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What is claimed and desired to be secured by the United States Letters
Patent is:
1. A method of integrally adding a hub at the trailing end of an indwelling
hollow pliant catheter tube comprising the steps of:
providing, at a point in time after the proximal end of a catheter tube has
become indwelling within a patient so that the distal end of catheter tube
is exposed outside the patient, a separate structure for insitu formation
of a hub on the distal end of catheter tube;
causing the separate structure to include a short rigid essentially non
compressible hollow shaft, with a trailing hollow hub attached thereto,
concentrically telescopically superimposed over a trailing portion of an
elongated flexible anti-buckling hub stylet, the stylet having a length
substantially greater than the length of the hollow shaft and an outside
diameter less than the inside diameter of the catheter tube, and the
hollow shaft having an outside diameter slightly greater than the inside
diameter of the catheter tube;
advancing the elongated flexible stylet into the hollow interior of the
exposed end of the indwelling pliant catheter tube in essentially
concentric fashion, the stylet (a) preventing the catheter tube from
collapsing and buckling due to applied external forces, (b) causing an
initial substantial concentricity between the stylet and the catheter
tube, and (c) bringing the leading edge of the hollow shaft into
essentially aligned, contiguously abutting relationship with the exposed
distal end edge of the indwelling catheter tube;
advancing the stylet further into the indwelling catheter tube and
simultaneously forcibly alignedly advancing the hollow shaft into the
exposed end and along the interior of the catheter tube without material
trauma to the patient thereby dilating the distal end of the indwelling
catheter tube counter to the forces comprising the memory of the material
from which the catheter tube is made, while preventing the collapsing and
buckling of the catheter tube and retaining said substantial concentricity
and essential alignment notwithstanding the axial advancement force and
the radial enlargement force imposed upon the distal end of indwelling
catheter tube;
terminating said simultaneous advancement when substantially the full
length of the hollow shaft has been force fit within the dilated exposed
distal end of the catheter tube;
retaining the hub in the installed position by reason of the compressive
memory force of the dilated distal end of the catheter tube upon the short
rigid shaft;
removing the stylet from the hollow shaft and the hub.
2. A method according to claim 1, wherein the anti-buckling stylet is
formed of resilient synthetic resinous material with memory.
3. A method according to claim 1, wherein the catheter tube is formed of
silicone rubber material.
4. A method according to claim 1 wherein the shaft is formed of medical
grade steel and the hub is formed of rigid synthetic resinous material.
5. A separate hub assembly for placing a hub thereof insitu at the exposed
distal end of an indwelling axially unstable catheter tube of synthetic
resinous material after insertion of the proximal end of the catheter tube
into a patient without material trauma to the patient comprising:
an elongated thin resilient flexible essentially straight catheter tube
stabilizing hub stylet for manual introduction into the exposed distal end
of the indwelling catheter tube having an outside diameter less than the
inside diameter of the distal end of the catheter tube;
a rigid hollow hub shaft concentrically and coaxially surrounding a
trailing portion of the stylet for mannual introduction, without use of a
tool, into and expansion of the exposed end of the indwelling catheter
tube after introduction of the stylet, the hub shaft having an axial
length substantially less than the axial length of hub stylet and having
an outside diameter greater than the inside diameter of a catheter tube;
a hollow hub integrally connected to the trailing end of the hub shaft to
accommodate fluid flow along the hollow interior of the hub shaft and
along the catheter tube after forcible insertion of the hub shaft into the
distal end of the catheter tube;
a stylet hub integrally connected to the trailing end of the stylet and
disposed adjacent but beyond the trailing end of the hub shaft hub by
which the stylet is withdrawn from the hub shaft;
whereby the stylet stabilizes the exposed distal end of the catheter tube
against collapse and buckling as the hub shaft is manually axially force
fit without use of a tool into the exposed distal end of the catheter tube
to expand the diameter thereof counter to the memory of the catheter tube
material after which the hub shaft is firmly retained within the exposed
distal end of the catheter tube by reason of compressive force of said
memory and the stylet is withdrawn from the hub shaft and the hub shaft
hub through the hollow of the hub shaft by manual manipulation of the
stylet hub.
6. A method of extending the length of the exposed end of an indwelling
intravenous catheter tube, and providing a hub at the end of the extended
catheter tube, comprising the steps of:
providing an elongated straight resilient stylet having a substantial
length and an outside diameter less than the inside diameter of an
existing indwelling catheter tube, the stylet having a stylet hub at the
trailing end thereof;
providing a hollow catheter tube extension, having inside and outside
diameters substantially identical with the inside and outside diameters of
the exposed end of the indwelling catheter tube, respectively, the
catheter tube extension being superimposed over the length of the stylet,
exclusive of a substantial portion of the leading end of the stylet, the
catheter tube extension having a hub immediately forward of the stylet
hub;
providing a stiff splice tube, some of the length thereof being
telescopically disposed within the leading end of the catheter tube
extension and the remaining length thereof projecting forward of the
leading end of the catheter tube extension to a location an appreciable
distance behind the forward end of the stylet, the outside diameter of the
splice tube being slightly greater than the inside diameter of the
catheter tube;
inserting the forward end of the stylet into the exposed end of the
indwelling catheter tube until the transverse edge of the exposed end of
the indwelling catheter tube and the forward edge of the splice tube
substantially abutt;
concurrently advancing the stylet further into the indwelling catheter tube
and the leading end of the stiff splice tube forcibly into the trailing
end of and along the interior of the indwelling catheter tube thereby
dilating the circumscribing catheter tube while retaining a substantial
concentricity between the stylet and the splice tube on the one hand and
the exposed end of the indwelling catheter tube on the other hand;
terminating the concentrically advancing step when the trailing edge of the
indwelling catheter tube extension and the catheter tube are generally in
abutting aligned relationship;
removing the stylet and the stylet hub from association with the catheter
tube extension, the exposed end of the indwelling catheter tube and the
hub at the end of the indwelling catheter tube extension.
7. A method according to claim 6 further comprising the step of placing an
external splice tube having an inside diameter on the order of the same
diameter as the outside diameter of the catheter tube and the catheter
tube extension so as to span the abutting interface between the catheter
extension and the catheter tube coaxially and coextensively with said
splice tube and securing said external splice sleeve in said position.
8. An assembly for extending the length of the exposed end of an indwelling
intravenous catheter tube, and providing a hub at the end of the extended
catheter tube, the assembly comprising:
an elongated straight resilient stylet having a substantial length and an
outside diameter less than the inside diameter of an existing indwelling
catheter tube;
a stylet hub located at the trailing end thereof;
a hollow catheter tube extension, having inside and outside diameters
substantially identical with the inside and outside diameters of the
exposed end of the indwelling catheter tube, respectively, the catheter
tube extension being superimposed over the length of the stylet exclusive
of a substantial portion of the leading end of the stylet;
a hollow hub attached to the trailing end of the catheter tube extension
and disposed immediately forward of the stylet hub;
a stiff splice tube, some of the length thereof being telescopically
disposed within the leading end of the catheter tube extension and
remaining length thereof projecting forward of the leading end of the
catheter tube extension to a location an appreciable distance behind the
forward end of the stylet, the outside diameter of the splice tube being
slightly greater than the inside diameter of the catheter tube;
thereby accommodating insertion of the forward end of the stylet into the
exposed end of the indwelling catheter tube until the transverse edge of
the exposed end of the indwelling catheter tube and the forward edge of
the splice tube substantially abutt and thereafter accommodating
concurrent advancement of the stylet further into the indwelling catheter
tube and the leading end of the stiff splice tube forcibly into the
trailing end of an along the interior of the indwelling catheter tube
thereby dilating the circumscribing catheter tube while a substantial
concentricity is retained between the stylet and the splice tube on the
one hand and the indwelling catheter tube on the other hand until the
trailing edges of the indwelling catheter tube extension and the catheter
tube are generally in abutting aligned relationship allowing removal of
the stylet and the stylet hub from association with the catheter tube
extension, the exposed end of the indwelling catheter tube and the hub at
the end of the indwelling catheter tube extension and use of the catheter
tube and catheter tube extension for fluid flow.
9. A method for extending the length of the exposed end of an indwelling
intravenous catheter tube, comprising the steps of:
providing an elongated straight resilient stylet having a substantial
length and an outside diameter less than the inside diameter of an
existing indwelling catheter tube;
providing a hollow catheter tube extension, having inside and outside
diameters substantially identical with the inside and outside diameters of
the exposed end of the indwelling catheter tube, respectively, the
catheter tube extension being superimposed over the length of the stylet
exclusive of a substantial portion of the leading end of the stylet;
providing an internal stiff splice tube, some of the length thereof being
telescopically disposed within the leading end of the catheter tube
extension and the remaining length thereof projecting forward of the
leading end of the catheter tube extension to a location an appreciable
distance behind the forward end of the stylet, the outside diameter of the
splice tube being slightly greater than the inside diameter of the
catheter tube;
inserting the forward end of the stylet into the exposed end of the
indwelling catheter tube until the transverse edge of the exposed end of
the indwelling catheter tube and the forward edge of the splice tube
substantially abutt;
concurrently advancing the stylet further into the indwelling catheter tube
and the leading end of the stiff splice tube forcibly into the trailing
end of and along the interior of the indwelling catheter tube thereby
progressively dilating the circumscribing catheter tube while retaining a
substantial concentricity between the stylet and the splice tube on the
one hand and the exposed end of the indwelling catheter tube on the other
hand;
terminating the concentrically advancing step when the trailedges of the
indwelling catheter tube extension and the catheter tube are generally in
abutting aligned relationship.
10. A method according to claim 9 further comprising the step of placing an
external splice tube having an inside diameter on the order of the same
diameter as the outside diameter of the catheter tube and the catheter
tube extension so as to exteriorly span the abutting interface between the
catheter extension and the catheter tube substantially coaxially and
coextensively with said splice tube and securing said external splice
sleeve in said position.
11. A method according to claim 9 further comprising the step of cutting a
hub to be discarded from the exposed end of the catheter tube prior to the
inserting step.
12. A method of integrally adding a hub at the trailing end of an
indwelling hollow pliant catheter tube comprising the steps of:
causing a short hollow hub assembly shaft, with a trailing hollow hub
attached thereto, to be concentrically telescopically superimposed over a
trailing portion of an elongated flexible antibuckling hub assembly
stylet, the stylet having a length substantially greater than the length
of the hollow hub assembly shaft and an outside diameter less than the
inside diameter of the catheter tube;
advancing the elongated flexible stylet into the hollow interior of the
exposed end of the indwelling pliant catheter tube in essentially
concentric fashion, the stylet preventing the catheter tube from
collapsing and buckling due to applied external forces, causing an initial
substantial concentricity between the stylet and the catheter tube, and
bringing the leading edge of the hollow hub shaft into the same proximity
as the exposed end edge of the indwelling catheter tube;
advancing the stylet further into the catheter tube and simultaneously
advancing the hollow shaft into the exposed end and along the interior of
the catheter tube with no more than a small amount of dilation while
preventing the collapsing and buckling of the catheter tube and retaining
said substantial concentricity and essential aligment;
terminating said simultaneous advancement when substantially the full
length of the hollow hub shaft is disposed within the exposed end of the
catheter tube;
applying continuous external radial pressure to the superimposed exposed
end of the catheter tube and the hub assembly shaft;
removing the stylet from the hollow hub shaft and the hub.
13. A method according to claim 12 wherein the pressure of the applying
step is selectively variable, being applied by a "O" ring the inside
diameter of which is varied by the extent of engagement of male and female
threaded members comprising the hub assembly.
14. A hub assembly for placing a hub thereof at the exposed end of an
indwelling catheter tube after catheter tube insertion comprising;
an elongated thin resilient flexible essentially straight hub assembly
stylet having an outside diameter less than the inside diameter of the
catheter tube;
a rigid hub assembly shaft concentrically and coaxially surrounding a
trailing portion of the stylet, the hub assembly shaft having an axial
length substantially less than the axial length of hub assembly stylet;
a hollow hub integrally connected to the trailing end of the hub assembly
shaft adapted to accommodate fluid flow along the hollow interior of the
hub assembly shaft and along the catheter tube;
another hub integrally connected to the trailing end of the stylet and
disposed adjacent but behind the trailing end of the hollow hub;
whereby the stylet stabilizes the trailing end of the catheter tube against
collapse and buckling as the hub assembly shaft is displaced into the
exposed end of the catheter tube after which the stylet may be withdrawn
from the hub shaft and the hollow hub by manual manipulation of the other
hub;
the hub assembly further comprising means by which external force is
releasibly and adjustably applied to at least part of the exposed end of
the catheter tube in which the hub assembly shaft coextends.
15. A hub assembly for placing a hub thereof at the exposed end of an
indwelling catheter tube after catheter tube insertion comprising:
an elongated thin resilient flexible essentially straight hub assembly
sytlet having an outside diameter less than the inside diameter of the
catheter tube;
a rigid hub assembly shaft concentrically and coaxially surrounding a
trailing portion of the stylet, the hub assembly shaft having an axial
length substantially less than the axial length of hub assembly stylet;
a hollow hub integrally connected to the trailing end of the hub assembly
shaft adapted to accommodate fluid flow along the hollow interior of the
hub assembly shaft and along the catheter tube;
another hub integrally connected to the trailing end of the stylet and
disposed adjacent but behind the trailing end of the hollow hub;
whereby the stylet stabilized the trailing end of the catheter tube against
collapse and buckling as the hub assembly shaft is displaced into the
exposed end of the catheter tube after which the stylet may be withdrawn
from the hub shaft and the hollow hub by manual manipulation of the other
hub;
the hub assembly further comrpising means by which external force is
applied to at least part of the exposed end of the catheter tube in which
the hub assembly shaft coextends the last mentioned means comprising an
"O"-ring and the pressure applied by the "O"-ring to the end of the
catheter tube, in which the hub assembly shaft is disposed, is variable
depending on the extent of engagement of male and female threaded members
comprising the hub assembly. |
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Claims |
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Description |
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FIELD OF INVENTION
The present invention relates generally to catheters and more particularly
to hub assemblies and extensions for indwelling medical catheter tubes,
and related methods.
PRIOR ART
No medically satisfactory apparatus or procedure has been produced
heretofore for reliably extending the exposed length of an indwelling
intravenous catheter tube.
Prior proposals for uniting a hub to the trailing end of an indwelling
intravenous catheter tube have been basically unsatisfactory due to
problems caused by misalignment, and/or the collapse and/or buckling of
the catheter tube end and/or later separate between the hub and the
catheter tube. Patient trauma has often been substantial since any problem
associated with the indwelling catheter tube tends to be communicated
directly to the patient. Hub placement on indwelling silicone rubber or
other ultra pliant catheter tubes has been especially troublesome.
BRIEF SUMMARY AND OBJECTS OF THE INVENTION
In brief summary, the present invention overcomes or substantially
alleviates the problems of the prior art by providing novel apparatus and
unique methods by which (a) the exposed length of an indwelling
intravenous catheter tube is permanently extended, and/or (b) a hub is
facilely and permanently connected to the exposed trailing end of an
indwelling intravenous catheter tube or an extension thereof.
With the foregoing in mind, it is a primary object of the present invention
to overcome or substantially alleviate the above mentioned problems of the
prior art.
It is a further dominant object to provide novel apparatus and unique
methods by which the exposed length of an indwelling intravenous catheter
tube is permanently extended.
It is another object of importance to provide novel apparatus and unique
methods by which a damaged exposed end of an indwelling catheter can be
effectively repaired with little or no trauma to the patient.
An additional object of substantial magnitude is the provision of novel
apparatus and unique methods by which a hub is facilely and permanently
connected to the exposed trailing end of an indwelling intravenous
catheter tube or an extension thereof.
These and other objects and features of the present invention will be
apparent from the detailed description with reference to the accompanying
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective representation of one presently preferred hub
assembly in accordance with the present invention for placement at the
trailing end of an indwelling catheter tube;
FIG. 2 is an exploded perspective representation of the catheter hub
assembly of FIG. 1;
FIG. 3 is a longitudinal cross-section of the hub catheter embodiment of
FIG. 1 taken along lines 3--3 of FIG. 1;
FIG. 4 is a side elevation of the hub assembly of FIG. 1, shown partly in
cross-section and illustrating the initial step of insertion into an
indwelling catheter tube;
FIG. 5 is an enlarged side elevational view, shown partly in cross-section,
illustrating the slightly undersized nature of the stylet, thereof and the
slightly oversized nature of the hub hollow shaft thereby in comparison
with the exposed end of the indwelling catheter tube;
FIG. 6 is a side elevational view similar to FIG. 5, except the manner in
which the exposed end of the indwelling plastic catheter is enlarged or
dilated as the hollow shaft of the hub assembly is forcibly introduced,
therein is shown;
FIG. 7 is similar to FIG. 6 showing the hollow shaft of the hub assembly
fully inserted, with the stylet and stylet hub remaining as part of the
hub assembly;
FIG. 8 is similar to FIG. 7, showing the hollow shaft of the hub assembly
fully inserted with the hub thereof exposed beyond the end of the plastic
catheter and the stylet and the stylet hub removed;
FIG. 9 is a perspective representation of a presently preferred hub repair
kit assembly for replacing the hub of a damaged exposed end of an
indwelling intravenous catheter tube, for extending the length of an
indwelling catheter tube and providing a new hub at the end of the
extension;
FIG. 10 is a side elevational view, shown partly in crosssection,
indicating the manner in which the hub repair assembly of FIG. 9 is
connected with the indwelling plastic intravenous catheter after removal
of the existing damaged hub;
FIG. 11 is a side elevational view, shown partly in crosssection, similar
to FIG. 10, illustrating the catheter tube extension and replacement hub
fully installed;
FIG. 12 is an additional presently preferred catheter hub assembly for
placement at the exposed end of an indwelling catheter tube in accordance
with the present invention, illustrated in perspective;
FIG. 13 is an exploded perspective of the hub assembly of FIG. 12;
FIG. 14 is a cross-section taken along lines 14--14 of FIG. 12; and
FIG. 15 is an enlarged fragmentary cross-section similar to FIG. 14 showing
the stylet and stylet hub removed and the remainder of the hub assembly
installed upon the trailing end of indwelling catheter tube.
DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS
Reference is now made to the drawings, which illustrate three presently
preferred embodiments in accordance with the present invention and wherein
like numerals are used to designate like parts throughout.
Specific reference in detail is made at this time to FIGS. 1-8 which
illustrate a hub assembly, generally designated 20, used to add a hub at
the exposed end of an indwelling pliant catheter tube. The hub assembly 20
comprises a straight elongated stylet 22, preferably formed of medical
grade steel or yieldable shape retaining synthetic resinous material such
as polypropylene. The stylet 22 is solid and has a uniform outside
diameter and extends for a substantial length along the longitudinal axis
of the hub assembly 20, when in the assembled condition illustrated in
FIG. 1.
The stylet 22 has a free blunt leading end 24 and a trailing end 26, which
is embedded within and secured by a suitable bonding agent or the like to
the forward reduced size end 28 of the stylet hub, at site 29 (FIG. 3).
The stylet hub is generally designated 30. The stylet hub 30 is
illustrated as having a main body 32 and a trailing flange 34, although
other configurations could be used. The stylet hub 30 is preferably formed
of a suitable synthetic resinous material, such as polyethylene. Thus, the
stylet and stylet hub form one integral part of the hub assembly 20.
The hub assembly 20 further comprises a short hollow shaft 40 of surgical
grade steel having a relatively short length and uniform inside and
outside diameters. The inside diameter is slightly greater than the
outside diameter of the stylet 22 and the outside diameter slightly
greater than the inside diameter of the catheter tube with which the short
hollow shaft 40 is to be associated, as hereinafter more fully explained.
The short hollow shaft 40 has a forward end 42 and a trailing end 44 which
is anchored to a leading end 46 of a trailing hollow hub 48. Hollow hub 48
comprises a trailing flange 50, preferably with luer lock fittings to
accommodate intravenous connection to parenteral fluids, hypodermic
syringes and the like.
The interior of the hollow hub 48 is tapered along wall 52 (FIG. 3) so as
to match and snugly receive the tapered leading portion 28 of the stylet
hub 30. The hollow hub 48 is preferably formed of a suitable synthetic
resinous material such as polyethylene. The connection site at 47 (FIG. 3)
between the trailing end of the short hollow shaft 40 and the hollow hub
48 preferably utilizes a suitable bonding agent, such as epoxy glue, to
secure the union.
It should be apparent from inspection of FIGS. 1-3 that in the assembled
position, the leading portion 28 of the hub 30 seats snugly within the
hollow interior 52 of the hollow hub 48, while the stylet 22 extends
through and substantially forward of the hollow short shaft 40. The hollow
short shaft 40 and the stylet 22 are coaxially disposed in respect to each
other as well as the longitudinal axis of the catheter assembly 20.
For the purpose of preserving sterility and preventing contamination, a
hollow sheath 60 is provided, in the form of a tube formed of suitable
synthetic resinous material, such as vinyl. Tubular sheath 60 is of
uniform inside and outside diameter and has a length slightly greater than
the length of the stylet 22. The inside diameter of tube 60 is selected so
as to accommodate a press fit relation of low magnitude between the
trailing end of the tube 60 and the leading portion 46 of the hollow hub
48.
The hub assembly 20 is used to add a hub at the exposed end of an
indwelling pliant catheter tube of synthetic resinous material, silicone
rubber or the like, as best shown in FIGS. 4-8. Initially, assuming the
catheter tube 62 to be indwelling and its trailing end 64 to be exposed,
the protective sheath 60 is removed from the hub assembly 20. Stylet 22 is
manually advanced into the hollow interior (shown as having a uniform
diameter) of the exposed end 64 of the catheter tube 62 until the trailing
edge 66 thereof and the leading edge 42 of the hollow short shaft 40 are
in substantially abutting relationship. This position is illustrated in an
enlarged fashion in FIG. 5, which shows the slight interference caused at
location 70 by reason of the hollow shaft 40 having a diameter slightly
larger than the inside diameter of the exposed end 64 of the catheter tube
62. Thus, as illustrated in FIG. 5, the leading edge 42 of the short
hollow shaft 40 initially abuts the trailing edge 66 of the catheter tube
62.
Next, concurrently or simultaneously the stylet 24 is advanced further into
the hollow interior of exposed end 64 of the catheter tube 62 while the
hollow short shaft 40 is manually forceably inserted into the exposed end
64 of the catheter tube 62, causing the exposed end 64 to dilate or
enlarge as the short shaft 48 is advanced. The stylet or stiffener 22
surprisingly adds enormous stability to the catheter tube 62, causing the
exposed end 64 to retain alignment in respect to the hub assembly 20 and
preventing buckling and/or collapsing of the catheter tube 62 during the
mentioned insertion of the short shaft.
The initial enlargement or expansion of the exposed end 64 caused by
forceable insertion of the hollow short shaft 40 therein is illustrated in
FIG. 6, while FIG. 7 illustrates the short shaft fully inserted within the
hollow interior of the enlarged or dilated exposed end 64 of the catheter
tube. The memory of the material forming catheter tube 62 causes the
exposed end 64 thereof to exert a radial compressive force against the
short shaft 40 thereby holding the short shaft 40 and its associated
hollow hub 48 permanently in the inserted position.
Thereafter, the stylet hub 30 is manually grasped and the stylet 22 and the
hub 30 are withdrawn together, leaving the exposed trailing end 64 of the
catheter tube 62 equipped with its own hub in the form of the short shaft
40 and the integral hollow hub 48 attached thereto. The flange 50 of the
hub 48 may be used to receive a hypodermic syringe, or to connect to
tubing which communicates intravenous fluids to the patient or may receive
a suitably formed plung of a conventional nature, when it is intended that
the catheter tube 62 not be used forthwith, but remain indwelling.
Reference is now made to FIGS. 9-11 which illustrate an assembly, generally
designated 80, by which the length of the trailing end 82 of an
intravenous catheter tube 84 is extended and a new hub provided at the end
of the catheter tube extension. The apparatus 80 and the method associated
therewith are particularly useful in extending the length of and providing
a new hub at the trailing end of indwelling silicone rubber catheter
tubes.
The assembly 80 comprises substantially the same hub assembly as described
earlier in conjunction with FIGS. 1-3, except that stylet of assembly 80
has a substantially greater length. To avoid unnecessary duplicative
descriptive material and to the extent the structure of assembly 80 is
duplicative of the heretofore described hub assembly, identical numerals
have been used in the drawings and no further description thereof will be
made since such is not required for clarity.
Using a procedure of the type heretofore mentioned in conjunction with hub
assembly 20, the hollow short shaft 40 of the hub assembly is placed
within the trailing end 82 of a catheter tube extension 88. The catheter
extension 88 is tubular and hollow having, when unstressed and at rest, a
uniform inside and outside diameter. The length of the tubular extension
88 is selected to accommodate the additional length needed at the exposed
end 86 of the indwelling catheter tube 84.
From the foregoing, it should be readily apparent that the short shaft 40
and the hub 48 are integrally joined to the tubular extension 88 to
accommodate fluid flow of intravenous or parenteral solutions as well as
the administration of drugs, such as those used in chemotherapy, where it
is intended that the catheter 84 be left indwelling for a protracted
period of time. In those situations where the indwelling catheter 84 is
formed of silicone rubber material and, therefore, very compatible with
the human body but lacking in structural integrity, the tubular extension
88 may be formed of the same material.
The tubular extension 88 is shown to be of substantial length and comprises
a leading end 90 having a leading edge 91. An inside splice tube 92 is
also provided. The splice tube 92 is linear, of relatively short length,
has a inside diameter slightly greater than the outside diameter of the
stylet 22 and an outside diameter slightly greater than the inside
diameter of the tubular extension 88 and of the catheter 84.
The assembly 80 is created by sliding the relatively rigid splice tube 92
over the leading end of the stylet 22 and along the stylet 22 (with the
tubular extension 88 disposed over the stylet 22 as illustrated in FIG.
9). About one-half the length of the rigid splice tube 92 is axially force
fit along the stylet 22 into the leading end 90 of the tubular extension
88, causing a force fit union to exist between the leading end 90 and the
splice tube 92, as illustrated in FIG. 9.
An external splice tube 94 is also provided. Splice tube 94 is straight, of
relatively short length slightly greater than the length of splice tube 92
to prevent damage to the dilated ends by the internal splice tube 92, has
an inside diameter slightly greater than the outside diameter of any
portion of the assembly 80 forward of the hubs. Thus, the exterior splice
tube 94 slidably surrounds the tubular extension 88 in the assembled
condition of FIG. 9. example, through protracted use, the exposed end 82
of the indwelling catheter tube 84 has been damaged, e.g. at damage site
100 (FIG. 9) so as to render continued use thereof, in conjunction with
the catheter hub 102 suspect and undesirable. Procedurally, the individual
assigned to use the assembly 80 will initially cut the exposed end 82 of
the catheter tube 84 at the site 104 using a sterile knife or the like.
The cut should be exactly normal to the axis of the catheter tube 84. The
hub 102 with damaged catheter site 100 attached thereto is discarded.
Next, the exposed leading end of the stylet 22 is inserted into the
remainder of the exposed end 82 of the indwelling catheter 84, thereby
properly aligning and stabilizing the end 82 against misalignment,
buckling and/or collapse, bringing the transverse edge of the catheter
tube 82 at site 104 into generally abutting relationship with the leading
end of the interior splice tube 92.
The catheter end 82 is next manually axially displaced over the exposed
remainder of the interior splice tube 92 thereby enlarging or dilating the
catheter tube end 82. This process continues until the cut edge at 104 of
the end 82 catheter tube is in butt relationship with the leading edge 91
of the catheter tube extension. This position is illustrated in FIG. 10,
which shows that the dilated ends 82 and 90, as superimposed over the
interior splice tube 92, have identical inside and outside diameters.
The force fit nature of the dilated ends 82 and 90 will serve to integrally
join the catheter tube 84 to the tubular extension 88. As a further
safeguard to prevent any risk whatever of separation between the catheter
84 and the tubular extension 88, the exterior splice tube 94 may be
superimposed concentrically about the interior splice tube 92 so as to
essentially or substantially cover the dilated ends 82 and 90. The
interface between the exterior surfaces of the dilated ends 82 and 90 may
be treated with a suitable adhesive at site 106 (FIG. 10) so that when the
external splice tube 94 is positioned as illustrated in FIG. 10, an
adhesion is created which retains the tube 94 in the position it was
created.
Thereafter, by grasping the hub 30, the stylet 22 and the hub 30 are
removed and the trailing end of the hollow hub 48 capped or connected to
appropriate source of intravenous solution or the like, as heretofore
explained. The resulting catheter extension with new trailing end hub is
illustrated in FIG. 11.
Reference is now made to FIGS. 13-16, which illustrate a third presently
preferred embodiment in accordance with the present invention, i.e. a hub
assembly, generally designated 120. The hub assembly 120 comprises an
elongated straight solid stylet 122, which has a uniform exterior diameter
throughout and a substantial length. Stylet 122 has a leading blunt tip
124 and a trailing end 126 which is integrally attached to a stylet hub,
generally designated 128, at site 130 (FIG. 15). Appropriate bonding agent
may be used to secure the end 128 of the stylet 122 to the hub 128 at site
130.
The hub 128 has a radially directed flat back wall 132, terminating in a
short radially directed flange 134 and an axially directed annular
cantilevered wall 136, which serve purposes hereinafter more fully
explained. The hub 126 also includes an annular cantilevered wall 138
which has an outside diameter substantially less than the inside diameter
of the wall 136, also for purposes hereinafter more fully explained.
The hub assembly 120 also comprises a short hollow shaft 140, which has a
relatively short length, an inside uniform diameter slightly greater than
the outside uniform diameter of the stylet 122 and an outside diameter
either substantially the same as or slightly smaller than the trailing end
of the catheter tube on which the hub assembly is to be placed, as
hereinafter more fully described. The hollow short shaft 140 has a leading
edge 142 and a trailing end 146 which is anchored, at site 149 (FIG. 15)
to a hollow hub, generally designated 150. A suitable bonding agent is
ordinarily used at site 149 to integrally unite the trailing end 146 of
the hollow shaft 140 to the hollow hub 150. It should be readily apparent
that the overall length of hollow shaft 140 is substantially less than the
overall length of the stylet 122 and that the stylet 122, in the
illustrated configuration, is formed of rigid shape retaining though
yieldable synthetic resinous material, such as polypropylene.
Hub 150 is hollow and comprises a leading end portion 152, which presents
threads 154 along the exterior surface thereof and a smooth hollow central
bore 156 at the interior thereof, the bore 156 having a diameter
substantially the same as the inside diameter of the short shaft 140. The
interior bore 156 merges with a tapered wall 158 to provide an enlarged
bore 160 at the trailing end of the hollow hub 150. The leading portion
152 of the hollow hub 150 merges into a radially directed flange 162 which
in turn merges into a reduced diameter tubular portion 164. The tubular
portion 164 defines the enlarged trailing end opening 160 and merges
integrally with a trailing flange 166, preferably equipped with luer
fittings or the like to accommodate the connection to intravenous tubing,
a hypodermic syringe or the like.
As can be seen from FIG. 15, the annular wall 138 of the hub 128 fits
snugly within the enlarged bore 160, while the wall 136 threads upon the
trailing flange 160 so that the hub 128 prevents contamination of the
interior of the hub assembly 120 during storage and hub installation.
The hub assembly further comprises a generally annular sleeve, generally
designated 170. The sleeve 170 has a forward blunt end 172 disposed
essentially transversed to the longitudinal axis of the assembly 120 and
presents a lending end bore 174 which is slightly greater in its diameter
than the outside diameter of the short shaft 140. The bore 174 is enlarged
at tapered wall section 176, which is sized and shaped to receive an
elastomeric "O"-ring 178 between the wall 176 and the forward surface of
the leading portion 182 of the hub 150.
The sleeve 170 presents an enlarged bore comprising threads 180 extending
from tapered wall 176 to the trailing edge 182 of the sleeve 170. The
threads at 180 and 154 are of identical type and size so that the sleeve
170 may be selectively threaded upon the hub portion 152 to manipulate the
"O"-ring 178, in a fashion and for purposes hereinafter more fully
explained.
In the illustrated embodiment, the cylindrical exterior 184 of the sleeve
170 is illustrated as being knurled.
The illustrated hub assembly 120 is installed by inserting the stylet 122
into the trailing end 190 of an indwelling catheter tube 192 formed of
synthetic resinous material, silicone rubber or the like, and having
essentially a uniform inside and outside diameter. Thus, the catheter tube
end is stabilized against eccentricity in respect to hub assembly 120
during installation and buckling and collapsing of the catheter tube are
also prevented.
Next, the stylet 122 is advanced farther into the hollow of the catheter
tube 192 as the leading end of the short shaft is advanced into the hollow
of the exposed end 190 of the catheter tube 192. Preferably, the outside
diameter of the short shaft 140 as slightly less than the inside diameter
of the catheter tube 192 when at rest as shown, allowing the exposed end
190 of the catheter end 192 to slide unrestrained upon the short shaft.
Once the short shaft is alignedly and fully inserted into the end 190 of
the catheter tube, the sleeve 170 is at this point in time is manually
rotated in a rearwardly direction along threads 154 of hollow hub portion
152 until such time as the "O"-ring 178 has been collapsed or compressed
from its round cross sectional configuration to an eliptical configuration
thereby causing the "O"-ring 178 to apply substantial pressure to the
exterior surface of the exposed end 190 of the catheter tube 192 thereby
securing the connection between the hub assembly 120 and the exposed end
of the catheter tube. The degree of exterior catheter pressure asserted by
the "O"-ring is controlled by the amount of sleeve rotation. It is to be
understood that the initial inside diameter of the "O"-ring 170 is
selected to be slightly greater than the outside diameter of the catheter
tube end 190 and that the mentioned sleeve rotation in effect selectively
reduces the inside diameter of the "O"-ring.
Once the stylet 120 and the stylet hub 128 are manually removed, the hollow
hub 150 may be capped, connected to intravenous tubing, connected to a
hypodermic syringe or the like, to service the needs on a long-term basis
of the indwelling catheter tube 192.
The invention may be embodied in other specific forms without departing
from the spirit or essential characteristics thereof. The present
embodiments are therefore considered in all respects as illustrative and
not restrictive, the scope of the invention being indicated by the
appended claims rather than by the foregoing description, and all changes
which come within the meaning and range of equivalency of the claims are
therefore intended to be embraced therein.
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