U.S. patent application number 11/374488 was filed with the patent office on 2007-03-15 for filling system and method for syringes with short needles.
This patent application is currently assigned to Becton, Dickinson and Company. Invention is credited to Paul G. Alchas, Christopher N. Cindrich, Lionel Vedrine.
Application Number | 20070060904 11/374488 |
Document ID | / |
Family ID | 36678529 |
Filed Date | 2007-03-15 |
United States Patent
Application |
20070060904 |
Kind Code |
A1 |
Vedrine; Lionel ; et
al. |
March 15, 2007 |
Filling system and method for syringes with short needles
Abstract
A filling system for syringes utilizing short needles to be
filled from a vial having a thick septum is described. The system
may be useful in any situation where the septum or vial stopper of
a medication container is thicker than the usable length of the
needle on the delivery device. Preferably, the syringe is filled
just prior to use. The short needle includes an optional limiter
which only permits a certain predetermined length of the needle
cannula to protrude beyond the limiter a distance which limits
penetration of the needle tip into both the skin and a vial
stopper. The system and adapter may be useful for needles having a
protrusion distance from approximately 0.5 mm to 3 mm, or any
needle with a protrusion length shorter that the thickness of a
septum to be accessed. Furthermore, a device is provided with
shielding capabilities to shield the needle of the device.
Inventors: |
Vedrine; Lionel; (Ridgewood,
NJ) ; Alchas; Paul G.; (Franklin Lakes, NJ) ;
Cindrich; Christopher N.; (Draper, UT) |
Correspondence
Address: |
DAVID W. HIGHET, VP AND CHIEF IP COUNSEL;BECTON, DICKINSON AND COMPANY
1 BECTON DRIVE, MC 110
FRANKLIN LAKES
NJ
07417-1880
US
|
Assignee: |
Becton, Dickinson and
Company
Franklin Lakes
NJ
07417-1880
|
Family ID: |
36678529 |
Appl. No.: |
11/374488 |
Filed: |
March 13, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60661367 |
Mar 14, 2005 |
|
|
|
Current U.S.
Class: |
604/411 |
Current CPC
Class: |
A61J 1/2096 20130101;
A61J 1/2055 20150501; A61J 1/1406 20130101; A61M 2039/042 20130101;
A61J 1/201 20150501; A61M 5/1782 20130101 |
Class at
Publication: |
604/411 |
International
Class: |
A61M 5/32 20060101
A61M005/32 |
Claims
1. A fluid transfer system for use in transferring a medical
substance from a medication container having a septum with a
pre-determined thickness into a delivery device, comprising: a
reservoir within said delivery device adapted for storing a medical
substance; a needle cannula attached to said delivery device having
a lumen in fluid communication to said reservoir and having a
forward tip extending away from said delivery device a pre-selected
usable length, wherein said usable length is less than a thickness
of said septum of said container; an adapter body including: a
container receiving portion said container receiving portion having
a septum access needle, and a longitudinal projection extending
from said adapter body, said projection including an adapter septum
having a thickness, and a distal portion; wherein the thickness of
said adapter septum is less than the usable length of said needle
cannula and said distal portion is in fluid communication with said
septum access needle lumen; wherein when said container is received
in said container receiving portion and said delivery device needle
is penetrated through said adapter septum, fluid communication
between said substance in said container and said reservoir of said
delivery device is established.
2. A system as set forth in claim 1 further comprising a shield
which is slidably disposed upon said delivery device having at
least a first position and a second position, said first position
exposing said forward tip of said needle cannula and said second
position concealing said forward tip of said needle cannula.
3. A system as set forth in claim 2 wherein said shield includes at
least one slot wherein said slot cooperates on a corresponding
feature on said vial adapter protrusion wherein said cooperation
allows removable attachment of said delivery device to said vial
adapter body
4. A system as set forth in claim 3 wherein said vial adapter
protrusion includes at least one locking finger received by said
slot in said shield.
5. A system as set forth in claim 1 wherein said vial adapter
protrusion includes at least one protuberance received by a
corresponding receptacle disposed on said medical device.
6. A system as set forth in claim 1 wherein said vial adapter
protrusion includes at least one receptacle adapted to receive at
least one tang disposed on said medical device.
7. A system as set forth in claim 5 wherein said vial adapter
protrusion at least one protuberance is formed in a helical pattern
and said at least one receptacle adapted to receive at least one
one tang disposed on said medical device.
8. A system as set forth in claim 6 wherein said vial adapter
protrusion receptacle is formed in a helical pattern.
9. A system as set forth in claim 2 wherein said shield includes a
catch engaging said at least one stop when said shield is in said
second position thereby preventing said limiter from being moved
into said first position from said second position.
10. A system as set forth in claim 1 wherein said adapter septum is
located at a distal portion of said adapter projection.
11. A system as set forth in claim 1 wherein said adapter septum is
located at a proximal portion of said adapter projection.
12. A system as set forth in claim 11 further comprising a shield
which is slidably disposed upon said delivery device having at
least a first position and a second position, said first position
concealing said forward tip of said needle cannula and said second
position exposing said forward tip of said needle cannula.
13. A system as set forth in claim 12 further comprising a locking
clip which is slidably disposed between said shield and said
delivery device having at least a first position and a second
position, said first position allowing proximal movement of said
shield with respect to said delivery device and said second
position preventing proximal movement of said shield with respect
to said delivery device.
14. A device as set forth in claim 13 wherein a first proximal
movement of said shield with respect to said delivery device into
said second shield position engages said locking clip and moves
said locking clip into said second position of said locking clip,
thereby preventing proximal movement of said shield with respect to
said delivery device.
15. A method of transferring a medical substance from a medication
container having a septum with a pre-determined thickness into a
delivery device having a reservoir in fluid communication to a
needle cannula attached to said delivery device having a forward
tip extending away from said delivery device a pre-selected usable
length; wherein said usable length is less than said pre-determined
thickness of said container septum comprising the steps of:
providing an adapter including a septum access needle having a
lumen, in fluid communication with a distal portion of an adapter
septum having a thickness less than the usable length of said
needle cannula; penetrating said medication container septum with
said septum access needle, wherein when said container septum is
penetrated with said septum access needle fluid communication
between said medical substance and said lumen occurs; penetrating
said adapter septum with said delivery device needle, wherein when
said adapter septum is penetrated with said delivery device needle,
fluid communication between said medical substance and said lumen
occurs, whereby, fluid communication between said substance in said
container and said reservoir of said delivery device is
established; and, aspirating said medical substance into said
delivery device.
16. The method of claim 15 further comprising: shielding said
delivery device needle with a needle shield, thereby concealing
said forward tip of said needle cannula, wherein said shield is
slidably engaged to said delivery device.
17. The method of claim 16 further comprising: performing an
injection with said delivery device, and locking said shield of
said delivery device needle in a distal position after performing
said injection step.
18. The method of claim 17 further comprising: providing said
delivery device with said shield in an initial distal position
concealing said forward tip of said needle cannula, wherein said
forward tip is engageable to said adapter septum; and moving said
shield to a proximal position exposing said usable length of said
needle cannula.
19. A delivery device, comprising: a reservoir within said delivery
device adapted for storing a medical substance; a needle cannula
attached to said delivery device having a lumen in fluid
communication to said reservoir and having a forward tip extending
away from said delivery device a pre-selected usable length; a
shield which is slidably disposed upon said delivery device having
at least a first position and a second position, said first
position concealing said forward tip of said needle cannula and
said second position exposing said forward tip of said needle
cannula; and a locking clip which is slidably disposed between said
shield and said delivery device having at least a first position
and a second position, said first position allowing proximal
movement of said shield with respect to said delivery device and
said second position preventing proximal movement of said shield
with respect to said delivery device wherein a first proximal
movement of said shield with respect to said delivery device into
said second shield position engages said locking clip and moves
said locking clip into said second position of said locking clip,
thereby preventing subsequent proximal movement of said shield with
respect to said delivery device.
20. A delivery device as set forth in claim 19 wherein said shield
includes at least one slot wherein said slot cooperates on a
corresponding feature on a medication vial protrusion wherein said
cooperation allows removable attachment of said delivery device to
said vial.
Description
REFERENCE TO RELATED APPLICATIONS
[0001] This Application is claiming the benefit under 35 U.S.C.
119(e) to Provisional Application Ser. No. 60/661,367, filed Mar.
14, 2005.
FIELD OF THE INVENTION
[0002] The present invention relates generally to filling of
delivery devices for delivering substances such as drugs, vaccines
and the like, and more specifically relates to a drug delivery
system and device having a needle which has a relatively short
protrusion length. More specifically, the present invention relates
to a method and apparatus for filling an intradermal delivery
device using a needle sized for intradermal delivery to fill the
syringe.
BACKGROUND OF THE INVENTION
[0003] Intradermal injections are used for delivering a variety of
substances. Many of these substances have proven to be more
effectively absorbed into or react with the immune response system
of the body when injected intradermally. Recently, clinical trials
have shown that hepatitis B vaccines administered intradermally are
more immunogenic if administered intramuscularly. In addition,
substances have been injected intradermally for diagnostic testing,
such as, for example using what is known in the art as the "Mantoux
test" to determine the immunity status of the animal against
tuberculosis and the immediate hypersensitivity status of Type I
allergic diseases.
[0004] An intradermal injection is made by delivering the substance
into the epidermis and upper layers of the dermis. Below the dermis
layer is subcutaneous tissue (also sometimes referred to as the
hypodermis layer) and muscle tissue, in that order. There is
considerable variation in the skin thickness both between
individuals and within the same individual at different sites of
the body. Generally, the outer skin layer, epidermis, has a
thickness between 50-200 microns, and the dermis, the inner and
thicker layer of the skin, has a thickness between 1.5-3.5 mm.
Therefore, a needle cannula that penetrates the skin deeper than
about 3.0 mm has a potential of passing through the dermis layer of
the skin and making the injection into the subcutaneous region,
which may result in an insufficient immune response, especially
where the substance to be delivered intradermally has not been
indicated for subcutaneous injection.
[0005] The standard procedure for making an intradermal injection
via the Mantoux technique is known to be difficult to perform, and
therefore dependent upon experience and technique of the healthcare
worker. This procedure is recommended to be performed by accessing
the vial with the needle and aspirating the medication into the
syringe, stretching the skin, orienting the bevel of short bevel
needle cannula (in one embodiment, a 26G.times.1/2'') upwardly and
inserting the needle cannula to deliver a volume of 0.5 ml or less
of the substance into the skin of an animal with the needle cannula
being inserted into the skin at an angle varying from around 10-15
degrees relative to the plane of the skin to form a blister or
wheal in which the substance is deposited or otherwise contained.
Accordingly, the technique utilized to perform the standard
intradermal injection is difficult and requires the attention of a
trained nurse or medical doctor; however this method does have the
advantage of allowing the filling of the syringe directly from the
vial. FIG. 2 of US Published Application No. 2005-0203459 A1 to
Alchas shows a conventional syringe being filled from a multi-dose
vial, which demonstrates that the length of the needle must be
sufficient to fully penetrate the septum of a vial in order to
aspirate the medication. Inserting the needle to a depth greater
than about 3.0 mm may results in a failed intradermal injection, as
the substance being expelled through the cannula will be injected
into the subcutaneous tissue of the animal. Further, the standard
method is not suitable for self-administration of intradermal
injections. However, this method does have the advantage of being
able to use the same needle for penetrating the vial and filling as
is used for performing the injection, allowing the practitioner to
select a fixed needle, which reduces dead space.
[0006] For many drug substances, it may be desirable to fill the
delivery device at the point of, and immediately prior to use. In
this situation, the delivery device is normally filled from a
multi-dose vial. A multi-dose vial may be more economical and it
enables the user to fill the delivery device with the specific dose
required. The multi-dose vial may be pre-filled with a liquid
substance or with a dry substance. For example, it is now
conventional to reduce certain drugs to a dry or powdered form to
increase the shelf life of drugs and reduce inventory space and
pre-fill (or fill at time of use) a syringe with diluent for
reconstitution of the dry drug. Multi-dose vials may be sealed with
an elastomeric stopper or septum of thickness exceeding 3 mm.
Additionally, some vial septums are coated with hard materials like
PTFE (e.g. Teflon.RTM. PTFE) which could damage the filling needle
upon penetration. A needle on the delivery device may be used to
pierce the stopper or septum and draw the drug substance from the
vial into the delivery device, typically a syringe. The drug
substance may then be administered using the delivery device, which
is discarded after use, and the unit-dose vial may be stored for
further use. One problem with using a short needle which is
suitable for intradermal injection is that the needle used for
injection, when penetrated into certain vials is not long enough to
access the medication within the vial.
[0007] Vial adapters to aid in penetration of vials have been
proposed in the past. Various designs have been proposed in the
past to align the vial to the syringe. One example of such a device
is related in U.S. Pat. No. 5,356,406 to Shraga. The design of this
adapter is such that it provides guidance of the needle to the
vial. The vial adapter of '406 requires the use of a needle of
sufficient length to penetrate the septum of the vial. Another such
example of a vial adapter is related in U.S. Pat. No. 4,944,736
Holtz. The design of this adapter is such that it provides guidance
of the needle to the vial. In addition, the vial adapter of '736
requires the use of a needle of sufficient length to penetrate the
septum of the vial.
[0008] Further, with the advent of viral infections that are
transferred through contact with bodily fluids, it is desirable to
enclose or conceal a needle cannula subsequent to administering an
injection. Preferably, a delivery device should include a mechanism
that is capable of enclosing a needle cannula immediately
subsequent to administering the injection. If a needle is left
uncovered for even a short period of time after administering an
injection, such as, for example, while trying to reattach a needle
cap, a biohazard exists. Therefore, it may be desirable to provide
an intradermal delivery device with a means for enclosing the
needle cannula that is simply designed, easy to use, and readily
available immediately after administering an injection.
[0009] The use of intradermal delivery systems is expected to
increase. Use of a "standard" length needle to deliver a drug
substance intradermally has its shortcomings, some of which are
identified above. It is not possible to use a delivery device
having a needle length suited for intradermal injection to aspirate
a syringe with drug substance from a standard multi-use vial. Thus,
there are shortcomings in the prior art that prevent filling an
intradermal injection using a "short" length needle and a multi-use
vial. As a result, there is a need to pre-fill an intradermal
device, or to use a "long" detachable needle for filling the device
and a "short" detachable needle for the drug administration,
resulting in dead space losses. It would be advantageous to have a
drug delivery device capable of accessing substances stored in
multi-dose vials and delivering such substances into the
intradermal region of the skin without encountering the
shortcomings described above.
SUMMARY OF THE INVENTION AND ADVANTAGES
[0010] An intradermal injection device with a reservoir within
which a drug substance may be held is able to be filled from a vial
having a thick septum through the short needle by utilizing the
device and method of one aspect of the invention. In accordance
with one embodiment, the needle assembly of the device to be filled
is specifically designed for making intradermal injections; however
the devices and methods of the invention may be useful in any
situation where the septum or vial stopper of a medication
container is thicker than the usable length of the needle on the
delivery device. The needle assembly, in accordance with one
embodiment, includes a penetration limiter which permits a certain
predetermined length of the needle cannula to protrude beyond the
limiter a distance which limits penetration of the needle tip into
the intradermal space of the patient's skin. In accordance with one
embodiment, the needle tip extends beyond the skin engaging surface
a distance ranging from approximately 0.5 mm to 3 mm. The needle
assembly may be secured to the syringe via a hub portion, which may
be integrally formed in the syringe body or the hub portion may be
separate and detachably secured by a Luer fit or equivalent
attachment method. As may be appreciated from FIG. 3, it is not
possible, using a device having a stationary limiter at the short
lengths required for intradermal injection, to fill a reservoir
from a conventional vial having a septum of a thickness greater
than the protrusion of the needle. The distance the needle
protrudes from the limiter is too short to adequately penetrate the
depth of the septum and access the substance contained in the vial.
Aspects of the present invention allow for access to a substance
contained in a conventional vial by an intradermal needle device or
assembly. Alternatively, it may be desirable to pre-fill the
syringe with a diluent and use the devices and methods having
aspects of the invention for mixing of diluent and active
ingredient. Thus, standard methods for preserving the therapeutic
and/or diagnostic substances, such as maintaining them in liquid or
powder form in conventional vials for future use, may be used with
the system of the present invention. Furthermore, using the
intradermal filling devices having aspects of the present
invention, it is possible to use conventional, inexpensive delivery
devices such as fixed needle plastic syringes, in conjunction with
the intradermal devices, which reduces dead-space and are often not
appropriate for use as fill at time of use devices.
[0011] Aspects of the present invention also support the vial such
that it does not need to be supported by the free hand during the
drawing of medicament. Additionally, aspects of the invention are
directed to providing systems and devices for guidance and/or
retention of the syringe to the vial adapter. These same systems
may optionally form components of a safety needle shielding
system.
[0012] Aspects of the present invention provide a fluid transfer
system for use in transferring a medical substance from a
medication container having a septum with a pre-determined
thickness into a delivery device. The delivery device has a
reservoir adapted for storing a medical substance and a needle
cannula attached to the delivery device with a lumen in fluid
communication to the reservoir. The needle has a forward tip
extending away from the delivery device a pre-selected usable
length, wherein the usable length is less than a thickness of a
septum of the medication container. The system utilizes an adapter
body which includes a container receiving portion with a septum
access needle, and a longitudinal projection extending from the
adapter body. The projection includes an adapter septum having a
thickness less than the usable length of the needle cannula. When
the container is inserted into the container receiving portion and
the delivery device needle is penetrated through the adapter
septum, fluid communication is established to the substance in the
container such that it is allowed to be aspirated into the
reservoir. Optionally, the system further comprises a shield which
is slidably disposed upon the delivery device. The shield has at
least a two positions, a first position exposing the forward tip of
the needle cannula and a second position concealing the forward tip
of the needle cannula. Optionally, the system further comprises a
shield which includes at least one slot wherein the slot cooperates
with a corresponding feature on the vial adapter protrusion.
Optionally, the vial adapter protrusion includes at least one
locking finger or tang received by the slot in the shield.
Optionally, the locking features are disposed in a helical pattern.
In an alternate embodiment of the shield, the shield is slidably
disposed upon the delivery device having at least a first position
and a second position, the first position concealing said forward
tip of said needle cannula and the second position exposing said
forward tip of said needle cannula. Optionally, in this embodiment,
a locking clip is used which is slidably disposed between the
shield and the delivery device. The clip itself has at least two
positions. A first position of the clip allows proximal movement of
the shield with respect to the delivery device. The second position
of the clip prevents proximal movement of the shield with respect
to the delivery device. Optionally, movement of the shield with
respect to the delivery device engages the clip and moves the clip
into a second position of the clip, thereby preventing proximal
movement of the shield with respect to the delivery device.
[0013] Additionally, a method of intradermally injecting a
substance is provided including the steps of providing a vial
adapter for use with a vial having a septum with a pre-selected
thickness, and providing an intradermal injection device having a
predetermined usable length of needle, inserting the vial into the
vial adapter, inserting the intradermal device into the vial
adapter, filling the intradermal device, removing the intradermal
device from the vial adapter, and pressing the intradermal device
to the patient's skin such that the skin engaging surface of the
limiter encounters the skin and prevents penetration of the needle
cannula deeper than about 3 mm; and injecting the substance under
conditions and for a time sufficient to deliver the substance into
the dermis layer of the skin.
[0014] Other aspects of the invention include a delivery device
having a reservoir within adapted for storing a medical substance.
The device includes a needle cannula attached to the delivery
device having a lumen in fluid communication to the reservoir and
having a forward tip extending away from the delivery device a
pre-selected usable length. The device also includes a shield which
is slidably disposed upon the delivery device having at least a
first position and a second position. The shield's first position
conceals the forward tip of the needle cannula and the second
position exposing the forward tip of the needle cannula. The device
also includes a locking clip which is slidably disposed between the
shield bore and the delivery device. The clip has at least a first
position and a second position, the clip's first position allows
proximal movement of the shield with respect to the delivery device
and the clip's second position prevents proximal movement of the
shield with respect to the delivery device. In use, a first
proximal movement of the shield with respect to the delivery device
into the shield's second position engages the locking clip and
moves the locking clip into the second position of the locking
clip, thereby preventing subsequent proximal movement of the shield
with respect to the delivery device. Optionally, the shield
includes at least one slot wherein the slot cooperates on a
corresponding feature on a medication vial protrusion, wherein the
cooperation allows removable attachment of the delivery device to
the container.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] Other advantages of the present invention will be readily
appreciated as the same becomes better understood by reference to
the following detailed description when considered in connection
with the accompanying drawings wherein:
[0016] FIG. 1 shows an embodiment of an intradermal injection
device having an intradermal needle assembly inserted into a vial
adapter in accordance with one aspect of the invention, in
perspective view.
[0017] FIG. 2 shows a cross-sectional view of the assembly of FIG.
1.
[0018] FIG. 3 shows a perspective view of an intradermal injection
device as used in the assembly of FIG. 1.
[0019] FIG. 4 shows a perspective cross-sectional view of the vial
adapter of the assembly of FIG. 1.
[0020] FIG. 5 shows a perspective cross-sectional view of the
assembly of FIG. 1, with the plunger in a position to aspirate the
medication.
[0021] FIG. 6 shows a perspective view of an embodiment of an
intradermal injection device having a detachable intradermal needle
assembly inserted into a vial adapter in accordance with one aspect
of the invention, in perspective view.
[0022] FIG. 7 shows a cross-sectional view of the assembly of FIG.
6.
[0023] FIG. 8 shows a perspective view of the vial adapter of the
assembly of FIG. 6 with the intradermal needle assembly
attached.
[0024] FIG. 9 shows a perspective view of the vial adapter of the
assembly of FIG. 6.
[0025] FIG. 10 shows an embodiment of an intradermal injection
device having a shieldable intradermal needle assembly prior to
insertion into a vial adapter in accordance with one aspect of the
invention, in perspective view.
[0026] FIG. 11 shows a partial cross-sectional view of the assembly
of FIG. 10.
[0027] FIG. 12 shows a partial side cross-sectional view of the
assembly of FIG. 10.
[0028] FIG. 13 shows a side view of the assembly of FIG. 10 with
the shield activated.
[0029] FIG. 14 shows a perspective view of the vial adapter of the
assembly of FIG. 10.
[0030] FIG. 15 shows an enlarged side cross-sectional view of the
assembly of FIG. 10, with the needle inserted into the vial
adapter.
[0031] FIG. 16 shows an embodiment of an intradermal injection
device having a shieldable intradermal needle assembly inserted
into a vial adapter in accordance with one aspect of the invention,
in perspective view.
[0032] FIG. 17 shows an enlarged side cross-sectional view of the
assembly of FIG. 16, with the needle inserted into the vial
adapter.
[0033] FIG. 18 shows an exploded view of the assembly of FIG.
16.
[0034] FIG. 19 shows a side cross sectional view of the intradermal
device assembly of FIG. 16 with the shield in an injection
position.
[0035] FIG. 20 shows the assembly of FIG. 19 with the shield in
position after activation.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0036] As used herein, the term "proximal" and derivatives thereof,
shall mean the end of an item or direction closest to the caregiver
during use of the subject invention. The term "distal" and
derivatives thereof, shall mean the end of an item or direction
towards a patient during use of the subject invention. As used
herein, the term "septum" and derivatives thereof shall mean any
breachable barrier that is intended for sealing a fluid conduit or
container, including, by way of non-limiting example, vial
stoppers, cartridge stoppers, films, elastomeric rubber stoppers,
and septum valves. As used herein, the term "drug substance" and
derivatives thereof, shall mean any substance that is intended for
injection into a patient, including, by way of non-limiting
example, drugs, vaccines, therapeutics, and the like. It will be
obvious to a person of skill in the art, and from the disclosure
provided herein, that the subject invention is not limited or
otherwise defined by the type or class of substance administered
using the inventive injection device.
[0037] FIGS. 1-3 shows an intradermal injection device 1 comprising
a syringe 14 having a syringe body 16 that defines a reservoir 18
within which a drug substance may be held. A plunger 20 is disposed
in the syringe body 16. Plunger 20 has a flange 22 at a distal end
thereof and a stopper 24 at the opposed proximal end thereof.
Device 1 has a needle assembly 2 secured to a distal end of the
syringe body 16. An exemplary needle assembly 2 and intradermal
injection device 1 of the type depicted in FIG. 3 is disclosed in
U.S. Pat. Nos. 6,494,865; 6,569,143; 6,689,118; 6,843,781;
6,569,123; 6,776,776; and US Published Application No. 2005-0203459
A1 to Alchas and Alchas et al., the entire contents of each of
which are incorporated by reference herein in their respective
entireties. The needle assembly 2 is specifically designed for
making intradermal injections. The needle assembly 2 carries a
needle cannula 4 having a needle tip 6 at a distal end thereof.
Alternatively, the needle cannula 4 may be secured directly to the
syringe body 16. The needle assembly 2 may also includes a
penetration limiter 8 having a hub portion 9 that may be secured to
the syringe body 16, and a limiter portion 11 that defines a skin
engaging surface 10 at a distal end of the limiter 8. The limiter
8, which generally surrounds the proximal end of the needle 4,
permits a certain predetermined length of the needle cannula 4,
including the needle tip 6, to protrude beyond the skin engaging
surface 10 so that the distance between the needle tip 6 and skin
engaging surface 10 limits penetration of the needle tip 6 into the
intradermal space of the patient's skin. Preferably, the needle tip
6 of the needle cannula 4 extends beyond the skin engaging surface
10 a distance ranging from approximately 0.5 mm to 3 mm. The needle
cannula 4 and skin engaging surface 10 are optionally arranged with
respect to each other in a pre-determined angular relationship that
serves to ensure a pre-determined angular relationship (e.g.
generally perpendicular) between the needle cannula 4 and the
patient's skin; such a pre-determined angular relationship being
preferred when making intradermal injections. The skin engaging
surface 10 engages the surface of the skin of a patient and would
also limit the penetration depth of the needle tip 6 into a vial
septum. The needle assembly 2 is secured to the syringe 14 via the
hub portion 9, which may be fixedly secured to the syringe body 16,
or the hub portion 9 may be secured by a Luer fit or equivalent
attachment method. Alternatively, the needle assembly 2 may be
integrally formed on the syringe body 16.
[0038] The substances for use with the device and method include
vaccines and certain medicaments and drugs. Additionally, these
substances can be used for diagnostic testing such as, for example,
the Mantoux test to determine immunity status against tuberculosis
and immediate hypersensivity status of Type I allergic diseases.
Also, the substance intradermally delivered in accordance with
aspects of the methods and devices of the present invention is
selected from the group consisting of drugs, vaccines and the like
used in the prevention, diagnosis, alleviation, treatment, or cure
of disease, with the drugs including Alpha-1 anti-trypsin,
Anti-Angiogenesis agents, Antisense, butorphanol, Calcitonin and
analogs, Ceredase, COX-II inhibitors, dermatological agents,
dihydroergotamine, Dopamine agonists and antagonists, Enkephalins
and other opioid peptides, Epidermal growth factors, Erythropoietin
and analogs, Follicle stimulating hormone, G-CSF, Glucagon, GM-CSF,
granisetron, Growth hormone and analogs (including growth hormone
releasing hormone), Growth hormone antagonists, Hirudin and Hirudin
analogs such as hirulog, IgE suppressors, Insulin, insulinotropin
and analogs, Insulin-like growth factors, Interferons,
Interleukins, Leutenizing hormone, Leutenizing hormone releasing
hormone and analogs, Low molecular weight heparin, M-CSF,
metoclopramide, Midazolam, Monoclonal antibodies, Narcotic
analgesics, nicotine, Non-steroid anti-inflammatory agents,
Oligosaccharides, ondansetron, Parathyroid hormone and analogs,
Parathyroid hormone antagonists, Prostaglandin antagonists,
Prostaglandins, Recombinant soluble receptors, scopolamine,
Serotonin agonists and antagonists, Sildenafil, Terbutaline,
Thrombolytics, Tissue plasminogen activators, TNF-, and
TNF-antagonist, the vaccines, with or without carriers/adjuvants,
including prophylactics and therapeutic antigens (including but not
limited to subunit protein, peptide and polysaccharide,
polysaccharide conjugates, toxoids, genetic based vaccines, live
attenuated, reassortant, inactivated, whole cells, viral and
bacterial vectors) in connection with, addiction, arthritis,
cholera, cocaine addiction, diphtheria, tetanus, HIB, Lyme disease,
meningococcus, measles, mumps, rubella, varicella, yellow fever,
Respiratory syncytial virus, tick borne japanese encephalitis,
pneumococcus, streptococcus, typhoid, influenza, hepatitis,
including hepatitis A, B, C and E, otitis media, rabies, polio,
HIV, parainfluenza, rotavirus, Epstein Barr Virus, CMV, chlamydia,
non-typeable haemophilus, moraxella catarrhalis, human papilloma
virus, tuberculosis including BCG, gonorrhoea, asthma,
atheroschlerosis malaria, E-coli, Alzheimers, H. Pylori,
salmonella, diabetes, cancer, herpes simplex, human papilloma and
the like other substances including all of the major therapeutics
such as agents for the common cold, Anti-addiction, anti-allergy,
anti-emetics, anti-obesity, antiosteoporeteic, anti-infectives,
analgesics, anesthetics, anorexics, anti arthritics, anti asthmatic
agents, anticonvulsants, anti-depressants, antidiabetic agents,
antihistamines, anti-inflammatory agents, antimigraine
preparations, antimotion sickness preparations, antinauseants,
antineoplastics, antiparkinsonism drugs, antipruritics,
antipsychotics, antipyretics, anticholinergics, benzodiazepine
antagonists, vasodilators, including general, coronary, peripheral
and cerebral, bone stimulating agents, central nervous system
stimulants, hormones, hypnotics, immunosuppressives, muscle
relaxants, parasympatholytics, parasympathomimetrics,
prostaglandins, proteins, peptides, polypeptides and other
macromolecules, psychostimulants, sedatives, sexual hypofunction
and tranquilizers and major diagnostics such as tuberculin and
other hypersensitivity agents.
[0039] In accordance with one embodiment of a medication container,
these substances are stored in medication vials with an open end, a
rim surrounding the open end and a reduced diameter neck portion
adjacent the rim. The vial is sealed, in some embodiments with an
elastomeric septum, which includes a portion inserted into the neck
of the vial and a planar rim portion which overlies the vial rim.
The septum is normally secured to the vial rim with an aluminum
collar. In the case of a conventional syringe, the needle can be
used to directly access a drug substance contained within the vial.
In one embodiment, the minimum thickness of a standard vial septum
is greater than 2 mm, nominally 3 mm and some are greater than 5
mm. Furthermore, at the edges of a vial stopper the thicknesses may
exceed 8 mm. As described above, vial stoppers may also be coated
with PTFE or other barrier coatings which not only add to the
thickness, but add to the penetration resistance.
[0040] When the needle 4 of intradermal injection device 1 not is
sufficiently long to penetrate the septum to access the drug
substance contained in the vial, the use of a vial adapter 50 may
be employed in order to use needle 4 to fill the delivery device.
Now referring to FIG. 4, vial adapter 50 includes protrusion 54
having a passage 52 adapted to receive at least a portion of needle
assembly 2. At the proximal end of passage 52 is disposed septum
60. Septum 60 has a proximal face 61 and a distal face 62. At the
distal end of vial adapter 50 is opening 58, adapted to receive a
portion of the medication vial. Preferably, opening 58 is adapted
to receive the aluminum collar of the medication vial. Disposed in
opening 58 is vial spike 70 having a point 76 which is adapted to
pierce the septum of the medication vial. Vial spike 70 is a
generally hollow structure formed by lumen 74 and further includes
aperture 72 disposed at the distal end of vial spike 70. The
proximal end of vial spike 70 is fluid communication with distal
face 62 of septum 60.
[0041] When the medication vial is inserted into opening 58, the
distal end of vial spike 70 including aperture 72 is penetrated
through the septum of the medication vial. Vial Spike 70 protrudes
a predetermined distance preferably being in excess of about 5 mm
from a portion of vial adapter 50 such that aperture 72 is able to
enter the interior of the medication vial. Preferably, the
protrusion of vial spike is in the range of about 8 mm to about 15
mm, more preferably, is in the range of about 10 mm to about 13 mm.
The lumen 74 of vial spike 70 is in fluid communication with distal
face 62 of septum 60. Furthermore, when the delivery device 1 is
inserted into passage 52, the needle tip 6 and lumen of needle 4 of
needle assembly 2 is able to pass the distal face 62 of septum 60
by the complete penetration of septum 60. Preferably, the tip 6 and
a portion of the lumen of needle 4 are now within a portion of
lumen 74 of vial spike 70, thus allowing fluid communication. The
thickness of septum 60 is pre-selected such that the thickness of
septum 60 is always less than the protrusion of needle 4 from
limiter portion 11. Preferably, the thickness of septum 60 is in
the range of about 0.01 mm to about 3 mm, more preferably, is in
the range of about 0.25 mm to about 1 mm, more preferably, is in
the range of about 0.5 mm to about 1 mm. In this embodiment the
septum may be silicone or a suitable elastomer. Additionally, the
septum may be pre-slit for easier penetration. In an alternate
embodiment, the septum is a film having a thickness of between
about 12 and about 4 mil. In a particular embodiment of film, the
film is a thermoform able polyethylene terephthalate (PET). In a
particular embodiment of film, the film is a co-laminated or
co-extruded film including a layer of thermoform able polyethylene
terephthalate (PET) on the exterior thereof and an optional layer
of heat-sealable polyethylene on the interior thereof. In some of
the embodiments, the septum 60 is heat sealed onto the vial adapter
50. In other embodiments septum 60 is retained mechanically within
vial adapter 50. Thus, when vial adapter 50 is used to access a
medication vial, fluid communication between the interior of the
medication vial and the reservoir 18 is established through vial
spike 70 and needle 4.
[0042] Opening 58 in vial adapter 50 may further include features
to engage the vial while the vial is in opening 58. In one
embodiment, vial adapter 50 is slit with a plurality of slits 68
which form a plurality of cantilevers 67. Cantilever 67 optionally
includes lip 69 to help guide the medication vial into opening 58.
When the medication vial is inserted into opening 58, cantilevers
67 are deflectable radially outward to allow medication vial to
enter opening 58 with an interference fit. Cantilevers 67
optionally include shoulder 66 so that a portion of the medication
vial is positively (and releasably) locked into opening 58. In an
alternate embodiment, medication vial is permanently locked into
opening 58 by selection of cantilever 67 and shoulder 66 dimensions
which prevent the removal of the medication vial from opening
58.
[0043] In a preferred embodiment of the present invention, all
components of the intradermal device 2 and the vial adapter are
made from moldable plastic materials such as, for example,
polymeric plastics such as polyethylene, polypropylene,
polycarbonate, and the like (except for the needle cannula 4 which
is preferably made from steel, and the septum 60 which is
preferably made from materials as described above or an elastomeric
material). This construction allows for the vial adapter 50 and
vial spike 70 to be unitarily formed from a single moldable
plastic. In an alternate embodiment, vial spike 70 is also
constructed of steel. Furthermore, it may be possible to unitarily
form septum 60 and vial adapter 50. These part reductions are
especially helpful in ease of assembly as well as reducing costs of
manufacture.
[0044] The vial adapter 50 may be supplied as an add-on to
conventional drug delivery devices, i.e., glass or plastic
syringes. In that case, the vial adapter 50 may be attached to a
conventional medication vial and intradermal drug delivery device,
such as a syringe at the point of use. Alternatively, the vial
adapter 50 may be provided with an intradermal injection device 1,
thus comprising a system in accordance with certain embodiments of
the present invention. Generally, the vial adapter 50 and
intradermal device 1 will be provided with a protective packaging
to maintain the integrity of the unit and/or sterility thereof. The
vial adapter 50 may further be provided with a protective cap to
cover opening 58 and/or passage 52 prior to use thereof.
[0045] Now referring to FIGS. 6-9 which show an alternate
embodiment having aspects of the present invention. In this
particular embodiment, needle assembly 2 is detachable from syringe
body 16. The attachment of syringe 14 to needle assembly 2 is by
fitting 28. Fitting 28 provides for fluid commutation between
needle 4 and reservoir 18. Preferably, fitting 28 is a luer taper;
however, in certain applications it may be desirable to configure
fitting 28 with a proprietary-type connection with syringe 14.
Disposed on needle assembly 2 is tang catch 21 which engages tang
51 on adapter 50. Tang catch 21 and tang 51 may be utilized on any
embodiment disclosed herein. Optionally, tang 51 is formed with a
helical surface such that engagement of tang 51 and tang catch 51
so that relative rotational movement about a longitudinal axis
induces linear movement of the two components (adapter 50 and
needle assembly 2). This may be useful in applying additional
forces which may be required to penetrate septum 60 with needle 4.
Tang 51 and tang catch 21 may be optionally be formed with a
bayonet-type fit such that a partial relative rotation about a
longitudinal axis of the two components (adapter 50 and needle
assembly 2) allows the two components to be removably attached.
[0046] In use, a health care professional administering the
intradermal injection will unwrap the protective packaging from the
vial adapter 50 (if provided as a separate component) or injection
device 1. If necessary, the injection device 1 can be filled with a
diluent at this time, using methods that are conventional and known
in the art. The health care professional will then manually insert
the medication device into the vial adapter 50 in preparation for
aspiration of medication into reservoir 18. If supplied as separate
components, the health care professional will then manually insert
the intradermal delivery device 1 into the vial adapter 50 (see,
e.g., FIG. 5) in preparation for aspiration of medication.
Alternatively, vial adapter 50 and delivery device 1 are
pre-assembled. Optionally, at this point, a diluent is injected in
the medication vial. The healthcare professional then aspirates the
syringe with the medication from the medication vial from reservoir
18. The health care professional will then manually remove the
medication device 1 from vial adapter 50 in preparation for
administration of the intradermal injection. Administration will,
in one embodiment, involve pressing the skin engaging surface 10 of
the limiter 11 substantially perpendicular to a surface of the
patient's skin. The drug substance will then be injected using the
plunger 20 or other device conventionally used to deliver a drug
substance. The injection will continue for a period of time
determined by one having skill in the art based on the particular
substance being administered as well as the dosage volume. Upon
completion of the injection, the health care professional withdraws
the needle cannula 4 from the patient's skin and disposes the used
injection device 1 in a suitable container. Prior to disposal, the
health care professional optionally activates the shielding portion
of delivery device 1. A particular embodiment of shielding device
is disclosed further below.
[0047] As will now be understood, the intradermal delivery device
having aspects of the invention may include a needle enclosure
means which encloses or conceals the needle cannula tip following
injection and which preferably cannot be retracted to prevent
accidental needle contact or reuse. In one embodiment shown in
FIGS. 10-15, a shield may be extended following injection and
locked in place. In a second embodiment shown in FIGS. 16-20, the
assembly includes a re-extendable shield, which locks in the
extended position, preventing contact with the needle by use of
shield clip for example, as is disclosed in U.S. Pat. Nos.
5,338,310; 5,385,555 and 4,631,057 each of the disclosure of which
are incorporated by reference herein in their entirety.
Alternatively, the assembly may include a plunger lock via a
plunger clip as disclosed, for example, in a copending US
Publication 2005/0027250A1 or U.S. Pat. Nos. 4,973,310 and
4,961,728 the disclosure of which is incorporated by reference. The
plunger lock may also configured to lock the shield as is described
below. The syringe barrel has an elongate body portion, a proximal
end, and a distal end, and a needle at the distal end. A metal
locking element is positioned in the shield between the barrel and
the inside surface of the shield. The outside surface of the
syringe barrel acts as a pathway for the longitudinal motion of the
locking element relative to the elongate body portion. The element
includes a proximal portion and a distal portion, an optional
proximally and outwardly facing locking barb, a distally and
inwardly facing resisting edge and an inwardly facing driving edge
at the proximal portion of the element. The driving edge is adapted
to interact with the outer portion of the syringe barrel to move
the locking element along the bore of the shield as the barrel is
advanced proximally along the barrel by force applied to the
shield. The resisting edge and the barb are adapted to prevent
motion of the barrel with respect to the shield after initial
proximal motion of the shield.
[0048] Now referring to FIG. 10-13, which show an alternate
embodiment having aspects of the present invention. In this
particular embodiment, needle assembly 2 is integral to syringe
body 16 and includes threads 25 which engages tang 51 on adapter
50. Threads 25 and tang 51 may be utilized on any embodiment
disclosed herein. In this embodiment, threads 25 are formed with a
helical surface such that engagement of tang 51 and threads 25 is
helical in nature and allows for positive connection of the two
components (Device 1 and adapter 50).
[0049] Also shown in FIG. 10-13 is shield 30 which allows shielding
the needle of the delivery device after use. Finger 32 of shield 30
having rails 41 which cooperate with grooves 42 on needle assembly
2 to allow axial movement of shield 30. Finger 32 also includes
first detent 38 and second detent 36. Detents (36, 38) cooperate
with lock 40 which is a cantilevered beam on needle assembly 2 to
retain shield 30 in desired positions. Shield 30 is normally
retained in a proximal position by first detent 38, as shown in
FIG. 15, which allows needle 4 to access septum 60 of adapter 50.
After use, shield 30 is moved distally and lock 40 engages second
detent 36 to lock shield 30 in a distal position as shown in FIG.
13.
[0050] Also shown in FIG. 11 is plunger clip 26 which allows
locking of plunger 20 within syringe body 16 after a pre-prescribed
number of strokes as is described in co-pending US Publication
2005/0027250A1. Plunger clip 26 cooperates with plunger detents 19
and the interior wall of syringe body 16 to lock the plunger after
use. The plunger clip 26, and detents 19 are selected by using
skill in the art to allow the following typical stroke patterns of
the plunger, wherein D=distal movement, and P=Proximal movement of
the plunger: D; PD; DPD; PDPD; and PDPDPD. The plunger clip may be
used in any embodiment.
[0051] Now referring to FIG. 16-20, which show an alternate
embodiment having aspects of the present invention. In this
particular embodiment, needle assembly 2 is assembled to syringe
body 16 and preferably permanently assembled to syringe body 16,
however a detachable assembly via a fitting as described previously
is possible with this embodiment. Device 2 includes shield 30 which
engages tang 51 on adapter 50. Shield 30 in position shown in FIG.
17 cooperating with tang 51 and tang catch 21 (disposed on shield
30 in this embodiment) allow for positive connection of the two
components (Device 1 and adapter 50). In this embodiment, tang
catch 21 is shown shaped in a bayonet-type connection arrangement
with tang 51, however, other types of connections such as detented
or threaded could be used in this application, as described
previously.
[0052] In this embodiment, septum 60 is disposed in a proximal
portion of protrusion 54 of adapter 50. Furthermore, septum 60 is
held in place by septum retainer 64, which holds septum 60 onto
adapter 50. Alternatively, septum 60 may be adhesively attached, or
heat sealed onto or integrally formed into adapter 50. One
advantage of having a proximally located septum is the ability to
wipe the septum prior to penetration to disinfect the septum prior
to use. Alternatively, the septum may be located distally on
protrusion 54.
[0053] Shield 30 in this embodiment is a re-extendable shield,
which locks in the extended position after use, preventing contact
with the needle by use of shield clip 43. Preferably, shield 30 is
first presented in the extended condition which allows easy
connection of device 2 to adapter 50. Shield 30 is slidably engaged
in the syringe barrel by the engagement of the shield bore 31 with
barrel stop 46 and barrel guide 17 on syringe body 16. Forward stop
44 of shield 30 cooperates with barrel stop 46 to limit the distal
travel of shield 30. Shield 30 is normally retained in a distal
position by Forward stop 44 and barrel stop 46 along with shield
clip 43, as shown in FIG. 17, which allows needle 4 to proximally
located access septum 60 on protrusion 54 of adapter 50. Shield
clip 43 is in a proximal position, which allows proximal movement
of the shield with respect to the barrel. After filling, shield 30
is moved distally to expose needle 4 for an injection into a
patient as described in detail above. The position of Shield 30 is
now as is shown in FIG. 19. As shield 30 is moved distally, shield
clip 43 is held in place with respect to syringe body 16, thus is
in second position with respect to shield 30. After use, shield 30
is moved distally with respect to syringe body 16 and shield clip
43 engages barrel detent 29 to lock shield 30 in a distal position
as shown in FIG. 20. The shield clip 43, and barrel detents 29 are
selected by using skill in the art to allow the following typical
stroke patterns of the shield, wherein D=distal movement, and
P=Proximal movement of the plunger: D; PD; and DPD.
[0054] The invention has been described in an illustrative manner,
and it is to be understood that the terminology which has been used
is intended to be in the nature of words of description rather than
of limitation.
[0055] Obviously, many modifications and variations of the present
invention are possible in light of the above teachings. It is,
therefore, to be understood that within the scope of the appended
claims, wherein reference numerals are merely for convenience and
are not to be in any way limiting, the invention may be practiced
otherwise than as specifically described.
* * * * *