U.S. patent application number 15/939648 was filed with the patent office on 2019-10-03 for device and draping method for facilitating introduction of a non-sterile container into a sterile environment.
This patent application is currently assigned to REPLIGEN CORPORATION. The applicant listed for this patent is REPLIGEN CORPORATION. Invention is credited to Michelle Fleming, William Woods.
Application Number | 20190300247 15/939648 |
Document ID | / |
Family ID | 67844903 |
Filed Date | 2019-10-03 |
United States Patent
Application |
20190300247 |
Kind Code |
A1 |
Woods; William ; et
al. |
October 3, 2019 |
DEVICE AND DRAPING METHOD FOR FACILITATING INTRODUCTION OF A
NON-STERILE CONTAINER INTO A STERILE ENVIRONMENT
Abstract
An improved device for enabling a non-sterile container of
liquid, such as, for example, a bottle to be introduced into a
sterile environment. In one embodiment, the device seals the
non-sterile container within a drape so that the non-sterile
container can be introduced into the sterile environment. The
device may include a drape having an interior cavity for receiving
the non-sterile container and a cap coupled to the enclosure for
coupling to the non-sterile container so that the liquid product
may flow through the sterile cap.
Inventors: |
Woods; William; (Rockwall,
TX) ; Fleming; Michelle; (Dallas, TX) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
REPLIGEN CORPORATION |
Waltham |
MA |
US |
|
|
Assignee: |
REPLIGEN CORPORATION
Waltham
MA
|
Family ID: |
67844903 |
Appl. No.: |
15/939648 |
Filed: |
March 29, 2018 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
B65D 2251/0025 20130101;
A61B 2050/314 20160201; A61J 1/1443 20130101; A61B 90/05 20160201;
A61B 46/10 20160201; A61J 1/1475 20130101; A61B 50/30 20160201;
B65D 2251/0093 20130101; B65D 83/00 20130101; A61B 2050/002
20160201; A61J 1/16 20130101; B65D 47/06 20130101; B65D 51/222
20130101 |
International
Class: |
B65D 47/06 20060101
B65D047/06; B65D 51/22 20060101 B65D051/22; B65D 83/00 20060101
B65D083/00; A61B 46/10 20060101 A61B046/10; A61B 50/30 20060101
A61B050/30; A61J 1/14 20060101 A61J001/14 |
Claims
1. A device for enclosing a non-sterile container to enable
introduction of the container into a sterile environment, the
device comprising: a drape having an interior cavity for receiving
a non-sterile container therein creating a sterile barrier; and a
cap coupled to the drape, the cap having a first end configured to
couple to the non-sterile container and a second end with a nozzle
extending through the drape and across the sterile barrier, such
that a liquid within the non-sterile container can be expelled
through the nozzle of the cap.
2. The device of claim 1, wherein the drape includes a first end
and a second end, the interior cavity extending from the first end
to the second end.
3. The device of claim 2, wherein the first end of the drape
includes an opening for receiving the non-sterile container.
4. The device of claim 3, wherein the first end of the drape
further comprises a sealing mechanism for sealing the opening when
the non-sterile container is positioned within the interior
cavity.
5. The device of claim 4, wherein the sealing mechanism comprises
an adhesive strip.
6. The device of claim 2, wherein the nozzle has a first end, a
second end, and a thru-bore extending from the first end to the
second end.
7. The device of claim 6, wherein the second end of the drape is
sealed to the cap so that the first end of the cap is positioned
within the interior cavity of the drape and the nozzle extends
through an opening in the drape so that the second end of the cap
is positioned outside of the drape.
8. The device of claim 7, wherein the first end of the cap includes
a container coupling mechanism for engaging the non-sterile
container positioned within the interior cavity of the drape.
9. The device of claim 8, wherein the container coupling mechanism
is in the form of a threaded cap, a rubber stopper, or a press-fit
cap.
10. The device of claim 8, wherein the first end of the cap
includes a seal piercing mechanism so that, in use, coupling the
cap to the non-sterile container causes the seal piercing mechanism
to pierce a seal located on the non-sterile container to place the
cap in fluid communication with the liquid located within the
non-sterile container.
11. The device of claim 6, further comprising a splash guard for
coupling to the cap.
12. The device of claim 11, wherein the splash guard includes an
opening for receiving the nozzle of the cap.
13. The device of claim 12, wherein the nozzle includes a ridge,
the splash guard engageable with the ridge when the splash guard is
pressed toward the first end of the cap.
14. A method for introducing a non-sterile container containing a
sterile liquid into a sterile environment, the method comprising:
inserting a non-sterile container into an interior cavity of a
sterile cap and drape device; sealing the cap and drape device
about the non-sterile container to seal the non-sterile container
within the interior cavity of the cap and drape device creating a
sterile barrier; coupling a cap to the non-sterile container the
cap having a first end configured to couple to the non-sterile
container and a second end with a nozzle extending through the
drape and across the sterile barrier; and via the cap, dispensing
the sterile liquid through the nozzle of the cap within the sterile
environment.
15. The method of claim 14, further comprising coupling a splash
guard to the cap by pressing the splash guard into engagement with
a nozzle of the cap, the splash guard having an opening for
receiving the nozzle therethrough, the nozzle having a ridge for
seating the splash guard thereon.
16. The method of claim 14, wherein coupling the cap to the
non-sterile container comprises coupling a container coupling
mechanism formed on a first end of the cap to the non-sterile
container.
17. The method of claim 16, further comprising adhering an inner
surface of the cap and drape device to an outer surface of the
non-sterile container.
18. The method of claim 14, further comprising adhering an inner
surface of the cap and drape device to the non-sterile
container.
19. The method of claim 14, wherein sealing the cap and drape
device about the non-sterile container comprises adhering a portion
of the cap and drape device to itself.
20. The method of claim 19, wherein adhering a portion of the cap
and drape device to itself comprises removing a tape strip adhesive
strip disposed on a flap portion of a first end of the drape, and
pressing the adhesive strip and flap portion against an outer
surface of the cap and drape device.
Description
FIELD OF THE DISCLOSURE
[0001] The present disclosure relates generally to sterile systems,
and more particularly to an improved device, system and method for
facilitating the introduction of a non-sterile container containing
a sterile liquid product to be introduced into a sterile
environment without the need to sterilize the outer surfaces of the
container.
BACKGROUND OF THE DISCLOSURE
[0002] Use of liquid products such as, for example, medications,
wound lavage liquids, saline, and the like are often required in
sterile environments, such as, for example, an operating room, a
quarantine area, etc. In many cases these liquid products are
disposed within a container or bottle, such as, for example, a
glass or plastic container or bottle (used interchangeably herein
without the intent to limit).
[0003] One problem associated with the use of such containers is
that, while the internal contents of the container may be sterile,
the exterior surfaces of the container often are non-sterile and,
as such, the container cannot be introduced into the sterile
environment. Sterilizing the exterior surfaces of such containers
can be expensive and, depending on the sterilization technique
used, can harm the liquid product contained therein. As a result,
introduction of containers into the sterile environment is
generally not permitted.
[0004] One current solution to this problem is to position the
non-sterile container outside of the sterile environment, and to
couple a long transfer tube to the container to deliver the liquid
product to the application site within the sterile environment. As
will be appreciated, the incorporation of a long transfer tube may
be inconvenient and can be a safety hazard. In addition, the use of
long runs of tubing can increase the amount of time it takes to
deliver the liquid product to the patient, and can result in the
wasting of quantities of liquid that remain within the tubing.
[0005] In view of these and other problems, it would be
advantageous to provide an easy to use device, system and method
for enabling introduction of a non-sterile container such as, for
example a bottle, containing a liquid product into a sterile
environment. It is with these considerations that the present
disclosure is put forth.
SUMMARY OF THE DISCLOSURE
[0006] This Summary is provided to introduce a selection of
concepts in a simplified form that are further described below in
the Detailed Description. This Summary is not intended to identify
key features or essential features of the claimed subject matter,
nor is it intended as an aid in determining the scope of the
claimed subject matter.
[0007] In one embodiment, the present disclosure is directed to a
device for enclosing a non-sterile container to enable introduction
of the container into a sterile environment. The device may include
a drape having an interior cavity for receiving a non-sterile
container therein and a cap coupled to the drape. The cap having a
nozzle extending through the drape. The cap coupling to the
non-sterile container so that a liquid within the non-sterile
container can be expelled through a nozzle of the cap.
[0008] In one embodiment, the drape may include a first end and a
second end, the interior cavity extending from the first end to the
second end. The first end of the drape may include an opening for
receiving the non-sterile container. The first end of the drape may
also include a sealing mechanism for sealing the opening when the
non-sterile container is positioned within the interior cavity. The
sealing mechanism may be an adhesive strip.
[0009] In one embodiment, the nozzle may include a first end, a
second end, and a thru-bore extending from the first end to the
second end. The second end of the drape may be sealed to the cap so
that the first end of the cap is positioned within the interior
cavity of the drape and the nozzle extends through an opening in
the drape so that the second end of the cap is positioned outside
of the drape. The first end of the cap may also include a container
coupling mechanism for engaging the non-sterile container
positioned within the interior cavity of the drape. The container
coupling mechanism may be in the form of a threaded cap, a rubber
stopper, or a press-fit cap.
[0010] In one embodiment, the first end of the cap may also include
a seal piercing mechanism so that, in use, coupling the cap to the
non-sterile container causes the seal piercing mechanism to pierce
a seal located on the non-sterile container to place the cap in
fluid communication with the liquid located within the non-sterile
container.
[0011] In one embodiment, the device may also include a splash
guard for coupling to the cap. The splash guard may include an
opening for receiving the nozzle of the cap. The nozzle may include
a ridge, the splash guard engageable with the ridge when the splash
guard is pressed toward the first end of the cap.
[0012] The present disclosure also discloses a method for
introducing a non-sterile container containing a sterile liquid
into a sterile environment. In one embodiment, the method includes
inserting a non-sterile container into an interior cavity of a
sterile cap and drape device, sealing the cap and drape device
about the non-sterile container to seal the non-sterile container
within the interior cavity of the cap and drape device, coupling a
cap to the non-sterile container, and via the cap, dispensing the
sterile liquid within the sterile environment.
[0013] In one embodiment, the method may further include coupling a
splash guard to the cap by pressing the splash guard into
engagement with a nozzle of the cap, the splash guard having an
opening for receiving the nozzle therethrough, the nozzle having a
ridge for seating the splash guard thereon.
[0014] In one embodiment, coupling the cap to the non-sterile
container may include coupling a container coupling mechanism
formed on a first end of the cap to the non-sterile container.
[0015] In one embodiment, the method may further include adhering
an inner surface of the cap and drape device to an outer surface of
the non-sterile container. Additionally, and/or alternatively, the
method may include adhering an inner surface of the cap and drape
device to the non-sterile container.
[0016] In one embodiment, sealing the cap and drape device about
the non-sterile container may include adhering a portion of the cap
and drape device to itself. Adhering a portion of the cap and drape
device to itself may include removing a tape strip adhesive strip
disposed on a flap portion of a first end of the drape, and
pressing the adhesive strip and flap portion against an outer
surface of the cap and drape device.
BRIEF DESCRIPTION OF THE DRAWINGS
[0017] By way of example, a specific embodiment of the disclosed
device will now be described, with reference to the accompanying
drawings, in which:
[0018] FIG. 1 illustrates a perspective view of a non-sterile
container disposed within a cap and drape system according to the
disclosure;
[0019] FIG. 2 illustrates a perspective view of an example
embodiment of a cap and drape system according to the
disclosure;
[0020] FIG. 3 illustrates a perspective view of an example
embodiment of a cap used in connection with the cap and drape
system shown in FIG. 2;
[0021] FIG. 4 illustrates a side view of the cap shown in FIG.
3;
[0022] FIG. 5 illustrates a cross-sectional view of the cap shown
in FIG. 3, the cross-sectional view taken along line V-V in FIG. 4;
and
[0023] FIG. 6 illustrates a flowchart of an example embodiment of a
method of use according to the disclosure.
DETAILED DESCRIPTION
[0024] Embodiments of an improved device, system and method for
enabling a container of liquid, such as, for example, a bottle of
liquid product to be introduced into a sterile environment in
accordance with the present disclosure will now be described more
fully hereinafter with reference to the accompanying drawings, in
which preferred embodiments of the present disclosure are
presented.
[0025] The disclosure will proceed in relation to the description
of a non-sterile container, by which is meant that the external
surfaces of the container are non-sterile. It will be appreciated
that in various embodiments the interior surfaces of the container
will be sterilized, and that the container will hold a sterile
liquid therein. The sterilized interior of the container may be
sealed in any of a variety of conventional manners using an
appropriate cap or other plastic, paper or metallic sealing element
to maintain sterility of the container contents even in non-sterile
environments
[0026] In one embodiment of the disclosure, a cap and drape system
may be used to enclose and/or seal a non-sterile container such as,
for example, a bottle, thereby allowing the non-sterile container
to be brought into a sterile environment. In some embodiments, the
cap and drape system may include a drape, a housing, an enclosure
or a pouch (those terms being used interchangeably herein without
the intent to limit) for receiving and enclosing the non-sterile
container therein, and a cap for securing to the non-sterile
container so that the non-sterile container can be introduced into
the sterile environment. In some embodiments that cap can include
features that automatically puncture a seal of the non-sterile
container when the cap is applied to the container, thus allowing
the liquid product therein to be delivered to the patient via the
cap and a nozzle secured thereto.
[0027] As will be appreciated, the disclosed cap and drape system
provides an improved mechanism for enabling medical personnel to
introduce non-sterile containers or products into a sterile
environment for use therein. This enables faster delivery times of
the liquid product to the patient and allows medical personnel
greater access to non-sterile containers or products that cannot
practically be sterilized.
[0028] Referring now to FIGS. 1 and 2, an example embodiment of a
cap and drape system 100 according to the present disclosure is
illustrated. In use, the cap and drape system 100 may be
pre-sterilized and delivered to the sterile environment within a
sterile enclosure such as, for example, a Tyvek pouch. The cap and
drape system 100 can be removed from the sterile pouch and disposed
about the non-sterile container 20. Sealing the cap and drape
system 100 about the non-sterile container 20 results in a sterile
barrier that covers the non-sterile surfaces of the container, thus
allowing the container to be introduced into a sterile
environment.
[0029] As illustrated, the cap and drape system 100 may include a
cap 120 and a drape or enclosure 140. As will be described in
greater detail below, in use, the enclosure 140 may be sized and
configured to enclose a non-sterile container 20 (e.g., a
non-sterile bottle). The cap 120 may be adapted and configured to
couple to the non-sterile container 20, for example, to a neck
portion 22 formed on the container 20. In some non-limiting example
embodiments, the cap 120 may be adapted and configured so that
coupling the cap 120 to the container 20 causes the cap 120 to
pierce a seal located in or on a mouth portion of the container 20
so that the liquid contained within the container 20 can be
accessed. As a result of the non-sterile container 20 being
entirely enclosed by the enclosure 140, the non-sterile container
20 can be introduced and used within the sterile environment
without the need to separately sterilize the external surfaces of
the container.
[0030] Referring to FIG. 2, the enclosure 140 is shown in a
collapsed configuration (i.e., the configuration in which the
enclosure will be stored within the sterile pouch prior to use).
The drape or enclosure 140 may include a first end 142, a second
end 144, and an interior cavity 146. The enclosure 140 may be
manufactured from any suitable sterilizable material now known or
hereafter developed. For example, in one embodiment, the enclosure
140 may be manufactured from a flexible plastic material. The
interior cavity 146 may be sized and configured to accommodate
non-sterile containers 20 (e.g., non-sterile bottles) of various
sizes and/or shapes.
[0031] As illustrated, the first end 142 of the enclosure 140 may
include an opening 143 for receiving the non-sterile container 20
therethrough. The first end 142 of the enclosure 140 may also
include a sealing mechanism 150 for closing and/or sealing the
opening 143 once the non-sterile container 20 is positioned within
the interior cavity 146. The sealing mechanism 150 may be any
suitable sealing mechanism, and in the non-limiting illustrated
embodiment the sealing mechanism is an adhesive strip disposed on a
flap portion 152 of the first end 142 of the enclosure. During use,
the user can remove a tape strip 154 covering the adhesive and can
fold the first end 142 of the enclosure over itself to adhere the
flap portion 152 to the enclosure 140, thus sealing the enclosure
around the container 20.
[0032] A second sealing mechanism 153 may also be provided on an
interior surface of the enclosure 140. This second sealing
mechanism 153 may enable the user to seal the enclosure 140 to an
external surface of the non-sterile container 20. The second
sealing mechanism 153 may be any suitable sealing mechanism, and in
the non-limiting illustrated embodiment is an adhesive strip
disposed on an inner surface of the enclosure 140. During use, once
the non-sterile container 20 has been received within the enclosure
140, the user can remove a tape strip 155 covering the adhesive
strip and can press the enclosure against the non-sterile container
20 to adhere the enclosure 140 to the container, stabilizing the
enclosure around the container 20.
[0033] The second end 144 of the enclosure 140 may be attached and
sealed to the cap 120. The cap 120 may be attached and sealed to
the enclosure 140 by any suitable manner now known or hereafter
developed including, for example, a thermal weld, a heat seal, a
heat shrink sleeve, a mechanical connection or coupling, an
adhesive such as, for example, double side tape or an ultraviolet
(UV) adhesive, etc. Alternatively, the cap 120 can be integrally
formed as part of the enclosure 140.
[0034] Referring to FIGS. 2-5, the cap 120 may include a nozzle
130. As illustrated, the cap 120 may also include a first end 122,
a second end 124, and a thru-bore 125 extending from the first end
122 to the second end 124. In use, the first end 122 of the cap 120
may be located within the interior cavity 146 of the enclosure 140
while the nozzle 130 may extend through the enclosure 140 so that
the second end 124 of the cap 120 is positioned outside of the
enclosure 140. The first end 122 of the cap 120 may include a
container coupling mechanism 126 for engaging the non-sterile
container 20. In some embodiments, the container coupling mechanism
126 may couple to the neck portion 22 of the container 20. The
container coupling mechanism 126 may be any now known or hereafter
developed mechanism for coupling the cap 120 to the non-sterile
container 20. For example, the container coupling mechanism 126 may
be in the form of a threaded cap, a rubber stopper, a snap cap over
a regular cap, a press-fit cap, or any other engagement arrangement
that couples the cap 120 to the non-sterile container 20. In one
example embodiment, as illustrated in FIGS. 2-5, the container
coupling mechanism 126 may be in the form of a snap-fit
coupling.
[0035] In some embodiments, the enclosure 140 may be sized to
accommodate non-sterile containers of a variety of different sizes.
That is, the enclosure 140 may be long enough (measured from the
first end 142 to the second end 144) to accept non-sterile
containers 20 of different sizes (i.e., lengths). The disclosed
sealing mechanism 150 enables the enclosure 140 to be folded back
upon itself (once the non-sterile container 20 has been disposed
inside) and sealed at any position along the length of the
enclosure, thus accommodating non-sterile containers of different
lengths/sizes. It is also envisioned that a plurality of
differently sized cap and drape systems 100 may be manufactured
and/or provided. For example, it is envisioned that the cap and
drape systems 100 may be provided with a number of different sized
caps 120 for coupling to a variety of containers having different
sized neck portions. Alternatively, it is envisioned that the cap
120 may include different features such as a threaded cap, a rubber
stopper, a press-fit cap, or the like for accepting, and coupling
to, a plurality of different non-sterile containers having
different neck sizes.
[0036] In one exemplary non-limiting embodiment, illustrated in
FIGS. 3-5, the first end 122 of the cap 120 may include a seal
piercing mechanism 128 which, in use, can pierce a seal of the
non-sterile container as the cap 120 is coupled to the container,
thus placing the cap in fluid communication with the liquid product
located within the container 20. The seal piercing mechanism 128
may, in some embodiments, be in the form of a spiked tip (e.g.,
similar to an IV spike), to facilitate piercing of the seal,
although other seal piercing mechanisms are also envisioned.
Further, although the illustrated embodiment includes a seal
piercing mechanism 128, such a feature is not critical, and the cap
and drape system 100 can be employed with a cap 120 that does not
includes such a piercing mechanism. In such applications, the seal
of the non-sterile container may simply be removed via a separate
step.
[0037] Referring again to FIGS. 1, 2 and 4, the cap and drape
system 100 may also include a splash guard 175, which may be
selectively disposable about the nozzle 130 of the cap 120. The
splash guard 175 may be manufactured from any suitable material,
including, for example, a plastic material. As illustrated, the
splash guard 175 may include an opening 177 for receiving the
nozzle 130 of the cap 120 so that the splash guard is mounted on
the cap. In some embodiments, the nozzle 130 may be tapered such
that it is of greater diameter near the first end 122 of the cap,
and of smaller relative diameter near the second end 124 of the
cap. The nozzle 130 may include a ridge 132 disposed intermediate
the first and second ends 122, 124. In the illustrated embodiment
the ridge may be formed by a step-change increase in the diameter
of the nozzle. In use, the nozzle 130 of the cap 120 may be
inserted into the opening 177 in the splash guard 175. During
packaging (i.e., when the cap and drape system 100 is placed in the
sterile pouch for storage and delivery), the splash guard 175 may
be provisionally engaged with the nozzle 130 so that the splash
guard can lie flat with the rest of the cap and drape system 100).
For use, when the cap and drape system 100 is removed from the
pouch in the sterile environment, the splash guard 175 may be
press-fit to the nozzle 130 until, for example, the splash guard
175 engages the ridge 132 formed on the nozzle 130. As such, in
this "use" position, the splash guard 175 may be perpendicularly
positioned and locked in place. As will be appreciated, the splash
guard 175 may protect the user from spray or reflection of the
liquid product during use, thus providing an added safety feature
for the user. The nozzle 130 may be manufactured from any suitable
material such as, for example, a plastic, a metal, etc.
[0038] Referring to FIG. 6, an example embodiment of a method of
using the disclosed cap and drape system 100 will be described. In
one example embodiment, at 200, the cap and drape system 100 may be
pre-sterilized and delivered to the sterile environment.
Alternatively, the cap and drape system 100 may be delivered to a
user and then sterilized prior to entering the sterile environment.
In one example embodiment, the cap and drape system 100 may be
delivered in a sterile sealed envelope or pouch, such as, for
example, a Tyvek pouch, although other mechanisms for delivering
the cap and drape system 100 in a sterilized form are
envisioned.
[0039] At 210, the user, for example, medical personnel, may remove
the sterilized cap and drape system 100 from the sealed envelope.
At 220, the first end 142 of the enclosure 140 can be opened and
the non-sterile container 20 (e.g., a non-sterile glass bottle) can
be introduced into the interior cavity 146 of the enclosure 140.
The enclosure 140 may be coupled to the non-sterile container 20 by
exposing a sealing mechanism 153 on an inner surface of the
enclosure and pressing the sealing mechanism against the enclosure.
The enclosure 140 may then be sealed around the non-sterile
container 20 by folding over a portion of the first end 142 of the
enclosure. In one example embodiment, a tape strip 154 may be
removed from an adhesive strip disposed on the flap portion 152 of
the enclosure 140, and the first end 142 of the enclosure may be
folded over to engage the adhesive strip with an outer surface of
the enclosure at a desired location. At 230, the medical personnel
can couple the cap 120 attached to the enclosure 140 to the
container 20, for example, by pressing the cap 120 into engagement
with the neck portion 22 of the container 20, thus placing the
liquid product within the container 20 into fluid communication
with the cap 120. At 240, the medical personnel may couple the
splash guard 175 to the cap 120 by pressing the splash guard 175
into engagement with the ridge 132 of the nozzle 130.
[0040] Using the disclosed system and method, a non-sterile
container or bottle 20 can be completely sealed within a sterile
volume so that the non-sterile container 20 can be introduced
and/or used with a sterile environment.
[0041] While certain example embodiments of the disclosure have
been described herein, it is not intended that the disclosure be
limited to the specific embodiments described herein. For example,
while certain example embodiments have been described as containing
certain features, circuity, and/or functionality, one of ordinary
skill in the art will appreciate that features, circuity, and/or
functionality can be interchangeable amongst the various disclosed
embodiments. Therefore, the above description should not be
construed as limiting, but merely as exemplifications of particular
embodiments. Those skilled in the art will envision additional
modifications, features, and advantages within the scope and spirit
of the claims appended hereto.
* * * * *