560, the management computer 115 may verify that the
dispensing unit 410 received all of the medical products withdrawn
from the pharmacy for transport to the dispensing unit 410 by,
e.g., comparing the medical products received by the dispensing
unit 410 with the record of the medical products withdrawn from the
pharmacy. If the management computer 115 detects a mismatch between
the medical products received by the dispensing unit 410 and the
medical products withdrawn from the pharmacy, the management
computer 115 may transmit a notification of the detected mismatch
to the dispensing terminal 140 via communications link 165. The
dispensing terminal 140 may then notify the healthcare worker at
the dispensing unit 410 of the mismatch, e.g., via the display. The
notification may include specific information of the mismatch, such
as the identity of any medical products missing from the dispensing
unit 410. The dispensing terminal 140 may then give the healthcare
worker an opportunity to correct the mismatch, e.g., by repeating
the above steps 520 through 560. The management computer 115 may
include a report of the mismatch in the associated healthcare
worker file, including whether the healthcare worker corrected the
mismatch and/or specific information of the mismatch, such as the
identity of missing medical products. If the healthcare worker
fails to correct the mismatch, the management computer 115 may
notify a healthcare administrator via a terminal display (not
shown) linked to the management computer 115 so that the healthcare
administrator may take appropriate action.
[0069] In one embodiment, the management computer 115 periodically
performs an inventory check of the medical products in the
dispensing unit 410 to detect any unauthorized removal of medical
products from the dispensing unit 410. The management computer 115
may check the inventory of the dispensing unit 410 by transmitting
a request to the dispensing terminal 130, via the communications
link 160, to read the RFID tags 20 of the medical products inside
the dispensing unit 410. After reading the RFID tags 20, the
dispensing terminal 130 may transmit information from the read RFID
tags 20 to the management computer 115. The management computer 115
may then compare the information from the read RFID tags 20 with
the dispensing unit inventory stored in the database 120. If the
management computer 115 detects a mismatch, then the management
computer 115 may notify a healthcare administrator of the mismatch
via a terminal display (not shown) linked to the management
computer 115. The notification may include the identity of any
medical products missing from the dispensing unit 410. In a further
embodiment, a healthcare worker at a terminal (not shown) linked to
the management computer 115 may remotely request the management
computer 115 to perform an inventory check of the dispensing unit
410, e.g., to seek a dispensing unit for a needed or missing
medical product.
[0070] Turning to FIG. 6, a method for verifying that a healthcare
worker, e.g., nurse, only removes those medical products from the
dispensing unit 410 for the patients assigned to him or her will
now be described.
[0071] The healthcare worker may begin or resume a round, in which
he or she is to administer medical products to patients assigned to
him or her in the round. In step 620, the healthcare worker may log
onto the dispensing terminal 140, e.g. by swiping an electronic
card, by entering a PIN number uniquely associate with the
healthcare worker into the input device, or by reading an RFID tag
worn by the healthcare worker. In step 630, once the healthcare
worker is logged on, he or she may pull up information of the
patients assigned to him or her in the round, which is displayed on
the display. The information may include the patients' names and
the medical products to be administered to the patients in the
round, or all the prescribed drugs for that patient. The
information may be preloaded in the dispensing terminal 140 or
downloaded into the dispensing terminal 140 from the associated
patient files in the database 120 via the communications link
165.
[0072] The healthcare worker enters into the terminal from the list
the identity of the drugs or drugs needed for the patient or
patients at 634. The software program determines whether these
drugs are appropriate ones for the particular patient or patients,
and the drawer 440 containing the drug or drugs opens as indicated
at 636. Thus, the worker gains access to the medical products by
the dispensing unit 410 automatically opening the drawer or storage
compartment 440 containing the medical products to be removed. In
step 640 the worker removes the medical products to be
administered. Alternatively, the health care worker may use an
electronic or manual key to gain access to the drawer 440
containing the medical products to be removed. The drawer is then
closed by the operator as indicated at 642 in the flow chart, and a
drawer closed sensor sends a signal to the PC of the terminal 140
as indicated at 644. Then, the PC initiates and RFID tag read as
described earlier in connection with FIGS. 4 and 5 as indicated at
650, to identify the medical products taken from the dispensing
unit by the healthcare worker. As will be apparent from the earlier
discussion of FIG. 4, the RF read can be of one or more drawers
depending on the system design. Thus, in step 650 the dispensing
terminal 140 identifies the medical products removed from the
dispensing unit 410 by the healthcare worker. The dispensing
terminal 140 may do this by, for example, reading the RFID tags 20
inside the dispensing unit before and after the healthcare worker
removes the medical products from the dispensing unit 410. The
dispensing terminal 140 may then determine the difference between
the two RFID tag readings to detect removal of the RFID tags 20,
and consequently the medical products having the RFID tags 20, from
the dispensing unit 410, and thereby identify the medical products
removed from the dispensing unit 410.
[0073] In step 660, the dispensing terminal 140 may verify that the
healthcare worker removed only those medical products that he or
she was authorized to remove. The dispensing terminal 140 may do
this, e.g., by comparing the medical products removed from the
dispensing unit 410 with the medical products to be administered in
the round. For example, the dispensing terminal 140 may compare the
product names and/or dosages of the removed medical products with
the product names and/or dosages of the medical products to be
administered in the round. The dispensing terminal 140 may obtain
the names and/or dosages of the removed medical products from the
RFID tag reading taken before the medical products are removed from
the dispensing unit 410. The product names and dosages of the
medical products to be administered in the round may be downloaded
from the associated patient files in the database 120.
Alternatively, or in addition, the dispensing terminal 140 may
compare the intended patients of the removed medical products with
the patients to be administered in the round.
[0074] If the dispensing terminal 140 detects a mismatch between
the medical products removed from the dispensing unit and the
medical products to be administered during the round, the
dispensing terminal 140 may notify the healthcare worker of the
detected mismatch via the display 420. Alternatively, or in
addition, the dispensing terminal 140 may notify the healthcare
worker using an audio indicator, e.g., buzzer, and/or a visual
signal indicator, e.g., a flashing light. The dispensing terminal
140 may provide the healthcare worker, via the display 420, with
the specifics of the detected mismatch, such as the identity of
medical products that the healthcare worker was not authorized to
remove from the dispensing unit 410. The dispensing terminal 140
may then give the healthcare worker an opportunity to correct the
mismatch, e.g., by returning an unauthorized medical product to the
dispensing unit 410 and repeating steps 640-650. The unauthorized
medical product(s) may be returned to the compartment(s) from which
it(they) were removed, or may be placed in a return bin,
specifically intended for returned medical products.
[0075] The dispensing terminal 140 may transmit information of the
medical products removed from the dispensing unit 410 to the
management computer 115 via the communications link 160. The
information may include the product information and intended
patients of the removed medical products. The management computer
115 may use the received information from the dispensing terminal
140 to update the dispensing unit inventory in the database 120
accordingly. The received information may also include any detected
mismatch that occurred during removal of the medical products from
the dispensing unit 410. If a mismatch occurs, the management
computer 115 may include a report of the mismatch in the associated
healthcare worker file, including specific information of the
mismatch and whether the healthcare worker corrected the mismatch.
Such a report may allow the healthcare facility administration to
evaluate the work performance and/or honesty of the healthcare
worker.
[0076] After retrieving the medical products from the dispensing
unit 410, the healthcare worker may visit the patients assigned to
him or her in the round to administer the medical products. While
visiting each patient in the round, the healthcare worker may
administer the medical products prescribed to that patient.
[0077] Each of the patients may be provided with a bedside terminal
150 for verifying that the patient receives the correct medical
products during the round. FIG. 7 illustrates an exemplary bedside
terminal 150 according to an embodiment of the invention. The
bedside terminal 150 may include a RF read pad 710 having a
built-in RF reader 155 (not shown in FIG. 7), an input device 720,
e.g., a keypad or a touch screen, and an output device 730, e.g.,
an LCD display, or a sound or visual indicator. The RF reader 150
may be configured to read the RFID tags 20 of medical products
placed onto the RF read pad 710. Alternatively, the RF reader 155
may be a separate device coupled to the bedside terminal 150, e.g.,
via a direct or wireless link. For example, the RF reader 155 may
be a separate device located at an entrance, e.g., doorway, of a
patient's room for automatically reading the RFID tags 20 of
medical products as a healthcare worker carrying the medical
products enters the patient's room.
[0078] Turning now to FIG. 8, a method for verifying that the
healthcare worker administers the correct medical products to a
patient at the patient's bedside will now be described.
[0079] In step 810, the bedside terminal 150 identifies the patient
to be administered the medical product. This may be done manually
by having the healthcare worker enter patient identification
information, e.g., patient ID, into the bedside terminal 150 using
a keypad. The patient identification information may be provided to
the healthcare worker by a chart at the patient's bedside or a
wristband worn by the patient. Alternatively, the patient
identifier may be provided in a patient RFID tag read by the RF
reader 155 of the bedside terminal 150. The patient RFID tag may be
attached to a chart or a wristband worn by the patient. In still
another alternative, the patient identifier may be preloaded into
the memory of the bedside terminal 150.
[0080] In step 820, the healthcare worker takes out the medical
products he or she intends to administer to the patient. In step
830, the healthcare worker may read the RFID tags 20 of these
medical products into the bedside terminal 150 using the RF reader
155. This may be done, e.g., by placing the medical products in
close proximity to the RF reader 155. Alternatively, the RF reader
155 may be located at an entrance, e.g., a doorway, of the
patient's room for automatically reading the RFID tags 20 of these
medical products as the healthcare worker enters the patient's room
carrying these medical products.
[0081] In step 840, the bedside terminal 150 verifies that the
patient present is the correct patient to receive the medical
products proposed by the healthcare worker. The bedside terminal
150 may do this by comparing the medical product information read
from the RFID tags 20 with information of the medical products to
be administered to the patient, which may be downloaded to the
bedside terminal 155 from the associated patient file in the
database 120. The comparison may include comparing dosage
information read from the RFID 20 tags with dosage information from
the associated patient file to confirm that the patient is
receiving the correct dosage. Alternatively, or in addition, the
bedside terminal 150 may compare intended patient information,
e.g., patient ID, read from the RFID tags 20 with the patient
identifier in the bedside terminal 150. The bedside terminal 130
may also check for any adverse drug interaction between the medical
products brought for the patient and medical products administered
to the patient earlier by consulting a drug interaction database.
The bedside terminal 130 may determine that the medical products
should not be administered to the patient if it detects a mismatch
in any one of these comparisons and/or an adverse drug interaction.
Alternatively, the management computer 115 may perform the
verification step by having the bedside terminal 150 transmit the
information read from the RFID tags 20 to the management computer
115.
[0082] In step 850, the bedside terminal 150 indicates to the
healthcare worker whether to proceed with administration of the
medical products based on the above verification, e.g., by
transmitting a "go/no go" signal to the healthcare worker. The
"go/no go" signal may be transmitted to the healthcare worker using
a variety of output devices, including LCD displays, LEDs, and the
like. For example, the "go" signal may be a green light emitted
from a light indicator and the "no go" signal may be a red light
emitted from a light indicator. In addition, the "no go" signal may
be a buzzing sound emitted from a buzzer.
[0083] When the bedside terminal 150 indicates to the healthcare
worker not to proceed with administration, the bedside terminal 150
may provide the healthcare with the specifics of any detected
mismatch via a display 730, such as the identity of a medical
product not to be administered to the patient. The bedside terminal
150 may then give the healthcare worker an opportunity to correct
the mismatch by repeating steps 820-850. In addition, the bedside
terminal 150 may transmit information of the mismatch to the
management computer 115 so that the management computer 115 may
include a report of the mismatch in the associated healthcare
worker file and/or patient file. The report may include specific
information of the mismatch, including incorrect medical products,
incorrect dosage, and the like. The administrators of the
healthcare facility may use the report to evaluate the work
performance of the healthcare worker, including looking for any
patterns in medication errors made by the healthcare worker. The
administrators may also pool together and evaluate the reports from
different healthcare worker files to look for any system-wide
pattern in medication errors at the healthcare facility.
Optionally, the healthcare worker may take the improper or unused
medical product(s) to a return bin, e.g., in the original
dispensing unit, to a different dispensing unit, or in a separate
return medication station, as explained further below.
[0084] When the bedside terminal 150 indicates to the healthcare
worker to proceed with administration, the bedside terminal 150 may
record information related to the administration of the medical
products to the patient. This information may include the product
names and dosages of the medical products administered to the
patient, the date and time of administration and/or the identity of
the healthcare worker administering the medical products. The
bedside terminal 150 may transmit the recorded administration
information to the management computer 115 to be included in the
associated patient file in the database 120. In addition, the
management computer 115 may automatically enter the administration
information into an electronic medication administration record
(MAR) associated with the patient, which may be stored in the
database 120. This has the advantage of not relying on the
healthcare worker administering the medical products to the patient
to record manually the administration of the medical products in a
MAR, which may be prone to human error. In addition, this has the
advantage of providing up-to-the-minute updates to the MAR and
standardizing the documentation in the MAR. The management computer
115 may also enter the administration information into the billing
record of the patient in order to bill the patient's insurer for
the medical products administered to the patient. This may help
ensure that the patient's insurer is timely billed for only those
medical products actually administered to the patient.
[0085] In one embodiment, the bedside terminal 150 may include an
input device 720, e.g., a keypad or touch screen, to enable a
healthcare worker to enter observations of the patient into the
bedside terminal, such as the condition of the patient at time of
administration of the medical products and the like. The bedside
terminal 150 may then transmit these observations to the management
computer 115 to be included in the patient file and/or MAR
associated with the patient.
[0086] In another embodiment, after the healthcare worker has
completed a round, the healthcare worker may indicate to the
management computer 115 that he or she has completed the round,
e.g., via a checkout terminal (not shown) linked to the management
computer 115. The management computer 115 may then verify that the
healthcare worker has administered all of the medical products to
the patients assigned to him or her in that round. The management
computer 115 may do this by comparing the medical products that the
healthcare worker removed from the dispensing unit with the medical
products administered to the patients assigned to him or her in the
round. If the management detects a mismatch, then the management
computer 115 may immediately notify the healthcare worker of the
detected mismatch via a terminal linked to the management computer
115. This may occur, for example, if the healthcare worker becomes
distracted by an emergency during the round and forgets to
administer medical products to one or more of his or her patients.
The notification may include specific information of the mismatch,
such as the identity of any medical products that were removed from
the dispensing unit but not administered to the intended
patient.
[0087] In many cases, it is critical that medical products are
administered to a patient within a period of time after they are
removed from the dispensing unit 410. For example, certain medical
products, e.g., chemotherapy drugs, quickly loss their potency when
placed in an aqueous solution. To address this, the management
computer 115 according to an embodiment may monitor the time period
between the time that a medical product is removed from the
dispensing unit 410 and the time that the medical product is
administered to a patient. In this embodiment, when a medical
product is removed from the dispensing unit, the dispensing
terminal 140 may record the time that the medical product is
removed from the dispensing unit 410 and transmit the recorded time
to the management computer 115. When the healthcare worker, e.g.,
nurse, is ready to administer the medical product to the intended
patient at the patient's bedside, the bedside terminal 150 may
consult with the management computer 115 whether to proceed with
the administration. This may be done, e.g., by having the bedside
terminal 150 transmit medical product information read from the
RFID tags 20 to the management computer 115. The management
computer 115 may then retrieve the recorded time that the medical
products were removed from the dispensing unit 410 using the
received medical product information. The management computer 115
may then compute the time difference between the time of
administration and the time that the medical product were removed
from the dispensing unit 150. If the time difference exceeds a
predetermined time limit for administering the medical product to
the patient, then the management computer 115 may notify the
bedside terminal 150 not to proceed with the administration of the
medical product. The predetermined time limit may be based on a
limited stability of the potency of the medical product.
[0088] When the time limit for administering a medical product is
exceeded, the healthcare worker may contact a physician or
pharmacist, e.g., via a phone, to make a judgment call on whether
to administer the medical product to the patient. In this
embodiment, the physician or pharmacist may view the time
difference between administration and removal of the medical
products from the dispensing unit 410 on a terminal, e.g., a
personal computer, linked to the management computer 115. If the
physician or pharmacist determines that it is acceptable to
administer the medical product, then he or she may transmit an
override command to the management computer 115 to allow the
healthcare worker to proceed with administering the medical product
to the patient.
[0089] If a decision is made not deliver a medical product to a
patient, the unused medical product may be taken to a return bin of
a dispensing unit, e.g., the unit from which it was originally
removed, another units, or a special medication station for
returned medical products. The RFID tags of the medical products in
the return bin (or in the entire dispensing unit) may be read
before and after the medical product (or products) is (are) placed
in the return bin. A difference between the readings of the RFID
tags taken before and after the medical product is returned to the
dispensing unit may be used to identify the medical product
returned to the dispensing unit. In addition, the processor of the
dispensing unit may identify a patient intended to receive the
returned medical product, and a notice may be sent, e.g., to the
pharmacy, the patient's doctor, a facility administrator, and the
like, that the intended patient did not receive the returned
medical product. Thus, if the failure to deliver the medical
product was mistaken, action may be taken to correct the mistake.
If the medical product was not delivered, and it is confirmed that
delivery should not be resumed, any administrative action that had
been taken assuming that the medical product was being delivered
may be adjusted. Thus, the patient's record, billing, and the like
may be corrected to accurately indicate the medical products that
were actually delivered to the patient.
[0090] Furthermore, RF readers can be mounted in doorways so as to
monitor movement of medical products out of the pharmacy, nurse
station, patient room or the like for further tracking.
[0091] In addition or alternatively, the processor may transfer an
inventory of returned medical products via a communications link to
a central database, e.g., maintained by the facility's management
computer. For example, if a particular medical product is missing,
all of the return bins in the facility may be inventoried or
searched to determine whether the medical product has been returned
to a return bin in one of the dispensing units. Thus, the location
and status of virtually all of the medical products in the facility
may be tracked.
[0092] Therefore, the invention provides a closed-loop system for
tracking and monitoring medical products within a healthcare
facility, from the time that the medical products are received by
the pharmacy to the time that they are administered to patients.
The system of the invention provides up-to-the-minute inventories
of the medical products in the pharmacy and medication-dispensing
units of the healthcare facility. In addition, the system tracks
the delivery of medical products from the pharmacy to the
medication-dispensing units placed throughout the healthcare
facility by verifying that the dispensing units receive medical
products withdrawn from the pharmacy. Furthermore, the system
monitors the removal of medical products from the dispensing units
by verifying that healthcare workers only remove those medical
products to be administered to patients assigned to the healthcare
workers. The system also tracks the delivery of medical products
from the dispensing unit to patients by verifying that healthcare
workers administer all of the medical products removed from the
dispensing unit to the intended patients. The system also monitors
the administration of the medical products to patients by verifying
that the patients receive the correct medical products before
administration, thereby reducing the risk of adverse drug events.
In addition, the system reduces the risk of lost or stolen medical
products by immediately notifying healthcare workers and/or
administrators of any missing medical products so that they may
take appropriate action to recover and/or investigate the missing
medical products.
[0093] While the invention is susceptible to various modifications,
and alternative forms, specific examples thereof have been shown in
the drawings and are herein described in detail. It should be
understood, however, that the invention is not to be limited to the
particular forms or methods disclosed, but to the contrary, the
invention is to cover all modifications, equivalents and
alternatives falling within the spirit and scope of the appended
claims.
[0094] While embodiments of the present invention have been shown
and described, various modifications may be made without departing
from the scope of the present invention, and all such modifications
and equivalents are intended to be covered.
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