U.S. patent application number 14/831429 was filed with the patent office on 2015-12-10 for ultrasound assisted catheter placement system.
The applicant listed for this patent is The George Washington University. Invention is credited to Hawaa ALMANSOURI, Nathan J. CASTRO, Adam CORMAN, Benjamin HOLMES, Neal K. SIKKA.
Application Number | 20150352318 14/831429 |
Document ID | / |
Family ID | 51428950 |
Filed Date | 2015-12-10 |
United States Patent
Application |
20150352318 |
Kind Code |
A1 |
ALMANSOURI; Hawaa ; et
al. |
December 10, 2015 |
ULTRASOUND ASSISTED CATHETER PLACEMENT SYSTEM
Abstract
A deep vein intravenous introducer has a wheel located toward
the front end of the device that can be rotated by the index finger
of the user. After placement of the needle in the lumen of the
vessel, the user rotates the wheel, which advances the wire guide
through the center of the needle and into the patient. Once the
guide wire is advanced into the vessel lumen the catheter can be
advanced over the guide wire with a hub or finger tab on the
catheter close to the index finger. The operation can be performed
by one hand without moving the hand from its initial position. The
user can then simultaneously use the other hand to operate an
ultrasound detection device during insertion without the assistance
of another person. A catheter is provided that can be visualized by
ultrasound to enable confirmation of correct placement in a vessel.
A probe cover is provided that is pre-sterilized and packaged in a
cardboard with the top sides of the cover folded down over the
cardboard. The cover is placed over the probe end, the sides of the
cover are folded up, and the cardboard is removed. The sterile
probe cover can be quickly and efficiently placed over the
ultrasound's transducer end. Finally, a kit is provided that
contains all of the medical devices needed to perform
cannulation.
Inventors: |
ALMANSOURI; Hawaa; (Abu
Dhabi, AE) ; CASTRO; Nathan J.; (Washington, DC)
; CORMAN; Adam; (Mclean, VA) ; HOLMES;
Benjamin; (Washington, DC) ; SIKKA; Neal K.;
(Mclean, VA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
The George Washington University |
Washington |
DC |
US |
|
|
Family ID: |
51428950 |
Appl. No.: |
14/831429 |
Filed: |
August 20, 2015 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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14651471 |
Jun 11, 2015 |
|
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|
PCT/US2014/018931 |
Feb 27, 2014 |
|
|
|
14831429 |
|
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|
61770052 |
Feb 27, 2013 |
|
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Current U.S.
Class: |
600/459 ;
128/845; 206/438; 604/528 |
Current CPC
Class: |
A61M 25/0606 20130101;
A61M 2025/0681 20130101; A61M 25/0662 20130101; A61B 8/0841
20130101; A61M 25/09041 20130101; Y10T 29/49828 20150115; A61M
25/0108 20130101; A61G 13/1235 20130101; A61B 8/4422 20130101; A61G
13/126 20130101; A61M 25/002 20130101; A61M 2210/12 20130101; A61M
2210/005 20130101; A61M 2025/09116 20130101 |
International
Class: |
A61M 25/00 20060101
A61M025/00; A61B 8/00 20060101 A61B008/00; A61G 13/12 20060101
A61G013/12; A61M 25/09 20060101 A61M025/09; A61M 25/06 20060101
A61M025/06 |
Claims
1. A wire introduction device for introducing a guide wire into a
body of a patient, the device comprising: a housing body; and a
wheel rotatably coupled with said housing body, said wheel
connected to the guide wire and configured to advance the guide
wire into the patient body upon rotation of said wheel.
2. The wire introduction device of claim 1, further comprising a
drive wire connected to the wheel, and a connector connecting said
drive wire to the guide wire, wherein rotation of said wheel
advances the drive wire which in turn advances the guide wire.
3. The wire introduction device of claim 2, further comprising a
drum connected to said wheel, wherein the drive wire is coupled
with said drum.
4. The wire introduction device of claim 2, further comprising a
rear opening located at a rear end of said housing, wherein said
drive wire and the guide wire extend through the rear opening.
5. The wire introduction device of claim 4, further comprising a
sheath positioned about the drive wire and guide wire at the rear
opening of said housing.
6. The wire introduction device of claim 1, further comprising an
opening at a front end of said housing body, wherein the guide wire
extends through the opening.
7. The wire introduction device of claim 6, further comprising an
elongated coupling projecting outward from said housing body about
said opening and configured to receive a needle having a central
opening, wherein the guide wire extends through the central opening
of the needle.
8. The wire introduction device of claim 1, wherein said wheel has
an outer circumferential edge with ridges, and further comprising a
tab coupled to said housing and configured to engage the ridges and
prevent said wheel from backward rotation while allowing forward
rotation of said wheel.
9. The wire introduction device of claim 1, wherein said device is
configured for single-handed operation, whereby the user can hold
the device in a single hand and operate said wheel with an index
finger of said hand.
10. A catheter comprising a tube for insertion into a human body,
and a tab extending from said tube, said tab coupled to said tube
and configured to facilitate insertion of said tube into the human
body.
11-17. (canceled)
18. A sterile probe cover assembly comprising: a container having a
top edge; and a probe cover having one or more sides, said one or
more sides having a top portion, whereby said one or more sides are
received in said container and the top portion of said one or more
sides is folded down over the top edge of said container.
19. The probe cover assembly of claim 20, wherein the cover is
configured to fit over an ultrasound probe.
20. The probe cover assembly of claim 20, wherein said assembly can
slide over the ultrasound probe, the top portion of said one or
more sides folded up and onto the probe, and the container
removed.
21. (canceled)
22. A intravenous deep vein kit comprising: a box, and one or more
intravenous medical devices contained within the box.
23. The kit of claim 22, said box having a bottom configured to
stabilize a body part to be catheterized.
24. The kit of claim 23, further comprising a cushion affixed to
the bottom of said kit.
25. The kit of claim 23, wherein said bottom has a concave form to
stabilize an elbow and arm to facilitate alignment of the arm for
catheter placement.
Description
RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional
Application No. 61/770,052, filed Feb. 27, 2013, the entire
contents of which are incorporated herein by reference.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] This invention relates to a system, device and method for
the introduction of catheters and more particularly to the
introduction of catheters into small diameter blood vessels, deep
vessels, central veins, arteries, and those visualized by
ultrasound.
[0004] 2. Background of the Related Art
[0005] Catheter introduction sets are generally known. For
instance, U.S. Pat. No. 4,417,886 discloses a catheter introduction
set having a needle, catheter, wire guide and wire guide feed
device in which when the needle is positioned into a lumen of a
blood vessel, a wire guide is first inserted into the vessel and
the catheter is fed over the wire guide from the use of a radially
extended handle into the lumen. This arrangement is similarly
disclosed in U.S. Pat. No. 4,772,264 with the addition of a
retaining finger for stabilization of the catheter on the skin.
[0006] However, these catheter introduction sets require the user
to use two hands to operate the device. One hand is needed to
insert the needle and catheter, and a second hand to feed the guide
wire. This means that one hand has to be taken off the ultrasound
probe to feed the guide wire. Consequently, a single user cannot
visualize the guide wire directly while threading the vessel, which
increases the possibility of misplacement of the guide wire.
[0007] Catheters, both central and peripheral, are not designed to
be visualized under ultrasound and correct placement is essential
for proper medication administration. A catheter can be placed into
a vessel with an introducer needle with or without a guide wire.
The guide wire and the introducer needle can be visualized under
ultrasound, but the catheter itself cannot be visualized. Because
the catheter cannot be visualized, sometimes catheters are placed
incorrectly. Examples of incorrect catheter placement include: in
an artery instead of a vein, in a vein instead of an artery, and in
neither a vein nor an artery. Arteries flow next to veins and can
be easily catheterized accidentally when aiming for a vein.
Accidental placement of a catheter in an artery instead of a vein
can lead to destruction of tissues receiving blood from that artery
due to application of medications that damage arteries and are
intended only for use in veins.
[0008] While placing an ultrasound guided IV catheter there are two
directional variables the health care professional has to deal
with: longitudinal and vertical. Without the use of a directional
marker the physician can become disoriented to the longitudinal
direction. There is a simple method to alleviate this complication
by using a directional marker to orient the longitudinal direction
of the catheter to the vessel, eliminating this variable and
simplifying the ultrasound guidance technique. Two temporary points
can be marked on the surface of the skin one at the point of
planned initial entry of the catheter over the vessel and another
small distance distal to this point. The ultrasound can be used to
follow the vessel allowing the clinician to mark these two points
above the vessel on the skin. However, currently available catheter
introduction sets do not incorporate a means to make directional
markings on the skin.
[0009] Stable position of the body part to be catheterized is
essential for both placement of the catheter and comfort of the
patient. Catheter introduction kits are available manufactured by
Arrow International for the radial artery. These kits include a
case that both holds the kit contents and provides means to
stabilize the wrist for the catheter insertion in the artery of the
wrist. Currently there are no kits available for catheter
introduction in the anti-cubital veins of the upper arm. Because no
such kits are available, practitioners do not have readily
available means to stabilize the arm for catheterization. Likewise,
additional body parts that are catheterized besides the arm, also
do not have kits available that provide body part stabilizing
means.
[0010] Ultrasound guided vascular access and other procedures must
be done in an expedited fashion for medical purposes. Often the
speed of vascular access can be a matter of life or death. This
procedure is invasive, meaning that there is the chance of bacteria
being introduced from the skin into the vessel, which is why the
procedure must be performed under sterile conditions. Ultrasound
probes used repeatedly have a propensity to be contaminated. For
this reason sterile probe covers are used to prevent infection.
Current probe covers for probes used in ultrasound guided vascular
access are large, bulky and time consuming to put on. These probe
covers are very long in order to cover not only the transducer end
of the probe, but also much of the cord.
[0011] A fast time to catheter placement is essential in the health
care setting for the administration of medications especially in
sick patients, and patients in pain, who have rapidly spreading
medical conditions. When placing an ultrasound guided IV having all
the supplies in one place is essential for placement to be time
efficient in the application of medicine or performing blood draws.
However, the necessary equipment is often scattered throughout the
department or not available in the department, making the procedure
even more difficult or impossible to perform. Oftentimes medical
professionals resort to using surgical rectal lubrication and
attempt to use alcohol swabs on dirty ultrasound probes instead of
a sterile sheath.
[0012] Ultrasound guided catheters are more often in deeper
vessels. This is because vessels closer to the surface are more
easily visualized leading to greater success with the conventional
technique. With the deep and small nature of the vessels used in
the ultrasound guided IV catheter technique it can take more time
and attention to place these catheters. More of the catheter is in
the soft tissue between the skin surface and the deep vessel, which
means that the deeper vessel has less of the catheter within its
lumen. A slight slip of the catheter can cause displacement of the
catheter from the lumen. In addition, sterile lubrication used for
the ultrasound makes it difficult for tape and tegaderm to adhere
to the skin. All of these factors make it difficult and essential
to secure an ultrasound guided IV catheter.
[0013] The placement of an ultrasound guided IV catheter is often
painful to the patient. The use of an anesthetic at the skin
surface can make catheter placement much more comfortable for the
patient. The placing of a catheter via ultrasound usually uses a
large bore catheter, 18 gauge or larger. The large gauge is
necessary for the rapid transfusion of medicines, fluids and IV
contrast, and this can be quite painful, especially because the
placement of ultrasound guided IV catheters usually takes longer
than the conventional method with a sharp needle being slowly
manipulated beneath the skin. The use of local anesthetic at the
site of entry can alleviate this pain.
[0014] Ultrasound guided catheter introduction kits are currently
available for central venous access, but no kits are available for
ultrasound guided peripheral venous access.
SUMMARY OF THE INVENTION
[0015] Accordingly, it is an object of the invention to provide a
needle/catheter introduction apparatus that can be operated with
one hand. It is a further object to provide an introduction
apparatus that is reliable and easy to use. It is a further object
of the invention to provide a catheter that can be visualized with
ultrasound. It is yet another object of the invention to provide a
probe cover that is easy to use, reliable, and sterile. It is still
a further object of the invention to provide an assembly or kit
with components needed for ultrasound guided catheter introduction
to peripheral veins or arteries.
[0016] A needle/catheter introducer is provided that can be
operated by one hand. The introducer has a wheel located toward the
front end of the device that is rotated by the index finger of the
user. After placement of the needle in the lumen of the vessel, the
user rotates the wheel, which advances the wire guide through the
center of the needle and into the patient. Once the guide wire is
advanced into the vessel lumen the catheter can be advanced over
the guide wire with a hub or finger tab on the catheter close to
the index finger. The introducer fits in the palm of the user's
hand and the wheel can be operated by the user's index finger.
Because the actions needed to advance the guide wire and advance
the catheter can both be comfortably performed by one hand without
moving the hand from its initial position, the catheter introducer
is easy to use and allows the user to also operate an ultrasound
detection device during insertion without the assistance of another
person.
[0017] In addition, a catheter is provided that is comprised of
materials that make the catheter capable of being visualized by
ultrasound to enable confirmation of correct placement in a
vessel.
[0018] In addition, a probe cover is provided that is
pre-sterilized and packaged in a cardboard with the top sides of
the cover folded down over the cardboard. The cover is placed over
the probe end, the sides of the cover are folded up, and the
cardboard is removed. The sterile probe cover can be quickly and
efficiently placed over the ultrasound's transducer end.
[0019] Still further, the invention includes a kit having
components needed for ultrasound guided catheter introduction to
peripheral veins or arteries. The kit has a sterile package with an
ergonomic shape that can be used to stabilize the arm. The needle
cover, in addition to protecting the needle, has a tip which can
mark the skin to provide a directional marker. This allows the
needle to be aligned to the direction of the vessel. The catheter
introduction set allows a catheter tube to be introduced into blood
vessels such as veins and arteries while keeping the ultrasound
probe cover sterile. The introducer assembly is contained in a
sterile package, which is designed to be converted into an
ergonomic arm stand for assisting in stabilizing the arm while
placing the catheter. The sterile package can also contain the
sterile probe cover. The introducer assembly is removed as an
entire unit including needle, catheter, wire guide, rotational wire
guide feed device, needle cover with directional guide. The sterile
probe cover is placed on the transducer end of the ultrasound
probe. Other items in the kit that one might need to locate
separately (outside of peripheral kits) to perform ultrasound
guided catheter insertion on peripheral veins or arteries include:
lidocaine or other anesthetic, sterile gel (for ultrasound
transduction), ultrasound probe cover for sterile patient contact,
two rubber hands to secure the ultrasound probe cover, suture
material to stabilize the catheter on the arm.
[0020] These and other objects of the invention, as well as many of
the intended advantages thereof, will become more readily apparent
when reference is made to the following description, taken in
conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE FIGURES
[0021] FIG. 1 is a perspective view of the introducer in accordance
with the preferred embodiment of the invention;
[0022] FIG. 2 is a side cross-sectional view of the introducer of
FIG. 1;
[0023] FIG. 3 is an exploded view of the wheel apparatus of FIG.
2;
[0024] FIG. 4 is a side view of the wire connector used to couple
the drive wire to the guide wire in FIG. 1;
[0025] FIG. 5 is a side cross-sectional view of the introducer just
prior to a needle being placed on the introducer;
[0026] FIG. 6 is a side cross-sectional view of the introducer
coupled with the needle;
[0027] FIG. 7 is a side cross-sectional view of the introducer with
the guide wire extended;
[0028] FIG. 8 shows the huh extended forward on the guide wire;
[0029] FIG. 9 shows the huh and catheter that remains in a
patient's body following removal of the introducer and introducer
needle;
[0030] FIG. 10A is an alternative embodiment of the introducer;
[0031] FIG. 10B is a perspective view of the wheel assembly in
accordance with an alternative embodiment of the invention;
[0032] FIG. 11A is a perspective view of the introducer device
having needle handles and hub handles with the two-wheel assembly
of FIG. 10B;
[0033] FIG. 11B is a perspective view of the introducer device of
FIG. 11A having a needle cover;
[0034] FIG. 11C is a detailed view of the needle cover tip having
projections;
[0035] FIG. 12 is a graph showing UV detectable materials;
[0036] FIG. 13 is a perspective view of a probe cover assembly
prior to being applied to a probe in accordance with another
embodiment of the invention;
[0037] FIG. 14 shows the cover assembly of FIG. 13 fitted to a
probe;
[0038] FIG. 15 shows the container removed from the cover with the
probe ready to be used;
[0039] FIG. 16 shows a UV assisted introducer kit in accordance
with another embodiment of the invention;
[0040] FIG. 17 is a bottom view of the kit of FIG. 16; and
[0041] FIG. 18 shows the patient resting an arm on the kit of FIG.
16.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0042] In describing a preferred embodiment of the invention
illustrated in the drawings, specific terminology will be resorted
to for the sake of clarity. However, the invention is not intended
to be limited to the specific terms so selected, and it is to be
understood that each specific term includes all technical
equivalents that operate in similar manner to accomplish a similar
purpose. Several preferred embodiments of the invention are
described for illustrative purposes, it being understood that the
invention may be embodied in other forms not specifically shown in
the drawings.
[0043] This catheter has several features which will improve
medical treatment. With these added features, the catheter makes IV
placement with ultrasound easier, more efficient, and more
accurate, thus significantly decreasing pain experienced by the
patient by reducing the number of IV sticks currently
performed.
[0044] As shown in the drawings the invention comprises of multiple
elements that have separate novel advantages and features, but also
can be utilized together to improve medical treatment by making IV
placement with ultrasound easier, more efficient and more accurate,
and reducing pain. Those elements include a catheter introduction
apparatus (FIGS. 1-11B), a UV-visible catheter (FIG. 12), a needle
cover with marking means (FIG. 11A-11C), a probe cover (FIGS.
13-15), a sterile kit package (FIGS. 16-18), and a catheter having
finger tabs (FIGS. 11A, 11B).
The Introducer Apparatus 10 (FIGS. 1-11)
[0045] Turning to FIGS. 1-10, an illustrative non-limiting
embodiment of the introducer apparatus 10 is shown. As best shown
in FIG. 2, the introducer 10 has a housing 100, wheel assembly 130,
drive wire 12, and guide wire 14. The housing 100 is slightly
elongated an ergonomically shaped to fit in the palm of a user's
hand. The inside of the housing 100 is hollow, such that the
housing 100 forms a wall 104. The housing 100 has a front end 108
and a rear end 106. An opening 102 is provided at the rear end
106.
[0046] An elongated coupling 114 extends forward from the distal
front end 108 of the housing 100. The coupling 114 has the shape of
an elongated post having a round cross-section. The coupling 114
has a central opening. At the front of the coupling 114, the
central opening is sized to be slightly larger than the guide wire
14. At the middle of the coupling, the opening gets progressively
larger to the rear end of the coupling 114. The tapered opening
forms guide walls 116 that funnel the guide wire toward the smaller
portion of the opening so that the guide wire 14 can be pushed
through the coupling 114 and out of the coupling 114 without
stubbing or damage.
[0047] A guide post 110 is also provided at the front end 108 of
the housing 100. The guide post 110 extends forward from the front
end 108. The post 110 is elongated, has a square-shaped
cross-section (though any suitable shape can be utilized), and
extends substantially parallel to and slightly spaced apart from
the coupling 114. The post 110 is shorter than the coupling 114,
but creates a channel 112 between the post 110 and the coupling
114. An injection needle can then be received over the coupling 14
and is further secured in the channel 110 by the post 110. There
can be a single post 110 positioned above the coupling 114 (FIG. 2)
or two posts on opposite sides of the coupling 114 (FIG. 1), or
both a single post 110 above the coupling and two posts on opposite
sides of the coupling. It will be apparent that any number of posts
110 can be provided and positioned anywhere about the coupling 114
to reliably receive and retain the injection needle. In addition,
other coupling means can be provided to reliably couple the needle
to the housing 100.
[0048] As best shown in FIG. 1, the wheel assembly 130 is provided
in an opening 103 located at the top of the housing 100 at the
front end 108. As more fully shown in FIG. 3, the wheel assembly
130 includes a wheel 132 with teeth 134 that extend transversely
along the outer circumferential edge of the wheel 132. The teeth
134 enable the user to more easily turn the wheel 132. A small
circular post or drum 136 is provided on one side of the wheel 132.
The circular drum 136 projects outward from the side of the wheel
132 and is concentrically aligned with the wheel 132. A
through-hole 138 extends transversely through the center of the
drum 136 and the wheel 132. A pin 140 extends through the
through-hole 138 and engages openings in the two opposing sides 101
(FIG. 1) of the housing 100 so that the wheel 132 can rotate about
the pin 130. The drum 136 is fixed to the wheel 132 so that the
drum 136 rotates as the wheel 132 rotates.
[0049] Returning to FIG. 2, one end of the drive wire 12 is partly
wrapped about the drum 136. For instance, the distal end of the
drive wire 12 can be at least partially placed in a hole 137 (FIG.
3) that extends at least part way through the drum 136 to hold the
drive wire 12 in place on the drum 136. Other suitable coupling
methods can be used, such as adhesive, or a fastener. Thus, the
user can wind the drive wire 12 to retract the drive wire 12. The
drive wire 12 is sufficiently rigid to retain a straight form, but
sufficiently flexible to wind about the drum 136 of the wheel
132.
[0050] Still referring to FIG. 2, a lock assembly 150 is located
just behind the wheel assembly 130 on the housing 100. The lock
assembly 150 includes a locking tab 152, cover 156, nut 162, bolt
164, and display area 158 that can be used to present a logo or
directions to the user. The bolt 164 extends through an opening in
the housing 100 and an opening in the locking tab 152. The head 160
of the bolt 164 is outside of the housing 100 and the bolt 164
attaches to a nut 162 located on the opposite side of the locking
tab 152. The bolt 164 fastens the tab 152 in place on the housing
100 to engage the teeth 134 of the wheel 132. The locking tab 152
is a flat element that extends to the teeth 134 on the wheel 132.
The tab 152 can be somewhat flexible, so that the user can operate
the wheel 132. However, the tab 152 prevents the wheel 132 from
moving when not be operated on by the user, and in particular
prevents the wheel 132 from moving backwards to retract the drive
wire 14. The tab 152 can also make a clicking noise as the wheel
132 is being moved forward, to provide an audible and/or tactile
feedback that confirms to the user that the wheel 132 is being
moved. Though a bolt and tab 152 are shown, it will be readily
apparent that other mechanisms can be provided to prevent
unintended operation of the wheel 132. For instance, the wheel 132
can be friction fit into the opening 103 so that a slight force is
needed to move the wheel 132. The cover 156 extends over the bolt
head 160 so that the user does not get injured by the bolt head
160. The cover 156 can be adhered or fastened to the housing
100.
[0051] A connector or plug 170 is provided at the distal ends of
the drive wire 12 and the guide wire 14. As best shown in FIG. 4,
the connector 170 is configured to engage both the drive wire 12
and the guide wire 14 so that the guide wire 14 moves when the
drive wire 14 moves. The connector 170 has a connector body 171
that includes a first opening 172 that receives the drive wire 12
by a friction fit. The body 171 also has a post 174 that extends
forward and has an opening that receives the guide wire 14 by a
friction fit. In addition, the body 171 includes a guide post or
guide tab 176 that extends forward substantially parallel to the
drive wire 12. A small channel is formed between the tab 176 and
the drive wire 12 to receive and engage a tube or sheath 15 (FIG.
1) that surrounds the two wires 12, 14 to prevent injury to the
user or patient. A slit extends the entire longitudinal length of
the sheath 15, and the guide post 176 moves through the slit. This
keeps the drive wire 12 and the guide wire 14 properly oriented
with respect to each other during operation and so they do not
become twisted. Instead of a sheath 15, the housing 100 can be
extended to cover the two wires 12, 14.
[0052] Operation of the introducer 10 will now be discussed with
respect to FIGS. 5-9. In these illustrative non-limiting
embodiments, the introducer 10 is coupled with a conventional
introducer needle assembly 200 having a standard catheter. One
example of a suitable needle assembly is offered by Smiths-Medical,
JELCO.RTM. I.V. Catheter,
http://www.smiths-medical.com/catalog/peripheral-catheters/conventional-c-
atheters/jelco-conventional-catheters/jelco-v-catheter-radiopaque.html.
It will be recognized however, that the introducer 10 can be used
with other suitable devices, such as Insyte.TM. Autoguard.TM.
Shielded IV Catheters by Becton Dickinson
(http://www.medline.com/product/Insyte153-Autoguard153-Shielded-IV-Cathet-
ers-by-Becton-Dickinson/IV-Catheters/Z05-PF29088#.UwqiYfldWo0),
Introcan Safety.RTM. IV Catheter Straight by B Braun
(http://www.medline.com/product/Introcan-Safety-IV-Catheter-Straight-by-B-
-Braun/IV-Catheters/Z05-PF70731#. UwqiufldWo0), IV Catheters by
Exel International
(http://www.medline.com/product/IV-Catheters-by-Exel-International/IV-Cat-
heters/Z05-PF29139#.Uwqi-vldWo0), and OPTIVA.RTM. IV Catheters by
Smiths Medical
(http://www.medline.com/product/OPTIVA-IV-Catheters-by-Smiths-Med-
ical/IV-Catheters/Z05-PF52843#.UwqjavldWo0).
[0053] As shown in FIG. 5, the needle assembly 200 has a round
tubular housing 204, needle 202, hub 206 and support member 208.
The housing 204 has a first end that is open and mates with the
coupling member 114. The support member 208 is fitted at an
opposite end of the needle housing 204 and the hub 206 is placed
about the support member 208. The needle 202 extends through
openings in the hub 206 and support member 208 and partly into the
front end of the interior of the housing 204. The coupling 114 of
the introducer assembly 10 aligns the guide wire 14 with the needle
202 of the needle assembly 200. A catheter 300 extends over the
outside of the needle 202 and terminates at and couples with the
huh 206.
[0054] The operation starts with FIG. 5, where a needle assembly
200 is aligned with the introducer 10. The drive wire 12 and guide
wire 14 are fully retracted at the rear of the introducer 10.
Turning now to FIG. 6, the user places the needle assembly 200 on
the introducer 10. The tubular housing 204 of the needle assembly
200 is slidably received over the coupling 114 of the introducer
10. The housing 204 wall enters the channel(s) 112 between the one
or more post(s) 110 and the coupling 114. The needle housing 204
fits snugly about the coupling 114, so that the needle assembly 200
does not come free of the introducer 10 until operated on by the
user. As shown, the guide wire 14 is aligned with the needle 202.
It will be appreciated that though this is described as a manual
process, the introducer 10 can come pre-loaded with a needle
assembly 200 already positioned on the introducer 10. Or the
introducer 10 can have a needle integrally formed with the
introducer 10.
[0055] At this point the user places the needle 202 into the
patient, such as the vein or artery lumen. To do so, the needle
cover 250 (14G. 11B) is first taken off of the needle and the
needle cover tip 252 (FIGS. 11B, 11C) is used to mark the skin
surface either with pressure or a marking ink in two spots to give
directional marking for the direction of the cannulation. The
needle cover tip 252 has one or more projections 254 that extend
forward from the front surface of the tip 252. The projections 254
shown are concentric curves that form a company logo. However, the
projection(s) 254 can have any shape, such as an arrow, line, or
dot. Ink can be placed on the projections 254 and applied to the
patient. Or, the projections 254 can be pushed into the patient's
skin without ink, to cause pressure indentations on the patient.
The user can use the inked cap to place directional markings on the
patient. Without this it can be difficult to place cannula once it
has entered under the skin. This can be especially useful with
ultrasound guidance. Both marks are made at points along the
vessel. The cannula (also called a catheter) 300 is placed in the
direction of this guidance in line with the vessel and the needle
202 is inserted into the patient. For deep vessels and small
vessels the directional marking is of particular advantage. To
visualize smaller vessels ultrasound can be used. As further shown
in FIG. 11B, the needle cover 250 has a main tube that extends the
length of the needle 202, and one or more arms 256 at the rear end
that extend outward and upward over the top of the hub 206. The
arms 256 protect the hub 206 and make it easy for the user to
remove the cover 250. The cover 250 can come pre-assembled over the
needle 202, and protects the user from being injured by the needle
202.
[0056] Returning to FIG. 6, after the needle cover 250 is removed,
the needle is aligned along the skin with the two points marked for
direction and then inserted into the lumen of the vessel. Once the
needle 202 is proper placed, the user turns the wheel 132 forward
with an index finger in the direction X. This operation can be done
using a single hand of the user. Since the needle 202 is already
positioned in the vein, the user simply rotates the wheel 132,
which is easy to reach because it is at the front end 108 of the
housing body 100. Thus, the user can retain hold of the housing 100
in the palm of the hand and (without moving his hand) operate the
wheel 132 with the index finger. In addition, the user holds the
introducer 10 steady (i.e., it does not have to be moved forward)
and allows the movement of the wheel 132 to advance the guide wire
12, so that single-handed operation is possible. Single-handed
operation is further made possible by the contour shape of the hub.
Thus, the user can hold an ultrasound probe in the other hand to
assist placement of the guide wire 12 and catheter 300. The tab 152
prevents the wheel 132 from moving in reverse.
[0057] As the wheel 132 is moved forward, it draws the drive wire
12 further onto and around the wheel drum 136. This, in turn,
causes the connector 170 to push the guide wire 14 forward (to the
left in the embodiment of FIG. 7). The guide wire 14 enters the
central opening in the needle 202 and continues through the needle
202 until it emerges from the distal tip of the needle 202 and
enters the patient, as shown in FIG. 7. Accordingly, the guide wire
14 threads the vessel lumen.
[0058] The thin guide wire 14 is then ready to have the soft
plastic catheter 300 slid over the guide wire 14 into the vessel
lumen. As shown in FIG. 8, once the guide wire 14 has entered the
user's vein (which is roughly one to two and a half inches
depending on catheter length), the user pushes the hub 206 (or
finger tabs on the catheter 300, if used) forward to force the
catheter off the needle 202 and into the patient. The support 208
keeps the needle 202 positioned on the introducer 10. The catheter
300 can be pushed into the patient further than the needle 202
and/or guide wire 12 since it is more flexible and won't puncture
the side of the vein or vessel. The user can then remove the needle
202 and guide wire 12 from the patient, leaving the catheter and
huh 206 properly placed in the patient, as shown in FIG. 9. The
user can then connect a syringe, intra venous (IV) device or other
medical instrument at the rear end of the hub 206.
[0059] Turning to FIG. 10A, an alternative embodiment of the
invention is shown. Here, the needle 202 is an elongated shank
portion having a beveled tip. The shank is hollow or canullated and
is joined at its rear or end to a hollow transparent hub 2 having a
rounded front end. The catheter 300 is sized to be telescopically
fitted over the shank of the needle 202. As with FIGS. 1-9, the
catheter 300 is slightly shorter than the needle 202 so that when
it is fully pushed back against the needle hub 2 the beveled tip 5
of the needle projects outwardly from the catheter tip 4 by an
amount sufficient to permit puncture of the blood vessel by the
user of the device. A female luer-type fitting 9 is formed on the
rear of the catheter and mates with and fits over a shoulder
projection 11 on the front of the hub 2. The wire guide assembly 3
includes an elongated tubular member 19 which is fitted into the
counter bore at the end of hub 2. The tubular member 19 can be
formed of a transparent, semi-rigid plastic material, and have
sufficient resilience to maintains its tubular configuration and
use. A guidance tab 16 interfaces with the hollow, grooved tube 19.
The tab 16 is attached to the hack of the guide wire, and slides
through the groove, making sure that the wire does not tangle or
twist. The shoulder projection 11 is a solid plastic piece that is
part of the housing and holds the wheel. A flash guard 13 keeps
blood from spilling or squirting out the back end of the device. A
safety cap 18 is also provided that can be removed when the device
is used.
[0060] In its preferred form, the tubular member 19 has a
longitudinally extending slot running from a point adjacent the
needle hub 2. A plug or other suitable sealing means provides a
seal for the end. An elongated flexible spring wire guide is housed
within tubular member 19. A wheel is provided that directly acts on
the spring wire guide to advance the spring wire guide. This can be
done, for instance, by a drum or shaft that is attached to the
wheel. The outer surface of the drum can press the guide wire
between a fixed surface on the housing to physically move the guide
wire forward by friction. The drum can have a surface that grabs
the guide wire.
[0061] A laterally or radially extending handle 7 is fastened to
its rear end handle projects through the slot and is adapted to
advance the spring wire guide through the lumen through needle and
outwardly from the distal end into and through the lumen of the
blood vessel. For facilitating this insertion with the use of one
hand the index finger pushes one of the finger tabs on either side
of the cannula 4. Once in place the cannula 4 can be secured with
the securing tabs. The securing tabs can be secured to the skin,
either with an adhesive tape or sutured into place through the
holes in these labs.
[0062] The tabs 210 are best shown in FIG. 11A. The needle 202 is
connected to a hub 206 having a rounded front end. Handles or tabs
212 are connected to the catheter, and handles or tabs 210 are
connected to the huh 206. The catheter handles 212 and the hub
handles 210 are elongated and rectangular, and extend outward
substantially transverse to the catheter 300 and hub 206,
respectively. The user can grab the tabs 202 to push the catheter
300 forward. And the user can grab the tabs 210 to push the hub 206
forward. Thus, the hub 206 has elongated slots to receive the hub
handles 210. The catheter handles 212 and the hub handles 210 are
easier for the user to grab and operate.
[0063] As further shown in FIG. 11A, a flash chamber 214 can be
provided behind the hub 206. The flash chamber 214 allows the user
to see blood and fluid. Once the vessel is pierced by the needle
202, blood enters the flash chamber 214. The flash chamber 214 is
transparent, so that the user can visually confirm that the vessel
has been pierced but to keep the blood from getting on the
practitioner, patient or device. The chamber 214 has a tab 216 that
can connect to a safety cap. In the present embodiment, the needle
202 is connected to the flash chamber 214, but the flash chamber
214 is not connected with the huh 206. The catheter 300 is
connected to the hub 206.
[0064] Turning to FIG. 10B, an alternative embodiment of the wheel
assembly of FIGS. 1-9 is shown. Here, the wheel assembly 230 has
two wheels 232 separated from each other by a slight gap 233. The
wheels 232 have an outer circumferential edge that can have
transverse ridges, a roughened surface or an easy to grip surface
(such as rubber), to make it easy for the user to operate the
wheels 232. A circular drum 234 is affixed to or integral with the
side of one of the wheels 232. The drum 234 has an outer
circumferential edge with large transverse ridges or teeth 236
positioned thereabout. A locking structure 238 is coupled to the
housing 100 of the introducer 10 and aligned with the drum 234. The
locking structure 238 has a top inner surface that is aligned with
the drum 234, and can optionally include at least one mating tooth
that engages the drum teeth 236. The drum teeth 236 are configured
so that the wheel 232 can advance the guide wire 14 into the
patient, but that the wheel 232 cannot be reversed. The inner
surface of the locking structure 238 can also rub against the
surface of the teeth 236 so that the wheel 232 does not move
without being operated on by the user. A pin 240 extends through
the center of the wheels 232 and drum 234 to permit the wheels 232
and pin 240 to rotate with respect to the housing 100. The drive
wire 12 extends into the gap 233 between the wheels 232 and the end
of the drive wire 12 is wrapped about the pin 240. Thus, as the
user operates the wheels 232, the drive wire 12 wraps around the
pin 240 and advances the guide wire 14 into the patient. The pin
240 can optionally have a widened portion at the gap 233 to receive
the drive wire 12. Or, the two wheels 232 can be connected together
as a single wheel that has a channel which receives the drive wire
12, and the pin 240 need not move. It will be apparent that other
suitable configurations can be provided within the spirit and scope
of the invention.
[0065] Usually the wire guide 12 only needs to be fed forward, so
the default state of the wire guide feed wheel assembly prevents
backward feeding. To prevent backward feeding, the tab 152 (FIG. 2)
or gear box 238 (FIG. 10B) unidirectional block movement of the
drum teeth 236. In order to allow backward feeding of the wire
guide, a user can unscrew the bolt 164 (FIG. 2) or push down on the
wheels 232 (FIG. 10B) and rotate the wheels 232 in the direction
opposite of that for forward feeding. Pushing down on the wheels
232 moves the drum 234 away from the gear box 238, enabling
backward rotation. A spring 23 can maintain the drum teeth 236 in
contact with the gear box teeth in the default setting.
[0066] The entire introducer 10 can be made of a plastic medical
grade polymers and UV cure adhesives), except that the tab 152,
bolt 164, nut 162, drive wire 12 and guide wire 14 are preferably
made of metal (such as stainless steel, 300 series). The entire
introducer can be sterilized and packaged in a sterilized
container, such as being heat sealed in a plastic bag. A typical
material for the catheter is Tecollex EG-80A polyurethane.
Component materials are usually a polycarbonate like Lexan HP4 or
an ABS like Cycolac HMG47MD.
[0067] In a non-limiting illustrative embodiment of the invention,
the coupling element 114 is about lcm long with a diameter of about
4 mm. The introducer 10 is about 6.2 cm long (including the
coupling element 114), and has a width of about 3.8 mm. The wheel
132 has a diameter of about 1.4 cm. The drive wire 12 has a length
of about 20-29 cm, and the guide wire 14 has a length of about
18-27 cm so that the guide wire 14 can be advanced through the
longest needle that is used. The coupling 114 can be sized to fit
any needle, and the guide wire 14 can be sized to any size needle.
Common site needles are 16-18 gauge, but larger gauges such as
14-15 would be suitable, and still larger or smaller needles may be
suitable as well.
[0068] The Ultrasound-Guided IV Catheter has a number of features
that make placement of the catheter in deep peripheral vessels
easier. First, it has an inked cap that permits the user to mark
the location and direction of the vessel as visualized by the
ultrasound machine. This gives directional guidance to the catheter
along the vessel for insertion. The cap can mark the skin for
directional guidance. When placing an ultrasound guided IV catheter
the medical professional placing that catheter can get lost as to
the direction of the needle in relationship to the vessel. The
Ultrasound gives a two dimensional image which does not show
direction. The cap on the ultrasound guided IV marks the surface of
the skin so the direction of the vessel can be marked on the skin.
For instance, the marking can have an ink spot or directional arrow
indention into the skin, allowing the catheter to be aligned to the
vessel. The medical professional can then align the needle/catheter
which the markings and not miss the vessel.
[0069] Second, the catheter has a slender guide-wire that can
easily thread smaller, deeper vessels. The guide-wire can easily
thread deep vessels and advance the catheter without catching on
the vessel walls. The ultrasound is used to find deeper vessels
which cannot be visualized by the human eye. These deep vessels are
difficult to thread with the soft large plastic catheters. The
catheter can catch on the sides of the vessel and thus not slide
easily into the lumen of the vessel. The Ultrasound guided IV
catheter uses a thin guide wire to thread deep vessels. The
guide-wire is placed within the lumen of the vessel first and then
the catheter is threaded over the catheter, preventing the catheter
from getting caught on the sides of the vessel wall.
[0070] The guide-wire and catheter can be advanced and placed with
only one hand so that as one holds the catheter with one hand the
other hand holds the ultrasound and visualizes correct entry into
the vessel. The drive wheel advances the guide wire 14, and the
catheter tabs or huh advance catheter over the guide-wire. The
other hand is free to manipulate the ultrasound. When moving the
guide-wire into the vessel a traditional catheter needs two hands
for guide-wire placement: one hand placing the catheter and the
other hand advancing the guide wire. The Ultrasound guided IV
catheter advances the guide-wire and catheter with the same hand.
This gives a unique advantage to ultrasound guidance because one
person can use his spare hand to hold the ultrasound to visualize
the guide-wire and catheter being advance ensuring placement in the
vessel lumen.
[0071] The present introducer avoids potential complications with
exposure to blood and fluid, and provides a tactile resistance. The
drive wire also provides a spring-like behavior when wound about
the wheel assembly to provide greater control of the advancement
and retraction of the drive wire. However, it will be apparent that
other configurations of the introducer may be possible within the
spirit and scope of the invention. For instance, the drive wire can
be eliminated and the guide wire directly connected to the wheel
assembly to push the guide wire.
The Visible Catheter 300 (FIGS. 11-12)
[0072] Another object of the invention is to provide a catheter,
both central and peripheral, that can be visualized by ultrasound,
to enable correct placement to be determined and recorded by
ultrasound visualization. Catheters, both central and peripheral,
which are easily visualized by ultrasound, enable correct placement
to be determined and recorded by ultrasound visualization.
[0073] It is noted that current catheter materials cannot be
detected by ultrasound. In the present embodiment of the invention,
the catheter 300 is constructed of materials that can be easily
visualized under ultrasound. For instance metals, ceramics, or
compounds (like barium sulfate or titanium), can be integrated
within the stricture of the catheter material allowing for direct
visualization of catheter placement with the ultrasound. As an
example, one could confirm by ultrasound that a catheter intended
to be placed in a vein is in fact located in a vein and not in an
artery or outside any blood vessel.
[0074] Ultrasound properties are material dependent. The sound
velocities and impedance values of typical catheter materials such
as plastics, urethanes or rubbers are very low (0.959-2.06 km/s and
1.41-2.00 MRayl) compared to metals such as, aluminum, copper and
Titanium (5.01-6.3 km/s and 17.0-44.6 Mrayl). The properties for
low density polyethylene and Titanium are compared in FIG. 12. This
demonstrates that as the density of a material changes, so do it's
acoustic properties. Materials of different densities will appear
as distinct and different in an ultrasound image.
[0075] In yet another embodiment of the invention, the outer
surface 304 of the catheter is coated with metallic material such
as Titanium, the catheter. This makes the catheter 300 detectable
by ultrasound, because the high impedance surface will reflect some
of the sound. A specific length of the catheter to be detected by
ultrasound is coated with a metallic coating, such as by using
sputtering. Thus, only a portion (the front end) of the catheter
300 can be coated or made of UV visible materials. Sputtering is a
Physical Vapor Deposition vacuum process used to deposit very thin
films onto a substrate for a wide variety of commercial and
scientific purposes. Sputtering occurs when an ionized gas molecule
is used to displace atoms of a specific material. These atoms then
bond at the atomic level to a substrate and create a thin film.
Several types of sputtering can be used, including: ion beam,
diode, and magnetron sputtering. Sputtering units are available
commercially and not only they can help in coating a variety of
metallic materials, but the thickness of the coating can also be
measured during the sputtering process. The coating thickness is
typically in Angstroms. Preferably, Titanium is used best mode,
because of its biocompatibility and excellent corrosion resistance
to a broad range of possible corroding media that may be
encountered in the field of medicine.
[0076] It is noted that the catheter 300 and the introducer 10
(FIGS. 1-10) of the invention have separate utility and need not be
utilized together. For instance, the catheter 300 can be utilized
with any catheter introduction set, and not only the introducer 10
of the present invention. In addition, the introducer 10 can be
used to place any conventional catheter, and need not be utilized
with the catheter 300 of the present invention. Not withstanding
those separate uses, the catheter 300 and introducer 10 of the
invention have certain advantages when utilized together (FIGS.
1-10). Because the catheter 300 is visible to UV detection and the
introducer 10 allows the user to perform IV insertion with a single
hand, the user can perform UV detection at the same time he/she is
inserting an IV into the patient. Thus, the user can confirm proper
placement of the needle 202, as well as the catheter 300, during
and immediately after insertion. The user can perform the catheter
300 placement with a single hand using the introducer 10, and with
the other hand can track placement of the needle 202 and the
catheter 300 in the patient.
Probe Cover 400
[0077] Another embodiment of the invention is shown in FIGS. 13-15.
A sterile cover set 400 is provided that can be placed over the
transducer end of a piece of medical equipment, such as an
ultrasound probe 402. The sterile probe cover set 400 includes a
sterile probe cover 404 and a container 410. The cover 404 is open
at the top (i.e., no lid or cover) and can be made of rubber or
latex for instance, can have the general shape of the probe 402 and
is sized to fit snugly over the probe 402. In the embodiment shown,
the cover 404 is shaped like a hag, with a bottom and sides and can
optionally match the shape of the probe end 401. The container 410
can have a similar shape as the cover 404 and is slightly wider
than the cover 404. The container 410 is shorter than the cover 404
so that the tops 406 of the sides extend beyond the top of the
sides of the container 410. In the current embodiment, the
container 410 can be a circular piece, with a bottom and sides, or
can be a tube with no bottom, or can have a rectangular shape. The
container 410 can optionally match the shape of the probe end 401.
The container 410 can be made of cardboard or from hard plastic or
other material which can maintain its shape and the shape of the
rubber sterile probe cover 404. The container 410 is wider than the
probe and the cover 404, so that the cover 404 is stretched and can
be easily fit over the end 401 of the probe 402.
[0078] The cover 404 is pre-assembled to be inside the container
410, and the top sides 406 of the cover 404 are stretched and
folded down over the top sides of the container 410. The container
410 and cover 404 are packaged in a sealed plastic bag, and the
entire packaging is sterilized.
[0079] When the probe 402 is ready to be used, the user opens the
sealed plastic bag and removes the container 410 with the cover 404
positioned inside of the container 410. The user should preferably
hold the assembly by the container 410. However, only the inside of
the cover 404 is exposed (since the cover is turned inside-out at
the top sides 406), so the user can touch the cover 404 without
contaminating the outside of the cover 404.
[0080] As shown in FIG. 13, the user then pushes the container 410
and cover 404 over the end of the probe 402, so that the sterile
probe cover 404 is wrapped around the probe 402. Optionally,
ultrasound gel can be placed on the surface of the sterile probe
cover prior to placing it on the ultrasound probe. Referring to
FIG. 14, the cover 404 and container 410 are positioned over the
probe 402. The top sides 406 of the cover 404 are then folded up,
off of the container 410 and onto the probe 410. Because the top
sides 406 were stretched to fit over the container 410, the top
sides 406 will retract inward and form a snug fit on the probe end
401. At this point, the cover 404 is on the probe 402. Referring to
FIG. 15, the container 410 is then removed from the probe 402,
leaving the sterile probe cover 404 on the probe transducer end
402. During the process, the sterile probe cover remains sterile,
because the operator only touches the container 410. The sterile
probe cover 404 is never touched by the operator.
[0081] It should be appreciated that the assembly 400 can be
preassembled so that the top portion 406 is folded downward over
the top of the container 410. The cover 404 may need to be
stretched in order to do so, and so that the cover 404 fits the
probe. In accordance with one embodiment of the invention, the
probe cover is less than 3 inches deep, 4 inches in width and 4
inches in height. It will be appreciated that while a snug fitting
cover 404 is provided in the current embodiment, a longer and
looser fitting cover 404 can be provided that is secured to the
probe 402 by rubber bands or the like.
The Ultrasound Introducer Kit
[0082] One object of the invention is to provide a catheter
introduction set that is particularly well suited for use with a
single hand. The catheter introduction set includes a proximal end
and a distal end, with the proximal end able to couple with a
needle. The introducer device can either come packaged and mated
with a catheter and introducer needle, or be mated by the user with
another prepackaged needle. To enable single-handed use, the means
to control the guide-wire is located within the proximal two-thirds
of the catheter introduction set. An additional inventive step
enabling single-handed use is the introduction of cannula
progression means that are located within the proximal two-thirds
of the catheter introduction set.
[0083] Turning to FIGS. 16-18, another embodiment of the invention
is shown. Here, an introducer kit 500 is provided. The kit 500
includes a case or box 501 having a base 502 and a lid or top 504.
The box 501 is rectangular in shape and the top 504 is larger than
the base 502 so that it is easy to remove the top 504. As best
shown in FIG. 17, the box also has a bottom 506. A pad 508 is
provided at the exterior surface of the bottom 506. The pad 508 can
be at a portion of the bottom 506 or extend the entire width and
height of the bottom 506. Referring to FIG. 18, the patient can
rest his/her arm on the pad 508 during IV placement or other
medical procedure. The pad 508 stabilizes a body part that is to be
catheterized. In the embodiment shown, the pad 508 of the kit case
500 stabilizes the patient's arm at the elbow to assist in
catheterization of the anti-cubital veins. In an alternative
embodiment of the invention, the bottom 506 can have a concave
shape instead of a pad 508.
[0084] The box 501 has an interior space that is used to retain
medical equipment that is useful for a medical practitioner to
perform a medical process, in particular an ultrasound assisted
vessel cannulation. Thus, the kit 500 includes all the single-use
components necessary for ultrasound assisted vessel cannulation,
including: catheter introducer 10 (FIGS. 1-10); catheter tubing 300
(FIG. 11); probe cover set 400 (FIGS. 13-15); lidocaine solution;
sterilizing solution and applicator; suture material; suturing
needle; gauze pads; scalpel; drape with adhesive; towel; sterile US
gel packet; two rubber bands; directional marker; normal saline
flush; and tourniquet. It will be appreciated, however, that the
kit 500 need not include every single element listed here, and
still be within the spirit and scope of the invention. In
particular, the introducer 10, catheter tubing 300, and probe cover
set 400 of the invention need not be provided with the kit 500, and
any conventional introducer, catheter tubing and probe cover can be
provided. The box 501 and its contents can be placed in a
heat-sealed plastic bag and sterilized.
[0085] For use in vessel cannulation, the patient is first placed
in a recumbent position. After the contents are removed from the
sterile package the box 501 is flipped so that the ergonomically
designed bottom faces up and the elbow is placed on this surface to
facilitate stabilization for cannulation. The kit keeps all
necessary materials located in a single convenience place in a
sterile manner. The box 501 provides arm stabilization for sale and
successful cannulation.
[0086] The foregoing description and drawings should be considered
as illustrative only of the principles of the invention. The
invention may be configured in a variety of shapes and sizes and is
not intended to be limited by the preferred embodiment. Numerous
applications of the invention will readily occur to those skilled
in the art. Therefore, it is not desired to limit the invention to
the specific examples disclosed or the exact construction and
operation shown and described. Rather, all suitable modifications
and equivalents may be resorted to, falling within the scope of the
invention.
* * * * *
References