CA1103547A - Catheter - Google Patents

Abstract

CATHETER

Abstract of the Invention The invention concerns a novel catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be withdrawn or delivered to the patient, which comprises a catheter wall, the inside surface of which defines a lumen having a cross-sectional area in a proximal end region of the catheter which is larger than the cross-sectional area of the lumen defined in a distal end region of the catheter, at least one opening being provided in the wall of the catheter in the region of its distal end through which blood may be passed.

Various catheter assemblies employing a catheter such as described above are disclosed.

Description

CATHETER

Thls invenkion relates to a cathe~er. More partlcularly, the invention rela~es to a catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be wlthdrawn or delivered to a patlent.

The catheter o~ the inventlon is particularly intended for use in blood dialysis, where ~t is oE hiyh importance to achieve optimal blood flow rates to and from tlle patlent.
In view of the need to employ catheters of limlted cross sectional size, the catheter is normally the element in the entire extracorporeal blood flow path which plays the J greatest role in limiting blood flow rates which can be achieved. This is particularly true in slngle needle dialysis, and there is indeed still some prejudice against employing the single needle dialysi~ tec}lnique for this reason.

Various catheters for effecting dialysis are available.
These catheters normally comprise an o~en-ended ]ength of catheter defining a lumen, a~out one to one and a half lnches lony, and a removable trocar loc~ted coaxlally ln the lumen with its point protruding ~eyond the distaL end

2~ Of the catheter. The trocar normally fits snugly against ~ 5~ 118-334~ ~

the inrler wall surface of tlle catheter along lts length but not so tightly that the trocar cannot be removed ater placement of the catheter~ The same appl~es to catheters ;~
intended for single needle dlalysis, the removable trocar and catheter in this case being o~ somewhat larger cross section.

It has now been found that tlle flow rate of blood through catlleters of the type descrlbed above can be slgnificantly increasea by modifying the form o~ the catheter, or xather the shape of the lumen de~ined by the catheter. ~lternatively spoken, the same flow rate of blood can be achieved through the modiied catheter when applying a signiicantly lower pressure differential to blood being withdrawn or returned to a patient.

The modification of the invention has wlde application and may be employed in YarjOuS types of catheters through which blood may be withdrawn or dellvered to a patient.
Catheters of VRriouS types to which the modiEication of the invention has been applied will ~e ~escrlbed below, more particularly with reference to the accompanying drawings.

In accordance with the inven-tion, there is provided a catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be withdrawn from or delivered to the patient, which comprise~ a catheter wall, the inside surface of which defines a lumen having a cross-sectional area in a proximal end region of the catheter which is larger than the cross~sectional area of the lumen defined in a distal end region of the catheter, tha cross-sectional area of the lumen diminishing substantially uniformly from the proximal end region to the distal end region.

The present invention, in another aspect, resides in a catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be withdrawn or delivered to the patient, which comprises a catheter wall, at least one side opening being provided in the wall of the catheter in the distal end region thereof, a hub having a bore, connected coaxially to the proximal end of the catheter, a hollow cylindrical body coaxially connected to the hub and havlng connection means at its free end, for connection to a blood line, a hollow cylindrlcal side arm leading into the side of the hollow cylindrical body and having means for connection to a blood line, a hollow needle defining an inner lumen through which blood may be delivered to the patient, which passes c~axially through the hollow cylindrical body, through the hub and through the catheter so that the point of the needle protrudes beyond the distal end of the catheter, the outer surface of the needle and the inner surface of the catheter wall defining ~r -3-an annular outer lumen, the cross-sectional area of the outer lumen diminishing to a minimum cross-sectional area at the distal end of the catheter from a position distal to the side opening in the wall of the catheter, said minimum cross-sectional area of the outer lumen correspondin~ to the outer cross-sectional area of the needle so that the distal end of the catheter seals against the wall of the needle, said annular outer lumen being in communication with the hollow cylindrical body and the hollow cylindrical side arm.

In yet another aspect the invention xesides in a catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be withdrawn from and delivered to the patient, which comprises a first catheter, at least one side opening being provided in the wall of said first catheter through which blood may be passed, a second catheter defining ~ ~ ~
an inner lumen being disposed coaxiall~ within the first catheter and in which the distal end of said second catheter defines an end opening through which blood may be passed, the inner surface of the first catheter wall and the outer surface of the second catheter defining an annular outer lumen through which blood may be withdrawn from the patient, the cross-sectional area of the outer lumen diminishing to a ~;
minimum cross-sectional area, at the distal end of the catheter from a position distal to the openin~ in the wall of the first catheter, said minimum cross-sectional area of the outer lumen corresponding to the outer cross-sectional area of the second catheter so that the distal end of the first catheter seals against the wall of the second catheter.

-3a-~3~7 ~ ~

The cross-sectional area of the lumen mos-t preferably diminishes uniformly from the region of larger cross sectional area to the region of smaller cross-sectional area. However, the cross-sectional area may diminish in step-wise fashion.

In some catheters involving the above modification of the invention, the distal end of the inside surface of the catheter wall defines an end opening through which blood may be passed into and out of a lumen. Additionally, at least one side opening is provided in the wall of the catheter in the distal end region thereof. Preferably, : .

-3b-- - - . .. , . ... , - . . . .

~ to 6 side openings are provided in the wall of the -catheter. The side openings may be in pairs and two to three pairs of openings may be provided in the wall of the catheter, the two openings o each pair preferably being in diametrically opposed relationship, each pair of openings then being longitudinally spaced away from ~ -o~e another. Adjacent pairs of such diametrically opposed openings are preferably arranged at right angles to one another so that weakening of the distal end region of the catheter is minimised.
;
The one or more side openings in the wall of the catheter are preferably pro~ided in the distal end region where the cross-sectional area of the lumen is progressively diminishing towards the distal end of the catheter.

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In one embodiment of a catlleter in accordance with the in~ention, the total area of the openings in the walls of the catlleter, together wi~h the area defined by the distal end of the catheter, should be at least as great as tlle smallest cross-sectional area of the lumen through wh~cll blood may ~e passed. In another embodiment, the total area of the openings in the wall Qf the catheter (without the opening defined by the distal end of the catheter) should be at least as great as the cross-sectional area of the lumen.

~ 3348 For ease of insertion of the catheter, ~he outer diameter of the catheter most preferably dimlnlshes to a minimum outer diameter at the distal end from a positlon distal to the distally most extreme opening in the wall of the catheter.
Similarly, the cross~sectional area of the lumen most preerably diminisIIes to a minimum ~rom the same positlon.

The proximal end o the catlleter mc~be coaxially connected to a hub having a bore of cross-sectional area at least as large as the largest cross-sectional area of the lumen, the hub in turn being coaxially connected to a hollow `~
cylindrical body having a closure at its free end.

_ The hoIlow cylindrical ~ody may have a hollow cylindrical side arm leading into the side of the hollow cylindrical body. rrhe free end of the sid~ arm may be provlded with means for connection to a blood li.ne or the free end of the side arm may alternatively be seal.ed closed by a resealable plug through which a needle may be passed.

The catheter may be provided Witll a hollow needle (or removable trocar~ which passes t}lrough the closure at the free end of the hollow cylindrical body and coaxially through the hollow cylindrical body,through the hub and 5~ :

through the catheter so that the point of the needle protrudes beyond the distal end of the catheter. This hollow needle may be provided with female luer means at its proximal end for receiving the nose of a syringe.
~ '~
The closure at the free end of the hollow cylindrical body may comprise a flexible tube coaxially connected to the free end of the hollow cyllndrical body, and a removable xesealable plug sealing closed the free end of the flexible tube and through which the needle passes.

In one construction of a catheter in accordance with the invention, the hollow needle is not intended to be withdrawn. ;
In this construction, the hollow needle defines an inner lumen and the catheter with the outside surface of the needle defines an annular outer lumen. So as to avoid that the sharp end of the needl~e protrudes beyond the distal ;;;~
end of the catheter, which is conveniently of "Teflon", the hollow needle may be retractable over a short distance so that the point of the needle may be retracted after placement of the catheter. In the retracted position of the needle, the catheter seals against the wall of the needle and around the point thereof.

*Trademark of du Pont Co. for polytetrafluoroethylene resin.

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~ 7 118-3348 Locator means, conveniently comprising displacement e1ement mounted on proximal end region of the needle and front.
and back stops, may be provided for locating the needle in a catheter placement position ~in which the poi.nt of the needle protrudes beyond the distal end of the catheter~
and for locating the need:Le i~ said retracted position.

The thlckness of the catheter side wall is most preerably progressively greater from the region where the cross-sectional area of tl-e lumen is larger to the region wllere the cross-sectional area of the lumen is smaller. In this manner a minimum outer diameter of the catheter in ~he proximal end re~lon can be achleved.

The inner diameter of t~le cat~leter may range from about 0.02 to about 0.07 inches, preferahly from about 0.03 to about 0.06 inches. Tlle inner diameter of the needle may range from about 0.02 to about 0.05 inches/ preferably from about 0.03 to about 0.04 inches.

. .

3~

The ~nvention will now be described with reference to the accompanying drawin~s showin~ ~y w~y of example, cat}leter assem~lies involving tlle modification oE the inventi.on. ~;

In the ~rawin~s~

Figure 1 shows a cross-sectiollal side elevation of a catheter assembly in whicll a removable trocar i~ provlded;

Figure 2 shows a cross sectional side elevation of a catheter assembly in which a needle defining an inner lumen is provided; ~ :

1~ Figure 3 shows a cross-sectional side elevation of a ;~
catheter assembly comprising flrst and second catheters ~ one located coaxially within the other and a remova~le trocar passiny throu~h the lumen defined by the inner catheter.

Referring to Figure 1 of the drawings, reference numeral 10 ref~rs generally to a catheter assem~ly comprising a catheter wall 12, the inside surface of which defines a lumen 14. The lumen 14 has a cross-sectional area in a proxlmal end region 16 of the catheter which is . larger than the cross-sectional area of the lumen 14 defined in a distal end re~ion 18 of the catheter. A

~ 118-3348 :~, pair of diametrically opposed openings 20 are provided in the wall 12 of the catheter in the distal end region 18. It will be noted that the cross-sectional area of the l~nen 14 diminishes sub~tantially uniformly from the proximal end region 16 (of larger cross-sec-tional area) to the distal end region 18 ~of smaller cross-sectional area).

Reference numeral 22, in Figure 1, refers to a hollow needle or trocar which is removable. The distal end of the inside surface of the catheter wall 12 defines an op~niny 24 when the trocar 22 is re~oved. With the trocar 22 removed, blood may be passed into and out of the lumen when the catheter is placed in an srtery, vein OI fistula vessel of a patient by means of a monitorlng and bloo~ pump device (not shown).

The palr of openings 20 in the wall 12 of the catheter are in a region where the cross-sectional area of the lumen 14 is diminishing towards the distal end of the catheter. The total area of the openings 20 in wall 12 of the catheter, together with the area of the opening 24 defined by the dis al end of the catheter (with trocar ~2 removed),should be at least as great as the smallest cross-sectlonal area of the lumen 14.

Still referring to E~igure 1, the ~roximal end 26 of the c~theter is coaxially connected to a hub 28 having a ..~
bore 30 which is as large as the lar~est cross-sectiona1 area of the lumen 14 (in ~he proximal end region 16).
The hub 28 is in turn coaxially connected to a hollow cylindrical body 32 having a hollow cylindrical side arm 34 leading into its side. A flexible tube 36 carry~ng a removable reseala~le plug 38 is connected to the end of the hollow cylindrical body 32. ~he remov-able txocar 22 passes through the plug 38, through the flexible tube 36, coaxially through the hollow cylin- ;
drical body 32, through the hub 28 and through the catheter so that the point of the trocar protrudes beyond the distal end of the catheter.

A female Iuer 40 is mounted at the proximal end of the trocar 22,which is kept closed by a removable closure cap 42. The female luer defines a bore 43 into which the nose of an infusion syrin~e may ~e fitted.
` .

A short lengt2l o f flexi.ble tubing 44, carrying a closure cap 46, is connected to tlle end of the side arm 34.
` .

The embodiment of a catheter assembly shown in Figure 1 : is suitable both for so called single needle dialysi.s -- 10 -- .
.

, , , . . . , ! ~ ';; . ! ' ' .

~18-3348 ~1~3~;~7 and for double needle dialysis~ For double needle dial-ysls, the catheter may be somewhat smaller in cross-section, and a resealable plug similar to xesealable plug 38 is then conveniently provided to close off the S end of the side arm 34. Such resealable plug may serve as an infusion point.

Referring now to Flgures 2 and 3 of the drawings/ ref- ~ -erence numerals 10 to 46 refer to the same integers of the catheter assembly as ln Flgure 1.

Referring now particularly to Figure 2 of the drawings, the needle 22 1s not removable as in the trocar of - Figure 1~ Furthermore, the needle terminates at the end of the~ hollow cylindrical body 32 and is sealed at this end to the wall of the hollow cylindrical body 32 by means of a seal 48. The female luer 40, instead of being mounted on the needle as in ~igure 1, is somewhat dlfferent in form and 1s fitted:into the end of the ~lexible tube 36. The end of the female luer adjacent the closure cap 42 is connectable at 50 ~o a blood line~
Another difference between the assembly shown in Fig-ure 2 and that shown in Figure 1 is the form of the catheter towards its distal end region 18. Thus, the wall 12 of the catheter is spaced away rom the outer .. .. . . .. . . . . ... . ..

~3~7 1~8-3348 surface of the needle 22 in said distal end region.
Four openings 20 are provided in said distal end reglon ~8, and the catheter ~hen converges towards its distal end to seal against the outer wall of the needle.
Blood may thus pass lnto the lumen 14 througll openings 20. In this construction two pairs of diametrically ~:
opposed openings 20 are provided, the one pair being at xight angles to the other.

Flgure 3 comprises -eatures common to both Figures 1 and 2. Thus, the removable trocar 22 of Figure 1 is provid~d, and the needle 22 of Flgure 2 (which is not removable) is replaced by an inner catheter 52 which, when the trocar 22 is removed, defines an inner lumen.
The lumen 14 in ~igure 3 is in the form of an annular outer lumen which is defined between the outer surface o~ :
the inner catheter 52 and the inner surface of the cath~
eter (outerj 12~ In this construction, three pairs of diametrically opposed openings 20 are provlded, each pair being arranged a~ right angles to one another.

In the embodiments shown in both Figures 2 and 3, the cross-sectloll o the bore 30 of the hub 28 is at least as great as the sum of the outer cross-sectional area of the needle 22 (in Figure 2) or the inner catheter 52 - 12 ~

7 ~
(in Figure 3) and the largest cross-sectional area of the annular outer lumen 14 (in both Figures 2 and 3).
In operation of the embodiment shown in Figure 1, the vein, artery or fistula vessel is punctured by means of the trocar 22, and the catheter is inserted into the :
vessel to a point near the proximal end region 16.
Infusion may be effected through the trocar 22 during ~ ~-this placement. The trocar is then partly withdrawnl .
and blood is allowed to fill the lumen 14, hollow :~
cylindrical body 32 and flexible tube 36. The trocar `~
is then completely withdrawn, the flexible tube 36 clamped closed, the removable resealable plug 38 ;: ;~
removed and the end of the flexible tube 36 connected up to a blood line leading to the monitoring and blood pump device ~not shown). Similarly, the short length of ;
flexible tubing 44~connected to the side arm 34 is : :
~ clamped closed, the cap 46 removed and connected up to : a blood line leading from the monitoring and blood pump ;
device.
In operation of the embodiment shown in Figure 2, the :catheter is similarly placed in an artery, vein or fistula vessel of a patient, but in this case the needle 22 is not withdrawn since it serves the function j ! ~; . ~, ~ 7 11~-33~8 of defining an inner lumen through which blood may be -~
returned to the patient, bloo~ being withdrawn throug~
the lumen 14 (outer) and to the monitoring and pump device throu~h -the side arm 34.

Operation o the embodiment sho~n in E'igure 3 is similar to that o~ Fiyure 2, excepting that the trocar 22 is ~emoved and connection up to the blood line is effected as described in relation to Figure.l.

Claims (29)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be with-drawn from or delivered to the patient, which comprises a catheter wall, the inside surface of which defines a lumen having a cross-sectional area in a proximal end region of the catheter which is larger than the cross-sectional area of the lumen defined in a distal end region of the catheter, the cross-sectional area of the lumen diminishing substantially uniformly from the proximal end region to the distal end region.

2. A catheter according to claim 1, in which the distal end of the inside surface of the catheter wall defines an end opening through which blood may be passed into and out of the lumen.

3. A catheter according to claim 1, in which two to six side openings are provided in the wall of the catheter.

4. A catheter according to claim 3, in which two to three pairs of side openings are provided in the wall of the catheter, the two openings of each pair being in diametrically opposed relationship, and each pair of openings being longitudinally spaced away from one another.

5. A catheter according to claim 4, in which adjacent pairs of diametrically opposed openings are arranged at right angles to one another.

6. A catheter according to claim 3 in which the total area of the side openings in the wall of the catheter together with the area of the end opening defined by the distal end of the catheter, is at least as great as the smallest cross-sectional area of the lumen through which blood may be passed.

7. A catheter according to claim 3, in which the total area of the side openings in the wall of the catheter is at least as great as the smallest cross-sectional area of the lumen through which blood may be passed.

8. A catheter according to claim l, in which the proximal end of the catheter is coaxially connected to a hub having a bore of cross-sectional area at least as large as the largest cross-sectional area of the lumen, the hub in turn being coaxially connected to a hollow cylindrical body having a closure at its free end.

9. A catheter according to claim 8, in which the hollow cylindrical body has a hollow cylindrical side arm leading into the side of the hollow cylindrical body.

10. A catheter according to claim 9, in which the free end of the side arm is provided with means for connection to a blood line.

11. A catheter according to claim 9, in which the free end of the side arm is sealed closed by means of a removable resealable plug through which a needle may be passed.

12. A catheter according to claim 8, in which a hollow needle is provided which passes through the closure at the free end of the hollow cylindrical body and coaxially through the hollow cylindrical body, through the hub and through the catheter so that the point of the needle protrudes beyond the distal end of the catheter.

13. A catheter according to claim 12, in which the hollow needle is provided with female luer means at its proximal end for receiving the nose of a syringe.

14. A catheter according to claim 12, in which the closure at the free end of the hollow cylindrical body comprises a flexible tube coaxially connected to the free end of the hollow cylindrical body, and a removeable resealable plug sealing closed the free end of the flexible tube through which the needle passes.

15. A catheter according to claim 1, in which the thickness of the catheter side wall is progressively greater from the region where the cross-sectional area of the lumen is larger to the region where the cross-sectional area of the lumen is smaller.

16. A catheter according to claim 1, in which the inner diameter of the catheter ranges from about 0.02 to about 0.07 inches.

17. A catheter according to claim 16, in which the inner diameter of the catheter ranges from about 0.03 to about 0.06 inches.

18. A catheter according to claim 12, in which the inner diameter of the needle is from about 0.02 to about 0.05 inches.

19. A catheter according to claim 18, in which the inner diameter of the needle is from about 0.33 to about 0.04 inches.

20. A catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be with-drawn from or delivered to the patient, which comprises a catheter wall, at least one side opening being provided in the wall of the catheter in the distal end region thereof, a hub having a bore, connected coaxially to the proximal end of the catheter, a hollow cylindrical body coaxially connected to the hub and having connection means at its free end, for connection to a blood line, a hollow cylindrical side arm leading into the side of the hollow cylindrical body and having means for connection to a blood line, a hollow needle defining an inner lumen through which blood may be delivered to the patient, which passes coaxially through the hollow cylindrical body, through the hub and through the catheter so that the point of the needle protrudes beyond the distal end of the catheter, the outer surface of the needle and the inner surface of the catheter wall defining an annular outer lumen, the cross-sectional area of the outer lumen diminishing to a minimum cross-sectional area at the distal end of the catheter from a position distal to the side opening in the wall of the catheter, said minimum cross-sectional area of the outer lumen corresponding to the outer cross-sectional area of the needle so that the distal end of the catheter seals against the wall of the needle, said annular outer lumen being in communication with the hollow cylindrical body and the hollow cylindrical side arm.

21. A catheter for placement in an artery, vein or fistula vessel of a patient, through which blood may be with-drawn from and delivered to the patient, which comprises a first catheter, at least one side opening being provided in the wall of said first catheter through which blood may be passed, a second catheter defining an inner lumen being dis-posed coaxially within the first catheter and in which the distal end of said second catheter defines an end opening through which blood may be passed, the inner surface of the first catheter wall and the outer surface of the second catheter defining an annular outer lumen through which blood may be withdrawn from the patient, the cross-sectional area of the outer lumen diminishing to a minimum cross-sectional area, at the distal end of the catheter from a position distal to the opening in the wall of the first catheter, said minimum cross-sectional area of the outer lumen corresponding to the outer cross-sectional area of the second catheter so that the distal end of the first catheter seals against the wall of the second catheter.

22. A catheter according to claim 21, in which a removable trocar is located in said second catheter so that the point of the trocar protrudes through the opening defined by the distal end of said second catheter.

23. A catheter according to claim 21, in which the second catheter defines an inner lumen having a cross-sectional area in a proximal end region thereof which is larger than the cross-sectional area of the inner lumen in a distal end region thereof.

24. A catheter according to claim 21, additionally comprising a hub having a bore, connected coaxially to the proximal end of said first catheter, a hollow cylindrical body coaxially connected to the hub and having a removable closure and means for connection to a blood line at its free end, a hollow cylindrical side arm leading into the side of the hollow cylindrical body having means at its free end for connection to a blood line, said second catheter leading rearwardly from its distal end through the bore of the hub and to the free end of the hollow cylindrical body where the outer surface of the wall of the second catheter is sealed against the inner surface of the wall of the hollow cylindrical body so that an annular blood flow passage in communication with said annular outer lumen and the hollow cylindrical side arm is defined by the outer surface of the wall of the second catheter and the inner surface of the wall of the hollow cylindrical body, a removable trocar which passes through the removable closure at the free end of the hollow cylindrical body and coaxially through the second catheter so that the point of the trocar protrudes beyond the distal end of the catheter, the cross-sectional area of the bore of the hub being at least as large as the sum of the outer cross-sectional area of the second catheter where it passes through the bore of the hub and the largest cross-sectional area of said annular outer lumen.

25. A catheter according to claim 24, in which the removable closure and means for connection to a blood line comprises a flexible tube coaxially connected to the free end of the hollow cylindrical body, and a removable resealable plug sealing closed the free end of the flexible tube and through which the removable trocar passes.

26. A catheter according to claim 20, in which the outer lumen has a cross-sectional area in a proximal end region of the catheter which is larger than the cross-sectional area of the outer lumen in a distal end region of the catheter, the annular outer lumen thereby progressively increasing in cross-sectional area rearwardly towards the proximal end of the catheter from the distal end region, the cross-sectional area of the bore of the hub being at least as large as the sum of the outer cross-sectional area of the needle and the largest cross-sectional area of said annular outer lumen.

27. A catheter according to claim 21 in which the outer lumen has a cross-sectional area in a proximal end region of said first catheter which is larger than the cross-sectional area of the outer lumen in a distal end region of said first catheter, the annular outer lumen thereby progressively increasing in cross-sectional area rearwardly towards the proximal end of the first catheter from the distal end region thereof.

28. A catheter according to claim 20 or claim 26, in which the hollow needle defining the inner lumen is retractable over a short distance so that the point of the needle may be retracted into a retracted position after placement of the catheter in which the distal end of the catheter seals against the wall of the needle and around the point thereof.

29. A catheter according to claim 28, in which locator means is provided for locating the needle in a placement position in which the point of the needle protrudes beyond the distal end of the catheter and for locating the needle in its retracted position.