CA2049063C - Pre-slit injection site and tapered cannula - Google Patents

Abstract

A pre-slit infection site (34) includes a housing (40) with a flow path therethrough. A first end (42) of the housing (40) carries a pre-slit septum (52). One form of a blunt cannula (98), usable with the injection site (34), carries a locking member (100). When the pre-slit injection site (34) slidabiy receives the blunt cannula (98), the locking member (100) latches to the infection site (34) and creates a mechanically coupled unit.
Another form of the cannula (280) includes a tube having a tapered distal end region (298) and having elongate discharge slots (294) for reducing contact surface area and for directing the flow laterally out of the cannula. The cannula may also include a rounded lead post (330), an annular barb (394), and axially oriented grooves (268). A blood sampling system utilizing an in-line pre-slit injection site (492) and a shielded blunt cannula (512).
An adapter for transferring fluids from a syringe with a blunt cannula to an evacuated tube, including a pre-slit infection site (554) and a shroud covered needle (556) with a rubber sleeve.

Description

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PRE-SLIT INJECTION SITE AND TAPERED CANNULA
Field of the Invention The invention pertains to coupling systems usable to transfer materials from one flow conduit to another.
More particularly, the invention pertains to two-part coupling members with a first part including a pre-slit septum and second part including a blunt cannula. The pre-slit septum slidably receives the blunt cannula to effect the coupling.
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~~49~~3 Background of the Invention Injection sites usable with pointed cannulae have long been known. For example, such sites can be formed with a housing having a fluid flow path therein. A septum is positioned in the housing closing the fluid flow path.
One injection site usable with a piercing cannula is disclosed in U.S. Patent No. 4,412,573 to Zbed entitled "Injection Site." The Zbed patent is assigned to the assignee of the present invention.
The pointed cannula can be forced through the septum into fluid flow communication with the flow path in the housing. Known injection sites usable with a piercing cannula can be physically damaged by repetitive piercing caused by the sharp cannula. This damage, known as coring or laceration, can result in subsequent leakage. -Due to problems associated with infectious agents, personnel using such pointed cannulae do so with great care. Notwithstanding careful and prudent practice, from time to time, accidents do occur and individuals using such pointed cannulae jab themselves.
Injection sites usable with a blunt cannula are also known. For -- example, U.S. Patent No. 4,197,848 issued to Garrett, et' al., entitled "Closed Urinary Irrigation Site" and assigned to the assignee of the present invention discloses one such injection site. That injection site is a relatively low pressure device having a relatively thin, molded, sealing member. The sealing member has an opening therethrough.
A blunt cannulae can be forced through the sealing member placing the cannulae into fluid flow communication with a fluid flow pathway in the injection site.
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Injection sites of the type noted above usable with a blunt cannula have the advantage that the blunt cannula will not pierce the skin of a user. On the other hand, it is important that the pre-slit injection site reseal with enough force that fluids do not ooze therefrom and that airborne particulate matter, bacterial or viral matter do not enter therethrough.
Hence, there continues to be a need for a pre-slit injection site which can be used with a variety of solutions and over a range of fluid pressures. Further, there continues to be a need for such a pre-slit injection site which will reliably reseal even after many insertions of the blunt cannula.
Such an i nj ecti on si to shoul d be abi a to recei ve a 1 arge number of insertions of the cannula without displaying reseal failure. Such an injection site should provide for improved alignment of the cannula on insertion. Improved alignment will result in less chance of damage to the injection site after repeated insertions of the cannula.
Preferably, the injection site " would also be usable with a pointed cannula. Preferably, a pre-slit injection site usable with a blunt cannula will provide a reasonable level of insertion force such that health care personnel will readily be able to insert the blunt cannula, yet the cannula will not easily fall from or drop out of contact with the septum.

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summary of the Invention In accordance with the invention, an easily wipeable injection site usable with a blunt cannula is provided. The injection site includes a housing which defines a fluid flow channel therethrough.
The housing has a first and a second end.
A flexible sealing member is carried by the housing for sealing the first end. The sealing member has a resealable opening therein.
The sealing member also is formed with a curved exterior peripheral surface such that the blunt cannula can be sealingly inserted through the opening and placed in fluid flow communication with the flow path.
Further, the blunt cannula can be removed from the opening with a sealing member then interacting with the housing so as to reseal the opening.
The housing can also be farmed with the first end including an annular channel underlying the sealing member. The sealing member is subjected to radially directed forces by a tapered surface of the first end of the housing. These forces tend to reseal the opening in the sealing member.
The sealing member can be a cylindrically shaped rubber member.
The first end of the housing can include an interior tapered surface for receiving the sealing member and for applying the radially directed forces to the sealing member.
A retaining member carried by the first end of the housing can be used to retain the sealing member within the housing. The retaining member can be generally U-shaped. Alternately, the retaining member can be formed as a coiled spring.
The retaining member applies axially directed forces to the sealing member. In one embodiment of the invention, the retaining 2049~~~
r member deflects the sealing member and forms a curved exterior peripheral surface thereon. The curved exterior peripheral surface is an easily wipeable surface.
The retaining member deflects or distorts the upper and lower peripheral edges slightly as a result of applying axial forces thereto. When the blunt cannula is inserted into the slit in the sealing member, an annular interior peripheral region of the sealing member deforms further and fills, at least in part, the annular channel.
Deformation of this annular peripheral region results in an insertion force in a range of 2.0 pounds (.7564 kilograms) to 5.0 pounds (1.891 kilograms). Preferably, the insertion force will have a value of the order of 2.0 pounds (.7564 kilograms).
I The resealable opening in the sealing member can extend entirely through that member. Alternately, the resealable opening can extend only partway therethrough. In this embodiment, the end of the blunt cannula will be used to tear through the remainder of the sealing member.
The sealing member can be formed in two parts. An exterior cylindrical portion can be slit completely. An interior cylindrical unslit portion can be provided to seat the site until the blunt cannula is inserted therethrough the first time.
The interior surface of the first end can be formed with the taper in a range on the order of 5 degrees to 20 degrees. Preferably, the interior surface will have a taper on the order of 12 degrees.
Thi s tapered surface permi is the use of a cyl i ndri cal ly shaped seal i ng member.
To provide for leak-free insertion, the length of the slit in the sealing member must be less than one-half the circumference of the cannula being inserted therethrough. Hence, the slit length may exceed w the diameter of the cannula being inserted. In addition, the slit length must be great enough, given the elastic limit of the sealing member, to prevent tearing during insertion.
Further, in accordance with the invention, a coupling system for coupling first and second fluid flow members together is provided. The coupling system includes an injection site which is affixed to the first fluid flow member. The injection site includes a housing. The housing has a fluid flow path therethrough.
A sealing member is carried by the housing. The sealing member has a resealable opening therein.
An annular retaining member is carried by the housing and cooperates with the housing to retain the sealing member therein.
Radially directed forces are applied to the sealing member by the housing, thereby urging the opening into a resealed condition.
A blunt cannula, affixed to second fluid flow member, has a fluid flow path therethrough. The cannula carries a locking member for lockingly engaging the housing when the cannula extends through the opening of the sealing member. When so positioned, the two fluid flow members are placed into fluid flow communication.
The locking member can include a luer-type twist lock fitting.
Alternately, the locking member can include slidably engageable members which are responsive to axial movement of the injection site and ,the cannula toward one another.
In accordance with further aspects of this invention, the blunt cannula may be provided with features that facilitate insertion into the injection site, enhance fluid flow or dispersion, increase tug resistance, and-reduce kickback.
In particular, one embodiment of the cannula includes a tube with a plurality of elongate discharge slots adjacent the distal end. The ~~~9~J~3 fluid changes direction as it passes laterally through the slots and out of the tube. The flow area of the slots exceeds the flow area inside the tube. This slot structure enhances fluid flow and inspersion characteristics. In addition, the slots decrease the contact surface area on the tube exterior so as to facilitate insertion.
In a further modification, the cannula includes a lead post on the tube distal end to guide the cannula through the slit in the injection site.
In another cannula embodiment, the tube is generally cylindrical and the fluid discharges directly from an open end of the tube. The exterior surface of the tube is provided with grooves to reduce the contact surface area.
In still another cannula embodiment, the tube has a cylindrical porti on and a tapered di stal end portion whi ch are each about equal i n length. The taper facilitates insertion, and the remaining cylindrical portion reduced kickback.
In yet another embodiment, the cannula includes an annular barb which functions to reduce kickback.
Other advantages of a blunt plastic cannula in accordance with the invention, relative to conventional steel needles include a higher fluid flow rate capacity and simpler one-piece plastic design.
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06-22-00 04:04pm From-SIM MCBURNEY 4165951163 T-662 P.02/02 F-246 Other aspects. ref this invention are as follows:
In accordance: with an aspect of the present invention in a blood sampling system, a i~ampling site useable with a blunt cannula device comprising:
tubing adapted to be connected at one end to the patient in fluid communication with Glle patient's vascular system and at the other end to a fluid supply;
a reservoir assembly connected in-line to said tubing k~etween the patient end and the fluid supply end, comprising a flaw through reservoir to housing defining an interior clhamber fat holding fluid, and a retractable plunger 4isposed within the r~3servoir housing adapted to be slidably retracted within the interior ch~~mber to create negative pressure within the chamber effective to draw fluid from th~s tubing into the chamber;
a sampling site connected in-line to the tubing vetween the patient end and the reservoir as;~embly, the sampling site compri..ing a flow thmugh sampling site housing having an inlet connected to th4 tubing leading to the reservoir assembly and an outlet connected to the tuk~ing leading td tile patient, thereby defining a fluid channel thetehetweer~, wherein retraction of the reservoir plunge) draws blood from the patient into the fluid channel;
means defining an aCC~ss aperture in the sampling site housing in communication with the fluid channel; and flexible meari~5 carried by the sampling site hv~ising for sealing the access aperture, the moans having a curved exterior peripheral surface and a resealaple opening therein such that d blunt cannuia can be sealingly inserted through the opening and placed in fluid flow commNn~cation with the channel to enable blood sampling therefrom and such that thE- blunt CannNla can be removed from the o~>ening wiith tile flexible means interacting with the housing so as to reseal the resealable opening.
An injection site usable with a blunt cannula d~:vice cxan'lprising-' 3o A housir<g haring a fluid passageway therein and means defining first and second openings within aaid housing in communication with said passageway;
7a 5~5 22/06/2000 16:00 ~416595t163 OreceiverJ

2~~9~53 flexible means carried by said housing for sealing said first opening , said means having a resealable opening therein and a curved exterior peripheral surface such that a blunt cannula can be sealingly inserted through said resealable opening and placed in fluid flow cortmunication with said passageway and such that the blunt cannula can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening;
means defining a generally radially extending shoulder on the exterior for said housing for locking engagement with one type of blunt cannula device;
means defined on the exterior of said housing for threaded engagement with another type of blunt cannula device;
grasping means circumscribing said housing to aid in grasping said infection site while inserting or withdrawing a blunt cannula, said grasping means being tapered substantially throughout its length;
and visually perceptible identification means carried by said housing to identify said infection site as being usable with a blunt cannula device, said identification means comprising a colored ring circumscribing said flexible means and being of a color different from said housing.
An infection site usable with a blunt cannula device comprising:
a housing having an inlet and outlet and defining a fluid channel therebetween;
means defining an access aperture in communication with fluid channel; and -7b-A

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flexible means carried by said housing for sealing said access aperture, said means having a resealable opening therein and a curved exteri or pert pheral surface such that a bl unt cannul a can be sealingly inserted through said opening and placed in fluid flow cortmunication with said channel and such that the blunt cannula can be removed therefrom with said flexible means interacting with said housing so as fio reseal said resealable opening.
A blunt-ended cannula device for use with a pre-slit infection site, said cannula device comprising:
an elongated member with a fluid flow channel extending generally axially therewithin and through a distal of said member;
said elbngated member being generally cylindrical along a substantial portion of its length and terminating in a generally tapered distal end portion having a blunt end edge; and a substantially cylindrical sheath surrounding said elongated member and being at least coextensive with and spaced apart from said elongated member to protect said member from inadvertent touch contamination.
A blunt cannula device for use with a pre-slit infection site comprising:
elongated member extending from said bases portion, said elongated member having a fluid flow channel defined generally axially therewithin, said elongated member being essentially cylindrical for a substantial portion of the length thereof and terminating in a tapered end portion having a blunt end edge;
-7c-a plurality of retaining fingers carried by said base portion, each of said retaining fingers having retention means at one end and gripping means at the other end, said fingers being carried by said base portion intermediate said ends, whereby squeezing of the gripping ends of said fingers spreads of the retention ends of said fingers to allow locking engagement with and release form a pre-slit infection site.
In a blood sampling system, an infection site usable with a blunt cannula device comprising:
a housing having an inlet and outlet and defining a fluid channel therebetween;
means defining an access aperture in cortmunication with the fluid channel; and flexible means carried by said housing for sealing said access aperture, said means having a resealabie opening therein and a curved exterior peripheral surface such that a blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with said channel and such that the blunt cannula can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening.
A blunt-ended cannula device for use with a pre-slit infection site in a blood sampling system, said cannula device comprising:
an elongated member with a fluid flow channel extending generally axially therewithin and through a distal end of said member;
said elongated member being generally cylindrical along a substantial portion of its length and terminating in a generally tapered distal end portion having a blunt end edge; and -7d-a substantially cylindrical sheath surrounding said elongated member and being at least coextensive with and spaced apart from said elongated member to protect said member from inadvertent touch contamination.
An adapter for transferring fluid from a blunt ended cannula and syringe to an evacuated tube, comprising:
a) an injection site having a cylindrical housing and flexible means carried by said housing for sealing one end of said housing, said flexible means having a resealable opening therein and a curved exterior peripheral surface such that the blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with a needle attached to the other end of said housing, and such that the blunt cannula can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening;
b) a shroud covering said needle and into which an evacuated tube can be inserted when transferring fluid from the syringe to the tube; and c) an elastomeric sleeve covering said needle.
According to an aspect of the invention, a blood sampling system for withdrawing blood from a patient, comprises;
a) tubing adapted to be connected at one end to the patient in fluid communication with the patient's vascular system and at the other end to a fluid supply;
b) a reservoir assembly connected in-line to the tubing between the patient end and the fluid supply end, comprising a flow through reservoir housing -7e-having inner walls defining an interior chamber of holding fluid, a first port in fluid communication with the interior chamber connected to the tubing leading to the fluid supply, a second port in fluid communication with the interior chamber connected to the tubing leading to the patient, a retractable plunger disposed within the reservoir housing, the plunger formed in a complementary configuration to the interior chamber and adapted to traverse the chamber, and a sealing member disposed about the plunger in slidable sealing engagement with the inner walls of the interior chamber, the plunger adapted to be slidably retracted within the interior chamber to create negative pressure within the chamber, the negative pressure being effective to draw fluid from the tubing into the chamber for temporarily storing the fluid in the chamber and to draw blood from the patient into the tubing, the plunger adapted to be slidably projected toward the ports for reintroducing the stored fluid into the tubing; and c) a sampling site connected in-line to the tubing between the patient end and the reservoir assembly, the sampling site, comprising a flow through sampling site housing having a first port connected to the tubing leading to the reservoir assembly and a second port connected to the tubing leading to the patient, thereby defining a fluid channel through the sampling site housing, means defining an access aperture in the sampling site housing in communication with the fluid channel, and flexible means carried by the sampling site housing for sealing the access aperture, the means having a resealable opening therein such that a blunt cannula can be sealingly inserted through the opening and placed in fluid flow communication with the channel to withdraw blood from the tubing and such that the blunt cannula can be removed therefrom with the flexible means interacting with the housing so as to reseal the resealable opening.
According to another aspect of the invention, a blood sampling system for withdrawing blood from a patient, comprises:
-7f-a) tubing adapted to be connected at one end to the patient in fluid communication with the patient's vascular system and at the other end to a fluid supply;
b) a reservoir assembly connected in-line to the tubing between the patient end and the fluid supply end, comprising a flow through reservoir housing having inner walls defining an interior chamber for holding fluid, a first port in fluid communication with the interior chamber connected to the tubing leading to the fluid supply, a second port in fluid communication with the interior chamber connected to the tubing leading to the patient, a retractable plunger disposed within the reservoir housing, the plunger formed in a complementary configuration to the interior chamber and adapted to traverse the chamber, and a sealing member disposed about the plunger in slidable sealing engagement with the inner walls of the interior chamber, the plunger adapted to be slidably retracted within the interior chamber to create negative pressure within the chamber, the negativepressure being effective to draw fluid from the tubing into the chamber for temporarily storing the fluid in the chamber and to draw blood from the patient into the tubing, the plunger adapted to be slidably projected toward the ports for reintroducing the stored fluid into the tubing; and c) a sampling site connected in-line to the tubing between the patient end and the reservoir assembly, the sampling site comprising a flow through sampling site housing having a first port connected to the tubing leading to the reservoir assembly and a second port connected to the tubing leading to the patient, thereby defining a fluid channel through the sampling site housing, means defining an access aperture in the sampling site housing in communication with the fluid channel, and flexible means carried by the sampling site housing for sealing the access aperture, the means having a resealable opening therein such that a blunt cannula can be sealingly inserted through the opening and placed in fluid flow -7g-communication with the channel to withdraw blood from the tubing and such that the blunt cannula can be removed therefrom with the flexible means interacting with the sampling site housing so as to reseal the resealable opening;
d) the blunt cannula comprising an elongated member with a fluid flow channel extending generally axially therewithin and through a distal end of the member, the elongated member being generally cylindrically along a substantial portion of its length and terminating in a generally tapered distal end portion having a blunt end edge.
According to further aspect of the invention, a method for withdrawing a blood sample from a patient line which is in communication with the patient's vascular system at one end and connected to a fluid supply at the other end, comprises the steps of:
a) disposing a reservoir assembly in the patient line between the fluid supply end and the patient end of the line;
b) disposing a sampling site in the patient line between the reservoir assembly and the patient end of the line, the sampling site comprising a flow through housing having a first port leading to the reservoir assembly and a second port leading to the patient, thereby defining a fluid channel through the housing, means defining an access aperture in the housing in communication with the fluid channel, and flexible means carried by the housing for sealing the access aperture, the means having a resealable opening therein such that a blunt cannula can be sealingly inserted through the opening and placed in fluid flow communication with the channel and can be removed therefrom with the flexible means interacting with the housing so as to reseal the resealable opening;
c) disabling fluid flow from the fluid supply to the reservoir assembly;

-7 h-d) drawing fluid contained in the patient line into the reservoir assembly, the drawing being effective to draw blood from the patient into the patient line;
e) inserting the blunt cannula through the resealable opening of the sampling site to withdraw blood from the patient line; and f) removing the blunt cannula from the sampling site, the flexible means of the sampling site thereby interacting with the sampling site housing so as to reseal the resealable opening.
Numerous other advantages and features of the present invention will become readily apparent from the following detailed description of the invention and the embodiments thereof, from the claims and from the accompanying drawings in which the details for the invention are fully and completely disclosed as a part of this specification.
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c brief Description of the Drawings Figure 1 is a side elevational view, partly in section, of a prior art pre-slit injection site and an associated blunt cannula;
Figure 2A is a view in perspective of a catheter positioned in the hand of a patient with a pre-slit injection site in accordance with the present invention positioned adjacent thereto;
Figure 2B is a perspective view of the catheter of Figure 2A with a pre-slit injection site in accordance with the present invention rotatably affixed thereto:
Figure 3 is an enlarged side elevational view in a section of a pre-slit injection site in accordance with the present invention formed on a body having a luer twist-lock type connector for coupling to a catheter;
Figure 4A is an exploded view of a pre-slit injection site, a shielded blunt cannula and a syringe prior to being coupled together;
Figure 4B is an enlarged, side elevational view in section of the pre-slit injection site, the shielded blunt cannula and the syringe of Figure 4A coupled together to form a sealed fluid flow system;
Figure 5A is a view in perspective of a pre-slit injection site prior to engaging a blunt cannula carrying a locking member;
Figure 5B is an enlarged side elevational view, partly broken away, illustrating the interrelationship between the pre-slit injection site and the blunt cannula of Figure 5A;
Figure 6 is an overall view of a container, an associated solution administration set and a pre-slit injection site in accordance with the present invention;

204~~63 Figure 7 is an enlarged side elevational view, partly broken away illustrating the relationship between selected elements of Figure 6;
Figure 8 is a side elevational view, partly broken away illustrating an alternate shielded cannula in accordance with the present invention;
Figure 9 is a side elevational view, partly in section, of a pre-slit injection site mounted on a fragment of a solution container;
Fi gure 10 i s a s i de el evati onal vi ew of a fragment of a sol uti on container carrying, as a single port, a pre-slit injection site;
Figure 11 is a side elevational view of the injection site and fragmentary container of Figure 10 prior to being engaged with a shielded cannula carried by a syringe;
Figure 12 is an enlarged side elevational view, partly in section, of a coupling system with a pre-slit injection site partly coupled to a blunt cannula;
Figure 13 is an enlarged side elevational view, partly in section, of the coupling system of Figure 12 subsequent to engagement of the two coupling members;
Figure 14 is a side elevational view, partly broken away, of a spike connector carrying a pre-slit injection site in accordance with the present invention;
Figure 15 is an enlarged side elevational view of a Y-connector in section carrying a pre-slit injection site in accordance with the present invention;
_g_ I s Figure 16 is an enlarged fragmentary side elevational view in section of a coupling member carrying a pre-slit injection site where the slit extends only partway through the septum;
Figure 17 is a perspective view of a burette solution administration set carrying a pre-slit injection site in accordance with the present invention;
Figure 18 is a view of part of a burette solution administration set carrying a pre-slit injection site being coupled to a shielded blunt cannula;
Fi gure 19 i s a step i n the method of maki ng a pre-s 1 i t i n j ecti on site in accordance with the present invention;
Figure 20 is another step in the method of making a pre-slit injection site in accordance with the present invention;
Figure 21 is an initial phase of a final step in making a pre-slit injection site in accordance with the present invention;
Figure 22 is an intermediate phase of the final step in a method of making a pre-slit injection site in accordance with the present invention;
Figure 23 is a final phase of the final step in a method of making a pre-slit injection site in accordance with the present invention;
Figure 24 illustrates an initial phase in an alternate step of making a pre-slit injection site in accordance with the present invention;
Figure 25 illustrates a final phase of the alternate step in a method of making an injection site in accordance with the present invention;

Figure 26 illustrates yet another alternate step in a method of making a pre-slit infection site in. accordance with the present invention;
Figure 27 is an enlarged, fragmentary cross-sectional view of another embodiment of an infection site in accordance with the present invention;
Figure 28 is a cross-section view taken generally along the plane 28-28 in Figure 27;
Figure 29 is an end view of another embodiment of the cannula in accordance with the present invention;
Figure 30 is a cross-section view taken generally along the plane 30-30 in Figure 29;
Figure 31 is an end view of another embodiment of the cannula in accordance with the present invention;
Figure 32 is a cross-sectional view taken generally along the plane 32-32 in Figure 31;
Figure 33 is a cross-sectional view taken generally along the plane 33-33 in Figure 32;
Figure 34 is an end view of another embodiment of the cannula in accordance with the present invention;
Figure 35 is a fragmentary, side elevational view of the embodiment of the cannula illustrated in Figure 34;
Figure 36 is a cross-sectional view taken generally along the plane 36-36 in Figure 34;

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r Figure 37 is a cross-sectional view taken generally along the plane 37-37 in Figure 36;
Figure 38 is an end view of another embodiment of the cannula according to the present invention;
Figure 39 is a cross-sectional view taken generally along the plane 39-39 in Figure 38;
Figure 40 is a cross-sectional view taken generally along the plane 40-40 in Figure 39;
Figure 41 is an end view of another embodiment of the cannula according to the present invention;
Figure 42 is a cross-sectional view taken generally along the plane 42-42 in Figure 41;
Figure 43 is an end view of another embodiment of the cannula according to the present invention;
Figure 44 is a cross-sectional view taken generally along the plan 44-44 in Figure 43; and Figure 45 is a view in section of another insertion member for a blunt cannula.
Figure 46 is a perspective view of another embodiment of a blunt cannula embodying the present invention.
Figure 47 is a perspective view of a blunt cannula shield or tip protector.
Figure 48 is a perspective view of a heparin lock embodying the present invention.

'-Figure 49 is a side elevational view of the heparin lock of Figure 48 in joined relationship with a blunt cannula device of alternative construction embodying the present invention.
Figure 50 is a cross-sectional view of the heparin lock of Figure 48 in joined relationship with a blunt cannula device of further alternative construction embodying the present invention.
Figure 51 is a cross-sectional view of a pre-slit in-line injection site embodying the present invention in joined relationship with a blunt cannula shown in side elevational view.
Figure 52 is a perspective view of the alternative blunt cannula device of Figure 49 in joined and locked relationship with the pre-slit in-line injection site depicted in Figure 51.
Figure 53 is a perspective view, partially broken away, depicting the combination of a syringe and an alternative blunt cannula device of the present invention for injecting or removing liquid through a pre-slit in-line injection site, such as depicted in Figure 51.
Figure 54 is a perspective view of a blunt cannula shield or tip protector for attachment over the end of the blunt cannula device such as depicted in Figure 53.
Figure 55 is a cross-sectional view of an alternative blunt cannula device particularly suited for attachment to a syringe as shown in Figure 53.
Figure 56 is a perspective view of the blunt cannula device shown in Figure 53 in joined relationship with the pre-slit injection site shown in Figure 51.

Detailed Description of the Preferred Embodiments While this invention is susceptible of embodiment in many different forms, there are shown in the drawing and will be described herein in detail specific embodiments thereof with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the specific embodiments illustrated.
A prior art pre-slit injection site 10 and associated blunt cannula 12 are illustrated in Figure 1. The prior art injection site has a cylindrical housing 14 with a fluid flow path 16 therethrough. A first end 18 of the housing 14 is closed with a relatively thin disc-shaped resealable member 20. The member 20 has a resealable opening 22 therein.
The member 20 is a molded septum with an integrally formed skirt 20a. The ski rt 20a i s on ented general ly perpendi cul ar to the ports on of the septum with the opening 22.
The cannula 12 includes a body portion 24 which carries at a first end a hollow, cylindrical, blunt piercing member 26. As the cannula 12 is moved in a direction 28 toward the first end 18 of the injection site 10, the member 26 slidably engages the opening 22. The sealing member 20 is then deformed adjacent the opening 22 and the number 26 extends into the flow path 16. A fluid flow path through the cannula 12 will then be in fluid flow communication with the flow path 16 via the hollow piercing member 26.
In contradistinction to the prior art pre-slit injection site 10 of Figure 1, Figures 2A and 28 illustrate a pre-slit injection site 34 being coupled to a peripheral venous catheter 36. The catheter 36 is shown in fluid flow communication with a vein in a hand H of a patient. The catheter 36 carries at a proximal end 38 a luer-type female twist lock connector 41.

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The pre-slit injection site 34 is formed with a cylindrical housing 40 having a first end 42 and a second end 44.
Carried by the housing 40, adjacent the second end 44 is a hollow cylindrical fluid flow member 46. The member 46 slidably engages a receiving member in the housing 38 of the catheter 36, thereby providing a sterile fluid flow coupling as is well known and conventional.
A plurality of internal male luer-type threads 48 is carried by the housi ng 40 adjacent the second end 44. The threads 48 wi 11 engage the flange member 41 when the injection site 34 is rotated in a direction 50. When so coupled together, the catheter 36 and the injection site 40 provide a sealed coupling through which fluids may be injected into the vein of the hand H.
Figure 3 illustrates, in section, further details of the i nj ecti on si to 34. A reseal abl a septum 52 i s carri ed by the fi rst end 42 of the housing 40. The septum 52 includes first and second spaced apart surfaces 54 and 56 respectively. The surface 54 has been forced into a dome-like shape by annular, U-shaped, swaged end members 58 carried by the first end 42. The dome-like shape of the surface 54 can extend beyond a surface 42a of the first end 42. This facilitates cleaning the surface 54.
The septum 52 has a generally cylindrical shape. The septum 52 can be formed of a latex or synthetic rubber material. Alternately, the septum can be formed of a thermoplastic elastomer. The material used for the septum 52 should be non-toxic and sterilizable such as by means of radiation, steam or Ethylene Oxide.
Because the septum 52 is generally cylindrical in shape, it can be die-cut from a sheet, cut from an extruded rod or molded. The septum 52 can have an exemplary diameter on the order of .30 inches 20~90~
(0.762 centimeters). The height of the septum 52 can be, for example, on the order of .125 inches (.3175 centimeters).
The first end 42 is also formed with a tapered interior surface 60 which terminates in an annular channel 62. The tapered interior surface 60 has a taper in a range of 5 degrees to 20 degrees.
Preferably, the taper will be on the order of 12 degrees. With the indicated size of the above noted exemplary septum 52 and a 12 degree taper, diametric resealing compression of the septum 52 adjacent the channel 62 is on the order of 10'~t.
The channel 62 is bounded in part by a septum supporting ridge 62a. The channel 62 can typically have a depth in a range of .050-.070 inches (.127 - .1778 centimeters).
A peripheral surface 64 of the septum 52 slidably engages the tapered i uteri or surface 60 as the septum 52 s 1 i des i nto the fi rst end 42. The annular channel 62 which underlies the interior peripheral surface 56 of the septum 52 is provided to permit the septum 52 to deform when a blunt cannula is inserted through an opening 66 therein.
The housing 40 is also formed with a fluid flow path 68 such that fluids injected via a blunt cannula inserted through the resealable opening 66 can flow into the catheter 36 for delivery to hand H of the pats ent.
The swaged end members 58 apply axial forces to the septum 52 thereby creating the domed exterior peripheral surface 54. The axial forces applied by the end members 58 slightly deform the regions 52a and 52b. In contradistinction, the tapered internal surface 60 applies radially directed forces to the septum 52, thereby forcing the opening 66 into a resealed condition.
In an alternate embodiment, the surface 52 could be formed as a flat, as opposed to a domed, surface.

2~~~~~~
Once the infection site 34 is lockingly engaged with the catheter 36, a sealed system is formed through which fluids can be infused into the catheter 36. The resealable septum 52 closes the fluid flow path 68.
Figures 4A and 4B illustrate in combination the infection site 34, a blunt shielded cannula 80 and a syringe of a conventional type 82. The syringe 82, as is well known, can be formed with a cylindrical i hollow end 84 which carries a male luer-type twist lock thread 86. A
hollow centrally located cylindrical fluid flow member 88 is in fluid flow cortmunication with an interior region 90 of the syringe 82.
The shi el ded bl unt cannula 80 carri es at a fi rst end 92 a femat a luer twist-lock flange 94. The flange 94 will slidably engage the threads 86 of the end 84. Hence, the shielded blunt cannula 80 can be locked to the syringe 82 forming a closed fluid flow pathway. The shielded cannula 80 could alternately be formed fixedly attached to the syringe 82.
The shielded blunt cannula 80 carries a cylindrical hollow protective shield 96 which surrounds a centrally located hollow, elongated cylindrical blunt piercing member 98. The cylindrical blunt pi erci ng member 98 has a total 1 ength on the order of three ti mes the thickness of the septum 52 in order to ensure complete penetration.
The cylindrical blunt piercing member 98 has a diameter on the order of 1/3 the diameter of the septum 52. The shield 96 is desirable and useful for maintaining the piercing member 98 in an aseptic condition by preventing touch contamination prior to the shielded cannula 80 engaging the pre-slit septum 52. Also, the shield helps to align the piercing member with the pre-slit septum.
The cylindrical blunt piercing member 98 can slidably engage the pre-slit septum 52, best illustrated in Figure 4B, thereby extending through the preformed opening 66 therein. As illustrated in Figure 4B, _17_ ~~3~~~~~
r r when the piercing member 98 slidably engages and pierces the septum 52, the region 52a deforms by expanding into and filling, at least in part, the annular channel 62.
The deformation facilitates insertion of the piercing member 98 through the slit 66. Subsequent to the piercing member 98 slidably engaging the injection site 34, the interior region 90 of the syringe 82 is in fluid flow communication with the flow path 68, of the injection site 34 via flow paths 88a and 98a respectively of the syringe and the blunt piercing member 98.
In this engagement condition, the septum 52 seals completely around the piercing member 98. Hence, exterior gases, liquids or airborne matter will be excluded from the channel 68.
Subsequent to infusing fluid from the syringe 82 into the fluid flow pathway 68, hence into the catheter 36 and the hand H of the pats ent, the syri nge 82 wi th 1 ocki ngly engaged shi el ded cannul a 80 can be slidably withdrawn from the injection site 34. Subsequent to this withdrawal, the septum 52 reseals the opening 56 therein.
The opening 66 will repeatedly reseal, when the piercing member 98 is removed, provided that the pressure (in the septum 52 of the opening 66) created by interaction of the septum material properties and compression supplied by the housing exceeds the pressure challenge of the fluid contained within. Blunt cannula do not haphazardly core, lacerate, or otherwise damage' the sealing interface 66 as conventional needles do, thereby allowing repeatable resealability. However, septum material properties, thickness, and compression allow resealability for a finite number of conventional needle insertions. The combination injection site 34 and catheter 36 then return to its pre-infusion, sealed condition.
Fi gures 5A and 5B i 11 ustrate the pre-s 1 i t i n j ecti on s i to 34 used in combination with a blunt cannula 80a. The cannula 80a includes a hollow body portion 92a with a luer flange 94a, a piercing member 98a, and manually operable elongated locking members 100a and 100b.
Alternately, a tubing member could be affixed to the hollow body portion 92.
Curved end regions 100c of the members 100a and 100b slidably engage the second end 44 of the housing 40 when the piercing member 98a of the blunt cannula 80a has been forced through the pre-formed opening 66, best illustrated in Figure 5B. The embodiment illustrated in Figures 5A and 5B has the advantage that the infusion cannula 80a cannot accidentally disengage from the pre-slit septum 34 during the fluid infusion process. It will be understood that while spring-like deflecting members 100a and 100b are illustrated in Figures 5A and 5B
that other forms of locking members are within the spirit and scope of the present invention.
Figure 6 illustrates an alternate pre-slit infection site 34a. A
tubing member 102 can be fixedly attached to the cylindrical hollow fluid flow member 46. The embodiment 34a of Figure 6 utilizes the same structure for the septum 52 including the tapered surface 60 and the underlying annular channel 62 as does the embodiment 34 in Figure 3.
The shielded cannula 80 can be utilized with the infection site 34a as previously described.
In the event that it is desirable to infuse solution from a container 104 with a connectional port 106, a fluid administration set 110 of a conventional variety may be utilized. The set 110 includes a spike connector 112 at a first end. The spike connector 112 is designed to pierce the port 106 of the container 104. The set 110 can also carry a slidably engageable connector 114 of a known type at a second end. As illustrated in Figure 7, the connector 114 can slidably engage the hollow cylindrical member 92 of the shielded cannula 80, thereby placing the interior fluid of the container 104 into fluid conmunication with the tubing member 102.
Figure 8 illustrates yet another alternate 80b to the shielded cannula 80. The piercing member 98 carries a tubing member 118 fixedly attached thereto. The tubing member 118 could be coupled at a second end to a container such as the container 104.
_19_ i ~ ~ ~ ~ ~ ~ v The present pre-slit injection site can be directly affixed to a container 120 as illustrated in Figure 9. The container 120 includes a rigid hollow cylindrical access port 122 affixed thereto. The access port 122 includes a fluid flow channel 124 in fluid flow communication with the interior of the container 120.
Sealingly affixed to the port 122 is a pre-slit injection site 126.
The site 126 includes a cylindrical housing 128 which carries at a first end 130 a septum 132 with a slit 134 formed therein. The fi rst end 130 has been swaged to form an annul ar U-shaped retai ni ng member 136. The retaining member 136 in turn forms a domed exterior peripheral surface 138 on the septum 132.
The first end 130 also includes a tapered interior force applying surface 140 and an annular channel 142 underlying the septum 132. As discussed previously, the channel 142 provides a space into which the septum 132 can deform when a blunt cannula is forced through the resealable opening 134.
Further, as illustrated in Figure 9, the injection site 126 can be covered by a removable cover 146 of a type used with the conventional port 106 of the bag 104.
While the bag 120 is illustrated formed with two ports; the conventional pierceable port 106 and the pre-slit injection site 126, it will be understood that as an alternate (Figure 10), a container 150 could be formed which includes only the pre-slit injection port 126. The removable cover 146 could be used in combination with the container 150.
As illustrated in Figure 11, the pre-slit injection site 126 can be utilized for the purpose of injecting fluid from the syringe 82, coupled to the shielded cannula 80, into the container 150. When so utilized, the blunt piercing member 98 is used to place the interior fluid containing region 90 of the syringe into fluid flow communication with the interior of the container 150.
Figures 12 and 13 illustrate a fluid flow coupling system 151 havi ng as a fi rst el ement a pre-s 1 i t i n j ecti on si to 126a. The s i to 126a is the same as the site 126 except for a plurality of exterior threads 153 formed on an exterior peripheral surface 155 of the housing 128a. A second element of the coupling system 151 is a shielded blunt cannuta 157.
The shielded blunt cannula 157 is sealingty affixed to a flexible tubing member 159 by means of a proximal hollow cylindrical member 161. The member 161 extends into a hollow cylindrical shield 163 to form a blunt piercing member 165.
The shield 163 carries, on an interior peripheral surface, a set of coupling threads 165. The threads 165 match the threads 153.
The two connector elements 126a and 157 slidably engage one another when the shielded cannula 157 moves in an axial direction 167 toward the infection site 126a. The blunt piercing member 165 penetrates the septum 132a.
The coupling member 157 can then be rotated in a direction 169 such the interior set of threads 165 carried thereon engages the exterior set of threads 153. As a result, the two coupling members 126a and 157 are lockingly engaged together with the insertion member 165 extending through the opening 134a in the septum 132a.
Hence, fluids can flow from the container 150a via the connector system 126a and 157 through the tubing member 159 to the recipient.
In3ection sites of the type described above are also usable in connection :with other fluid flow coupling components. For example, with respect to Figure 14, a pre-slit in3ection site 160 of the type described above can be used in combination with a spike connector 162 of a conventional variety. Spike connectors such as the spike connector 162 can be used to pierce conventional ports such as the port 106 of the container 104 (figure 6). When the spike connector 162 is so used, the pre-slit infection site 160 can then be utilized for the purpose of coupling to other fluid administration sets.
The infection site 160 illustrates an alternate form of swaging the first end 42c for the purpose of retaining the septum 52c therein. The first end 42c can be swaged so as to form an annularly shaped, spiral, spring-like member 164. The member 164 has a free end 164a which=engages the exterior dome-shaped peripheral surface 54c of the septum 52c. The spiral, spring-like swaged member 164 20~~~f r will tend to uncoil, thereby continuously applying axial force to the septum 52c and maintaining the domed exterior peripheral surface 54c.
In yet another alternate, Figure 15 illustrates a pre-slit infection site 166 formed in a Y-function member 168. The Y-function member 168 is fixedly attached to first and second tubing members 170 and 172 respectively.
As an alternate to forming the slit 66d completely through the septum 52d, as illustrated in Figure 16, a slit 66e can be formed only partly through the septum 52e. Such a structure has the further advantage that, until used for the first time, the septum 52e is completely sealed.
The septum 52e can be formed in two parts. One part can have a slit, such as the slit 66e, extending entirely therethrough. A
second part can be formed without a slit. These two parts can be located adjacent one another in the first end 42e of the infection site.
The slit 66e may be longer on the top of the septum than the j bottom. This feature aids blunt cannula alignment with the slit upon insertion, and aids resealability by minimizing the critical slit sealing interface area.
In accordance wi th the present i nventi on, the s 1 i t coul d have a length with a range on the order of .03 inches (.0762 centimeters) to .150 inches (.381 centimeters). Preferably, a slit length on the order of .07 inches (.1778 centimeters) will be used in combination with a blunt cannula having a diameter on the order of .1 inches (.254 centimeters).
When initially used, the blunt cannula piercing member, such as the member 98, will be forced through the slit 66a. The lower peripheral surface 56e will then be punctured, providing access for the blunt cannula piercing member 98 into the fluid flow pathway 68e.
Pre-slit infection sites of the type described above can be utilized in combination with burette solution administration sets.
One such set 176 is illustrated in Figure 17. The set 176 includes a pre-slit infection site 178 of the type described above. The 2~1~9~63 infection site 178 is affixed to an exterior planar surface 180 of the burette 182. A removeable cover 184 can be used to maintain the infection site 178 in an aseptic condition until blunt cannula 186 or 188 is inserted therethrough.
Figures 19 through 23 disclose a method of making a pre-slit infection site in accordance with the present invention. In a first step, a housing 200 is provided. The housing 200 has an interior tapered surface 202 at a first end 202a thereof. The interior peripheral surface terminates in an annular channel 204. A
cylindrical septum 206 can be provided adjacent the end 200a.
In a second step, the septum 206 can be forced into the end 202a of the housing 200 and slightly deformed by the tapered peripheral surface 202 using an axially moving die 210. When positioned by the die 210, the septum 206 is located adjacent an internal annular right 212 which bounds the annular channel 204.
In a thi rd step, a second di a 214 can be uti 1 i zed to swage the end 200a into spiral-shaped, spring-like members 200b which apply axially directed forces against an exterior peripheral surface 206a of the septum 206. The axially directed forces form the flat surface 206a into a domed exterior peripheral surface 206b as illustrated in Figure 23.
Simultaneously, with swaging the end members 200a so as to lock the septum 206 into the housing 200 and to form the domed exterior peripheral surface 206b, a knife 216 can be utilized to form a slit in the septum 206. Alternatively, the slit may be cut by a separate die in a separate step. If the septum 206 is formed as an extrusion, the slit can be created during the extrusion process. If the septum 206 is formed by stamping from a rubber sheet, the slit tan be cut during the stamping process. If the septum 206 is formed by compression molding, the slit can be cut during the trimming process.
In order to extrude the slit into rod, a flat pin extrusion bushing can be used. A trailing ribbon may be attached to the bushi ng. The ri bbon would prevent curs ng maters al across the si i t.
The ribbon or wire could be placed in the rod core and later 2~4~~b~
stripped out leaving a slit. An inert substance, such as silicone oil, could be coextruded in the center of the rod to prevent curing across the slit and provide lubrication and a visible target for cannula insertion.
Figures 24 and 25 illustrate alternate swaging steps wherein a die 220 moving axially toward the housing 200 swages the end region 200a so as to form an annular U-shaped region 200c and the exterior domed peripheral surface 206c.
The dies 214 or 220 can be formed with various alternate shaped swaging surfaces 224, as illustrated in Figure 26, depending on the precise shape of the end swage which is desired. It will be understood that all such variations in the swaging operation are within the spirit and scope of the present invention.
The injection site configuration need not be limited to the configurations depicted in Figures 3 through 5B, 9, and 12 through 16. Rather, several configurations could be constructed without departing from the scope of this invention. Any such configuration would provide a flexible pre-slit sealing member captured in a housing which provides compression to create a seal against pressure and a void region to accommodate deformed portions of the sealing member material only when the material is deformed or displaced by a blunt cannula piercing member. One such possible configuration is depicted in Figures 27 and 28.
Figures 29 and 30 illustrate a tapered cannula structure 250 which is an alternate to the tapered cannula 98. The cannula 250 includes a proximal end 252 with an interior region 254. The region 254 i s i n part bounded by an i nternal pert pheral wal 1 256 whi ch i s formed with a standard luer taper. The tapered cannula 250 can be formed with a luer-type coupling flange 257 at the proximal end so as to be releasably connectable to the syringe 82 as was the tapered cannula 98 previously discussed.
Extending from the proximal end 252 is a cylindrical tube having a cylindrical mid-region 258 and a distal end member 260. The C.
member 260 has a generally elongated, cylindrical shape with an exterior side wall 262. A centrally located, cylindrical, internal fluid flow path 264 extends through the distal end member 260 and mid-region 258 in fluid flow communication with the interior region 254.
The distal end of the end member 260 has a tapered exterior surface 266. The tapered exterior surface 266 minimizes insertion force as the cannula 250 is berg forced through a slit of a septum, such as the slit 66 in the septum 52. The angle of taper of the surface 266 is preferably in a range between 1 to 15 degrees.
The member 260 is also provided with a plurality of elongated grooves 268. The grooves 268 in the exterior wall of the member 260 decrease the surface area of contact at the cannula/septum interface during insertion of the cannula into the infection site 34. This reduced exterior contact surface area decreases the frictional component of the insertion force.
In one embodiment, the tapered blunt cannula 250 may have overall insertion length, corresponding to combined axial lengths of mid-region 258 and end member 260, on the order of 0.375 inches (.9525 centimeters).
An alternate cannula structure 280 is illustrated in Figures 31, 32, and 33. The cannula structure 280 includes a proximal end region 282 corresponding to the end region 252 of the cannula 250.
The region 282 includes a luer flange 283. The cannula 280 also includes a central, elongated, cylindrical region 288.
The central region 288 carries at a distal end thereof an elongated cylindrical end member 290. The member 290 includes an exterior, peripheral, cylindrical surface 292 (Figure 31). The surface 292 is interrupted by a plurality of spaced-apart, elongated slots or apertures 294. The slots 294 are defined by first and second spaced-apart, elongated, parallel side surfaces 294a and 294b. Each of the slots terminates in an end surface 294c at the central region 288.
A fluid flow path 294d extends through the cannula 280. The flow path 294d is in fluid flow conununication with the slots 294.

I

Between the slots 294, at a distal end of the region 290, the exterior surface 292 terminates in tapered end regions 298 to facilitate insertion of the cannula into a pre-slit injection site.
The slots 294 themselves also function to decrease the surface contact area, and this further minimizes the insertion force.
The slots 294 are oriented substantially 90 degrees apart around a longitudinal axis 300. The slots 294 increase the internal flow path cross-section. This increases the fluid flow rate.
The slots 294 also provide for enhanced dispersion characteristics owing to the fluid flowing radially out through the slots 294. This radial flow, effecting as change in fluid flow direction of about 90 degrees, promotes flushing and dispersion of fluid through the injection site 34.
Another embodiment of a blunt cannuta 310 is illustrated in Figures 34 through 37. The cannula 310 is formed with an enlarged proximal connection region 312 corresponding to the region 252 of the cannula 250. The region 312 includes a luer flange 313 and a central fluid flow region 314.
An intermediate, cylindrical region 318 extends from the proximal connection region 312. The cylindrical intermediate region 318 includes a fluid flow path 320 in communication with the fluid flow region 314.
The end region 324 extends from the region 318 and includes a first cylindrical portion 326 into which the fluid flow path 320 extends. The region 326 terminates in a tapered exterior surface 328. The tapered exterior surface 328 merges with a centrally located lead post or guide post 330. The lead past 330 terminates in a hemispherical end surface 332.
The lead post 330 helps locate the septum slit 66 prior to insertion and facilitates penetration of the septum slit 66 by the cannula. The lead post 330 facilitates insertion by providing a very low insertion force at the beginning of the insertion step as the cannula is pushed through the slit, such as the slit 66.
In a preferred embodiment, the guide post 330 can have a length on the order of 0.060 inches (.1524 centimeters) and a diameter on the order of 0.050 inches (.127 centimeters).

The end region 318 includes a novel structure for increasing the flow rate and enhancing dispersion characteristics. In particular, the region 318 includes three radially oriented slots 338. Each slot 338 has sides 339a and 339b which each lie along a radius of the cylindrical portion 326 as best illustrated in Figure 37. The fluid flowing through the cannula 310 undergoes a change in direction (of up to about 90 degrees relative to the cannula center line 337) in the slots 338. This change in direction increases fluid dispersion. Further, since the slot 338 open radially, fluid flow can be maintained even if the end surface 332 of the cannula is pushed up against any material in the system in which the cannula is inserted.
Another embodiment of the tapered cannula of the present invention is illustrated in Figures 38 through 40 and is designated generally therein by reference numeral 340. The cannula 340 includes a proximal end 342 which can include a luer coupling flange 344 for cooperating with a suitable mating structure on a syringe.
The proximal end 342 also defines an interior region 346.
Extending from the proximal end 342 is a generally cylindrical mi d-regi on 348. Extendi ng from the mi d-regi on 348 i s an end member or region 350 which includes a tapered surface 352.
The distal end of the end region 352 terminates in a blunt, arcuate end surface 356. Defined within the mid-region 348 and end region 350 is an internal fluid flow channel 354 which communicates with the interior region 346. Fluid discharges from the flow channel 354 via grooves or apertures 358 in the end region 350. The change in direction of the fluid flow as the fluid passes from the interior channel 354 through the apertures 358 improves fluid dispersion with respect to mixing or flushing in the system downstream of the cannula (e. g., the infection site, drug vial, etc.). The apertures 358 may also function to increase withdrawal force or tug resistance.
Moreover, since the fluid passes radially out through the apertures 358, fluid flow through the cannula 340 can be maintained even when the distal end surface 356 of the cannuta is bottomed out or pushed against any material in the system in which the cannula is inserted.
The structure of the cannula 340 is adapted to be constructed with a minimal lead post length (i.e., the portion of the cannula distal end between the end surface 356 and the interior flow channel 354). Further, the design accommodates the use of a minimal tip diameter, minimal taper angle, and minimal cannula diameter. The minimization of these parameters results in a decrease in the peak insertion force required to properly install the cannula in the injection site.
Preferably, the total cross-sectional flow area through the three apertures 358 is about three times the cross-sectional flow area of the interior channel 354. This enhances the flow rate capability compared with a simple open ended cylindrical flow channel of equal length.
The design of the cannula 340 also is effective in reducing or limiting "kick back" or recoil of the cannula after insertion. The resilient material of the septum in an injection site can subject the cannula to forces tending to push the cannula back out of the septum. The kick back forces on the cannula 340 are minimized by the provisions of the generally cylindrical mid-region 348.
Another embodiment of the cannula of the present invention is illustrated in Figures 41 and 42 wherein the cannula embodiment is designated generally therein by the reference numeral 360. The cannul a 360 i ncl udes a proxi mal end 362 defi ni ng an i uteri or regi on 364 and having a luer flange 366 for connection to a suitable mating engaging structure.
A generally cylindrical mid-region 366 extends from the proximal end 362, and an end region 368 extends from the mid-region 366. As with the previous embodiment of the cannula 340 illustrated in Figures 38 through 40, the embodiment of the cannula 360 minimizes kick back or recoil owing to the provision of a substantially cylindrical mid-region 366. This design also increases withdrawal or tug resistance.
A generally cylindrical internal flow channel 370 extends through the end regi on 368 and mi d-regi on 366 i n communi cats on wi th the interior region 364 of the proximal end region 362. The end region 368 is provided with a tapered surface 372. The design permits the use of a very small taper to minimize the insertion force.
Further, the design permits the cannula 360 to be constructed with a small tip diameter, small taper angle, and small cannula diameter so as to reduce the peak insertion force.
Another embodiment of the cannula of the present invention is illustrated in Figures 43 through 44 and is designated generally therein by reference numeral 380. The cannula 380 includes a proximal end 382 with a luer flange 384. An interior fluid flow region 386 is defined on the interior of the proximal end 382.
Extending from the proximal end 382 is a mid-region 388. A
distal end region 390 extends from the mid-region 388. An internal fluid flow channel or path 392 extends through the end region 390 and mi d-regi on 388, and i s i n conmuni cats on wi th the i nteri or fl ow region 386.
The end region 390 has an exterior tapered surface 394. This facilitates insertion of the cannula into the infection site. In contrast, the mid-region 388 is generally cylindrical so as to minimize kick back and increase the withdrawal force or tug resistance.
Further, to provide even greater withdrawal force, the mid-region 388 includes an annular barb 396. The barb 396 has a sufficient radius so as to preclude damage to the septum of the infection site and so as to accommodate molding in a straight draw tool. The maximum diameter of the annular barb 396 may typically be on the order of 0.02 inches (.0508 centimeters) greater than the diameter of the cylindrical mid-region 388. Although the barb 396 functions to prevent inadvertent removal of the cannula 380 from the septum of the infection site, removal of the cannula 380 can still be achieved by entering a sufficiently great axially directed removal force on the cannula 380.
Still another embodiment is illustrated in Figure 45 which includes a blunt tapered cannula insertion member 400 for insertion 2Q~~Q~~
i nto a pre-s 1 i t i n3 ecti on si te, the cannul a 400 havi ng a di stal end region 402 with a tapered exterior surface which in the preferred embodiment is an approximately 8 degrees taper. The defined aperture 404 for fluid flow is disposed at the end 406 of the distal end region 402. The end 406 includes a radiused tip defined by a radius of approximately 0.01 inch (.025 centimeters). The radiused tip reduces insertion force, assists in locating the slit in the in3ection site and in addition has the practical advantage of facilitating complete filling of the cannula mold cavity.
The tapered surface of the distal end region 402 has an axial length of approximately 0.10 inch in the preferred embodiment, Adjacent to the tapered distal end region is a generally cylindrical region 408 for entering into the infection site behind the distal end region 402, thereby reducing kick back during insertion. The generally cylindrical region 408 has a small draft angle such as about one-half degree.
The force required to insert any of the above-discussed embodiments of the blunt tapered cannula into the septum of the infection site depends upon a number of factors: friction at the cannula/septum interface, cannula diameter, cannula taper angle, and degree of septum compression. The cannula/septum interface friction is, in turn, dependent upon lubrication, if any, material properties, and surface finish. It will be understood that the friction at the cannula/septem interface can be reduced by providing a smoother surface finish on the cannula (e.g., by sand blasting the cannula exterior surface) or by molding the cannula so as to produce a matte finish. Conventional lubricants can also be used to further reduce the friction and thereby lower the insertion force required.
In the embodiments of the cannulae described herein, the mid-region and -the tapered distal end region may be alternatively characterized as together forming at least one tube defining a fluid i, flow path therein with the tube having a distal end region for penetrating the infection site.

204~~t~3 In preferred contemplated embodiments, the exterior surface of the di stal end region may have a taper angl a as smal 1 as between 1 and 15 degrees.
Further, a locking means, such as the locking arms 100a and 100b discussed with reference to Figures 5A and 5B, may be provided on the cannula embodiments illustrated in Figures 29 through 44 to permit the cannulae to be releasably locked to the injection site.
The above described insertion members, usabie as part of a blunt cannula, are preferably molded of a plastic formulation including silicone or other lubricant. The use of silicone or other lubricant increases the ease of insertion of that member into the pre-slit injection site.
Figure 46 shows a blunt cannula member, generally at 410, for use with the pre-slit injection sites disclosed herein. The blunt cannula member 410 generally has a hollow cylindrical portion 412 and a blunt cannula portion 414. The blunt cannula member 410 is preferably~of one-piece molded, rigid plastic, with a through bore 416 extending through the blunt cannula portion and communicating with the hollow cylindrical portion.
The hollow cylindrical portion has a pair of opposed raised flanges or threads 418 for threaded engagement with other devices, for example, syringes, administration sets and the like.
Internally, the hollow cylindrical portion 412 may also be adapted for attachment to other devices. For example, the internal surface of the cylindrical portion may define a tapered female luer surface for interfitting with the standard male luer connectors utilized in many medical devices, as is well known in the medical field. The hollow cylindrical portion 412 may also include a pair of opposed flat surfaces 420 for cooperation with a tip protector or shield such as depicted in Figure 47, which is described below.

w~~~~~c~J
The blunt cannula portion 414 extends generally axially from the hollow cylindrical portion 410. The cannula portion is generally cylindrical throughout the greater part of its length, with a tapered end portion 424, which narrows to the blunt end edge 426.
Figure 47 is an enlarged view of a hollow shield or tip protector 428 for covering and protecting a blunt cannula, such as, for example, the blunt cannula portion 414 of blunt cannula member 410 shown at Figure 46 or other blunt cannulae as disclosed herein.
The shield 428 has a generally elongated housing 430, which is open at one end for receiving the blunt cannula. At the open end, the interior surface 432 of the shield generally corresponds to the shape of the exterior surface of the blunt cannula portion 412, i.e., it is generally cylindrical, with a pair of opposed flat surfaces 434 matching the flat surfaces 420 of the blunt cannula device 410. Further, either surfaces 432 or 434 can be provided with standing ribs to control the depth of insertion of the blunt cannula portion 414 into housing 430. The matching flat surfaces of the shield and the blunt cannula device allow a user to secure the blunt cannula onto a syringe or similar device, for example, without exposing the cannula portion 414 to touch contamination. When access to the blunt cannuta is required, the shield may simply be slidably removed from the cannula. As can be appreciated, the outer surface of the shield 428 can be shaped in such a manner or provided with a roughened finish to assist the user in gripping or removing shield 428 from the cannula. .
Typically, the blunt cannula 410 or other blunt cannula device and shield 428 would be provided in a joined sterile configuration.
The shield 428 can be provided with channels to facilitate gas sterilization. The user preferably leaves the shield on to prevent inadvertent contamination when attaching the blunt cannula to the mating product, e.g., the male luer fitting of a syringe or administration set. The matching flat surfaces 432 of the shield w f and 420 of the bl unt cannul a act as a wrench to al 1 ow any twi sti ng force appl i ed to the shi el d to be transmi tted to the cannul a, e.g. , for threading the cannula onto a luer lock device or for applying a twisting force in making a luer slip connection.
Fi gure 48 shows what i s conmonly referred to as a hepari n 1 ock, general 1 y at 436, empl oyi ng a pre-s 1 i t i n~ ecti on s i to 442 and other features of the present invention. The heparin lock 436 may be attached, for example, to the end of a venous catheter.
During intravenous therapy, it is not unusual for the administration of liquid to be interrupted from time to time.
Instead of performing a new catheterization procedure each time administration is to be restarted, it is often preferable to utilize the same catheter, thus reducing the number of catheterization procedures, more colloquially referred to as the number of "sticks,"
and reducing the trauma and risk associated with each such procedure.
To maintain the patency of the catheter during interruption, and prevent blood from clotting and clogging the catheter, it is a common practice to attach an infection site over the catheter an fill the catheter with heparin or other anticoagulant. The heparin lock 436 shown in Figure 48 is for attaching to a patient's catheter for maintaining patency of the catheter during interruption in fluid flow.
The heparin lock 436, also shown in Figures 49 and 50, has a first end portion 438 in the form of a male luer connector for sealingly engaging a complementary female tapered luer surface on the patient's catheter (see cross-sectional view in Figure 50). The other end of the heparin lock 436 includes a pre-slit infection site 442 of the type previously discussed in detail. An axial fluid flow passageway 444-communicates between the pre-slit infection site and the end of the male luer for fluid flow therebetween.

~~~~6~
The tapered exterior surface of the male luer 438 is substantially surrounded by generally cylindrical gripping collar 446. Threads 448 are provided on the interior surface of the collar for threadedly engaging a standard luer lock connector, as is often found on intravenous catheter devices. The exterior surface of the collar 446 is generally arcuate in cross-sectional shape (as best seen in Figures 49 and 50), to provide a gripping surface. The surface curves generally outwardly in a direction toward the pre-slit injection site 442. This allows the nurse, physician or attending staff member to grip the heparin lock and to reduce any force exerted during entry of a blunt cannuta into the pre-slit injection site form being transmitted to the venous catheter. For improvement in the gripping, a series of axial grooves 450 are provided in the exterior surface of the collar 446.
In accordance with other aspects of the present invention, the heparin lock includes features which allow attachment to various styles or types of blunt cannulae. For example, as best seen in Figure 48, threads 452 are provided on the exterior surface of the cannula for' threaded locking engagement to a blunt cannula device of the type having an interiorly threaded sleeve or shield, such as depicted in Figure 50. The heparin lock 436 also includes a generally radially-extending shoulder 454 for locking retention of resilient gripping fingers on a blunt cannula device of the type shown in Figure 49.
As a safety measure, and to prevent staff confusion of an injection site of the present invention with other injection sites which are for use with needles, a visual identifier is also provided with the heparin lock of Figure 48. Such an identifier may also be provided with the other pre-slit injection site devices described above. The identifier may take the form of any unique color or configuration which allows the staff member to determine that the heparin lock 436 embodies the present invention and is ~~~~~J
intended for use with blunt cannulae. In the preferred embodiment, however, the visual identifier comprises a distinct color identifier and, more particularly, is a brightly colored ring 456 (Figure 48) circumscribing the pre-slit infection site 442. While the color selected may vary depending on application, it should be a color which is distinct from and in contrast to the color of any plastic used in the manufacture of the heparin lock.
As noted earlier, the heparin lock 436 depicted in Figure 48 may be used with a variety of styles or types of blunt end cannula devices. For example, the heparin lock may be used with a bare blunt end cannula, such as that depicted in Figure 46, which does not lock onto the heparin lock. Alternatively, as shown in Figure 49, the heparin lock may be used in combination with a blunt cannula device 458 which utilizes a pair of resilient gripping fingers 460 for retaining the blunt cannula in joined relationship with the heparin lock. The blunt cannula device 458 depicted in Figure 49 has a generally cylindrical, hollow base or body portion 462 and a blunt cannula portion 464 substantially as described earlier in connection with Figure 46 or with the other figures of the present inventions: A fluid flow path 463 extends through the blunt cannula portion and communicates with a female luer connection 465 defined in the hollow body portion for fluid flow through the blunt cannula device. Flanges or threads 467 on the body portion permit the attachment of a male luer lock connector to the blunt cannula device.
Each of the gripping fingers 460 is mounted to the body portion of the blunt cannula device by an intermediate radially extending wall portion 466. The gripping fingers have radially inwardly di rected retention means 468 at one end for engagi ng agai nst radi al shoul der 454, and gri ppi ng means 470 at the other end for squeezi ng and spreading the retention means to release the blunt cannula device from the heparin lock. In the as-nblded condition, the gripping fingers are biased radially inwardly, toward the blunt cannula portion 464. Because of the natural resilience of the plastic, the retention end of the fingers may be spread by squeezing.
the gripping end of the fingers. The natural resilience will hold the retention means in the lock position (shown in Figure 49) until manually released.
When used in combination with a heparin lock such as depicted in Figure 48, the blunt cannula device 458 may be attached by simply pushing the blunt cannula into the pre-slit in3ection site 442. A
forward facing tapered surface 472 (Figure 49) in front of the threads engages a similar tapered surface 474 on the retention means 468 so as to naturally spread the fingers 460 apart as the blunt cannula is forced into the pre-slit infection site. After the blunt cannula is inserted into pre-slit infection site sufficiently far so that the retention means are beyond the radial shoulder 454, the gripping fingers will snap inwardly behind the shoulder, holding the blunt cannula in the position depicted in Figure 49. To withdraw the blunt cannula, the user need simply squeeze the gripping end 470 of the handles, which will spread the retention means of the fingers and release the blunt cannula device from the heparin lock.
The heparin lock of Figure 48 is also useful with a blunt cannula device 475 having an internally threaded shield or sleeve, such as depicted in Figure 50. Figure 50 illustrates the blunt cannula device 475 as it first enters the pre-slit infection site 442 of the heparin lock and prior to engagement with the heparin lock threads 452. the blunt cannula device shown in Figure 50 has a generally cylindrical outer wall 476 and a transverse end wall 478.
A blunt cannula 480 extends through the end wall. The blunt cannula may be constructed in generally the same manner as the blunt cannula portion depicted in Figure 46 or in accordance with the other embodiments of the present invention.
The cylindri cal outer wall 476 preferably extends beyond the tip end of the blunt cannula to protect the cannula against inadvertent touch contamination. The interior surface of the cylindrical wall is preferably threaded at 482 for threadedly engaging the device to which the blunt cannula is attached, such as the heparin lock depicted in Figure 48. As noted above, Figure 50 depicts the blunt cannula device 475 at an initial entry position. Further insertion of the blunt cannula and simultaneous turning of the blunt cannula device results in threaded locking engagement between the blunt cannula device 475 and the heparin lock.
The blunt cannula 480 of the blunt cannula device 475 is in fluid communication with an entry port, generally defined by wall 484, which extends in the opposite direction of the blunt cannula, from the other side of the transverse wall. The entry port is for attachment to other devices such as syringes, tubing, administration sets or the like, and may take such form as is appropriate for the particular device to which it is attached. The entry port 484 preferably has a tapered inner surface for receiving a standard male luer fitting of a syringe or the like, and may include external threads or flanges 485 for attachment to a luer Lock. Another embodiment provides the entry port 484 as having a tapered inner surface for receiving a tubing fit. A fluid passageway 486 extends continuously through the entry port and the cannula portion for flow therebetween.
Figure 51 shows, in cross-sectional view, a further alternative device 492 which may employ the pre-slit infection site of the present invention. The pre-slit infection site device 492 depicted in Figure 51 is an in-line device, preferably for adding medication to a fluid stream, removing a sample from a fluid stream, or similar application. The device depicted in Figure 51 has a fluid entry port 494 at one end, a fluid exit port 496 at the other end, and a fluid passageway 498 communicating directly between the entry and exit ports. The inlet and outlet may have such additional features as are useful zonnecting the infection site device within a fluid flow path. As depicted, the inlet defines a slightly tapered female surface and the outlet defines a similarly female tapered surface N
I
which are preferably joined by solvent bonding a similar attachment to plastic tubing of an administration set, extension set or the 1 i ke. Standard 1 uer fi tti ngs or surfaces coul d al so be provi ded at the inlet or outlet, as desired.
For injecting liquid into the fluid stream or sampling the fluid stream, the device has a side channel 496 which communicates between a pre-slit septum 502 made and assembled in accordance with the present invention, and the fluid passageway 498. The septum 502 is made as described above, and mounted and held in position by a swaged-over wall 504, as previously described, which may include a colored identifier ring around the septum.
In accordance with the present invention, a blunt cannula, such as cannula 506, may be inserted through the pre-slit septum for injecting fluid into the liquid stream flowing between the inlet and outlet, or for taking samples of the fluid stream.
The i n-1 i ne i n j ecti on si to devi ce 492 shown i n Fi gure 51 may be used in combination with a bare blunt cannula, such as that depicted in Figure 51, or may be used in combination with the blunt cannula device 458, depicted in Figure 49, when a locking relationship between the blunt cannuta and injection site is desired.
As depicted, for example, in Figure 52, the blunt cannula device 458 may be attached i n a secure 1 ocki ng rel ati onshi p to the i n-1 i ne injection site 492. As shown there, the in-line injection site has a radially extending shoulder 508 on each side of the housing, for engaging against the retention means 468 on the end of the resilient gripping fingers 460. As with the heparin lock, the in-line injection site also includes a generally tapered surface 510 defined on the exterior surface for spreading the retention means as the blunt cannula i's inserted into the injection site. As was described above, insertion of the blunt cannula into the injection site results in the retention means being spread by the tapered surface ~~~~~c~J
510 and, as the blunt cannula is inserted farther, the retention means snap into a locking position behind the radial shoulder 508.
In this arrangement, the blunt cannula is securely locked onto the in3ection site and inadvertent withdrawal is thus prevented. To remove the blunt cannula from the in-line infection site, the gripping ends 470 of the resilient fingers are squeezed, causing spreading of the retention means 468 and release from the infection site. The cannula may then be simply removed by withdrawing it from the infection site.
Figure 53 depicts yet a further embodiment of the present invention. That figure depicts a blunt cannula device 512 embodying the present i nventi on i n combs nati on wi th a syri nge 514. The bl unt cannul a devi ce 512 has a general 1 y cyl i ndri cal outer wall 516 whi ch encloses and substantially protects a blunt cannula portion 518.
The blunt cannula portion is attached to and extends from an intermediate transverse interior wall 520. The blunt cannula device 512 may be attached to a syringe in various ways. As depicted, however, the syringe 514 has a glass barrel wall which is tightly press fit into one end of the cylindrical outer wall, extending therewithin~to the transverse wall 520.
Although various syringes may be used in connection with the blunt cannula device 512 without departing from the present invention, the syringe depicted in Figure 53 is of the type prefilled with a medical liquid such as heparin. Although it does not form a part of the present invention, for purposes of completeness, the syringe depicted in Figure 53 has a pair of resilient pistons 522 spaced apart, with the fluid to be dispensed contained between the pistons. A plunger rod 524 pushes the pistons forward until the forward most pi ston engages agai nst an entry port 526 whi ch extends in a direction opposite the blunt cannula 518. The forwardmost ' piston has a frangible portion, which is pierced by the entry port, releasing the liquid contained between the pistons for expulsion through the blunt cannula.

2~~~~~~~
In accordance with the present invention, the blunt cannula portion 518 is substantially protected from inadvertent touch contamination by the outer cylindrical wall 516. To permit the blunt cannula to be used, however, with the in-line in3ection site 492 or a similar device, a pair of opposed, generally U-shaped recesses 528 are provided in the cylindrical wall for receiving the inlet and outlet portions 494, 496 of the in-line in3ection site when the cannula is attached to it. This arrangement is depicted in a perspective view in Figure 56. As shown there, the blunt cannula device 512 may be attached to the in-line infection site by inserting the blunt cannula portion into the pre-slit infection site, with the U-shaped recesses 528 receive the inlet and outlet portions 494, 496 of the in-line infection site, thus allowing the bare cannula to be inserted sufficiently far into the pre-slit infection site.
Figure 54 shows a shield or tip protector 530 for a blunt cannula device of the type shown in Figure 53. The tip protector 530 has a generally cylindrical outer wall 532 with raised ribs 534 for gripping. The cylindrical wall is sized to slip over the end cylindricalv wall 514 of the blunt cannula device 512, and is sufficiently long to extend beyond the U-shaped recesses to completely enclose and protect the blunt cannula 518 during shipping, storing and between uses, if so desired.
Concentrically disposed within the cylindrical wall 532, the tip protector has an axially extending, hollow tube 536 for slidably receiving the blunt cannula 518 therewithin. The shield or tip protector 530 would typically be attached to the blunt cannula device 512 during manufacture, and removed when the syringe and blunt cannula device are used. If so desired, it may be reattached between uses to protect the cannula from any further contamination.
Figure 55 is an alternative embodiment of the blunt cannula device shown in Figure 53, and is depicted without a syringe attached to it. As shown in Figure 55, the blunt cannula device 538 similarly has a cylindrical outer wall 540, a transverse intermediate inner wall 542, a blunt cannula 544 extending axially from the transverse intermediate wall and an entry port extending in the opposite direction from the blunt cannula. The essential difference between this embodiment and the one shown in Figure 53 is the absence of the U-shaped recesses for use with an in-line injection site such as depicted in Figure 56. For ease of attachment to an injection site, the inner surface of the cylindrical wall is preferably tapered at 548.
The in-line injection site device 492 shown in Figure 51 is ideally suited for use in an arterial or venous line blood sampling system such as the one disclosed in USPN 4,673,386 entitled Blood Sampler Device, issued, June 16, 1987, in the name of Mark Cordon.
The in-line injection site device 492 of the present invention would replace the stopcock or three-way valve 49 of the Cordon patent at the blood withdrawal site.
Figure 57 shows the blood sampling system of the present invention with the in-line injection site device 492. The fluid entry port 494 and fluid exit port 496 of in-line injection site 492 are preferably joined to the plastic tubing 555 of the administration set by solvent bonding, as opposed to standard luer fittings, to reduce the risk of contamination. Using the pre-slit injection site of the present invention rather than a conventional stopcock at the blood withdrawal site also reduces the risk of contamination.
Referring to Fig. 57, the blood sampling system of the present invention includes a blood reservoir assembly 550, an in-line injection site device 492 (sampling site), a shielded blunt cannula 577 with syringe 582, and a blood transfer unit 552. The reservoir and sampling site are connected via bonded connections to pressure tubing 555 which is in turn bonded to a female luer connector 551 at the inlet side of the reservoir for attachment to a pressure transducer (not shown). The transducer is positioned in-line between the reservoir and a flush valve, downstream from a fluid supply. A male luer connector 553 is bonded to the pressure tubing at the outlet side of the sampling site for attachment to a patient catheter. The entire system is intended to be disposable.
As disclosed and described in the Gordon patent, the reservoir is an in-line syringe type device with housing, cap, plunger and seal which when actuated draws into the internal cavity a blood/saline mixture of approximately 5 cc for the standard adult and approximately 3 cc for the pediatric patient. The fluid is drawn from the patient side as opposed to the transducer side due to the high fluid restriction provided by a micro-bore hole which exists in currently manufactured flush devices. This clears the line between the patient and the sampling site of saline solution or other IV fluid and therefore permits a pure blood sample to be taken from the sampling site. After the sample has been taken, the blood/saline mixture in the reservoir is returned to the patient.
The present invention preferably provides a sampling site housing in the shape of a "Z" as shown in Fig. 58, although the T-shaped housing shown in Fig. 51 may also be used. The "Z" housing 558 has an inlet port 560 at the bottom leading to the reservoir and an outl et port 562 at the top 1 eadi ng to the pats ent to provi de for ease of debubbling during initial filling of the patient line with fluid and ease of blood clearing from the reservoir following the sampling process. The top portion 564 of the housing contains a pre-slit septum 566 made and assembled in accordance with the present invention and specifically as shown in Fig. 51. An arm or pole mount plate 568 may also be provided for holding the sampling site housing. In a preferred embodiment, the bottom portion 570 of _42_ i i the housing mates with and is bonded to raised pedestal 572. Cradle 574 may also be provided in the mounting plate, if desired, to receive inlet port 560 for alignment purposes. Slots 576 may also be provided for taping or strapping the mount plate to a patient's arm. Other means of aligning the Z-site on the mounting plate include slots in the pedestal mating with tabs or bumps on the interior of the bottom portion of the Z-site housing. The mounting plate can also be molded integra l with the Z-site if desired.
A shielded blunt cannula with a sampling syringe such as the one shown in Fig. 53 is used with the blood sampling system of the present invention. The blunt cannula is inserted through the pre-slit septum for withdrawing the blood sample as shown in Fig.
51. The blunt cannula and pre-slit infection site replace conventional needles and in3ection ports or luer lock attachment to the sampling stopcock. The blunt cannula and pre-slit infection site provide the advantage of reducing or eliminating the risk of needle sticks and blood touch contamination. The blunt cannula and pre-slit infection site also permit repeated cannula insertion and withdrawal without coring which is experienced with conventional needles and infection sites.
Referrring to Fig. 59, preferably the shielded blunt cannula 577 used with the blood sampling system of the present invention has a rotating shield 578 with U-shaped slots 580 that fit over the inlet and outlet ports of the sampling site housing as described above with reference to Fig. 56. The rotating shield prevents detachment of the blunt cannula from the sampling syringe if the syringe is rotated while attached to the sampling site. In another preferred embodiment, a blunt cannula and shield can be integrally molded into the syringe barrel as shown in Fig. 55. This would eliminate the need for a rotating shield since the cannula cannot become disengaged.
In the blood sampling system of the present invention shown in r' i Fig. 57, a blood transfer unit 552 is also provided. The blood transfer unit consists of a pre-slit injection site 554 made and assembled in accordance with the present invention and a shroud covered needle 556. Referring to Fig. 60, the blood transfer unit is shown with the shroud 584 disengaged from the needle and pre-slit injection site assembly 585. The needle is bonded to an adapter, a plastic piece with a threaded male connector 590 at one end (the needle end) and a male luer connector at the other end (the pre-slit injection site end). The shroud 584 is preferably a clear plastic housing with a female threaded connector 588 which mates with the male threaded connector 590. The pre-slit injection site has a tubul ar or cyl i ndri cal housi ng 592 deep enough to recei ve the bl unt cannula 579. The housing has a female luer connector (not shown) that mates with the male luer connector (not shown) on the adapter.
In a preferred embodiment, the shroud and pre-slit injection site housing are molded as one piece.
When a blood sample is transferred from the syringe to an evacuated tube, the blunt cannula on the syringe is inserted into the pre-slit injection site 554 and the blood sample flows through the tubular housing 592 of the pre-slit injection site, through the needle 556 into the evacuated tube. The tube is positioned within the shroud to protect the user from needle pricks and blood contamination. Preferably, needle 556 is covered by a rubber sleeve or protector. The sleeve could also be made of any elastomeric material, such as silicone and the like. When the rubber covered needle pierces the rubber stopper of the evacuated tube, the rubber sleeve pushes back from the needle. When the needle is removed from the rubber stopper, the rubber sleeve slides down to cover the needle and prevent blood drops from contacting the user. The rubber sleeve also allows the blood transfer unit to be used for more than one evacuated tube without permitting blood to leak through the needle when the evacuated tube is removed.

~~~~~~z From the foregoing, it will be observed that numerous variations and moth fi cati ons may be effected wi thout departi ng from the spi ri t and scope of the novel concept of the invention. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred. It is, of course, intended to cover by the appended claims all such modifications as fall within the scope of the claims.

Claims (17)

CLAIMS:

1. In a blood sampling system, a sampling site useable with a blunt cannula device comprising:
tubing adapted to be connected at one end to the patient in fluid communication with the patient's vascular system and at the other end to a fluid supply;
a reservoir assembly connected in-line to said tubing between the patient end and the fluid supply end, comprising a flow through reservoir housing defining an interior chamber for holding fluid, and a retractable plunger disposed within said reservoir housing adapted to be slidably retracted within said interior chamber to create negative pressure within said chamber effective to draw fluid from said tubing into said chamber;
a sampling site connected in-line to the tubing between said patient end and said reservoir assembly, said sampling site comprising a flow through sampling site housing having an inlet connected to said tubing leading to said reservoir assembly and an outlet connected to said tubing leading to the patient, thereby defining a fluid channel therebetween, wherein retraction of the reservoir plunger draws blood from said patient into the fluid channel;
means defining an access aperture in said sampling site housing in communication with said fluid channel; and flexible means carried by said sampling site housing for sealing said access aperture, said means having a curved exterior peripheral surface and a resealable opening therein such that a blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with said channel to enable blood sampling therefrom and such that said blunt cannula can be removed from said opening with said flexible means interacting with said housing so as to reseal said resealable opening.

2. A blunt ended cannula device and sampling site combination for use in a blood sampling system, said combination comprising:
an elongated member with a fluid flow channel extending generally axially therewithin and through a distal end of said member;

said elongated member being generally cylindrically along a substantial portion of its length and terminating in a generally tapered distal end portion having a blunt end edge;
a sampling site comprising a flow through sampling site housing having an inlet connected to tubing leading to the vasculature of a patient and defining a fluid channel within, the sampling site housing further defining an access aperture in communication with said fluid channel having a pre-slit elastomeric seal preventing fluid egress through the access aperture from said fluid channel; and a substantially cylindrical sheath surrounding said elongated member and being at least coextensive with and spaced apart from said elongated member to protect said member from inadvertent touch contamination, the sheath being sized to mate with the sampling site housing at the access aperture so as to guide the tapered distal end portion of the elongated member through the pre-slit elastomeric seal and enable blood to be withdrawn from within said fluid channel.

3. A blunt ended cannula device and sampling site combination as recited in claim 2 further including means defining at least two slots opposite one another at the distal end of said sheath.

4. A blunt ended cannula device and sampling site combination as recited in claim 2 wherein said sheath freely rotates around said elongated member.

5. A blunt ended cannula device and sampling site combination in accordance with claim 2 wherein the interior surface of said sheath is outwardly tapered.

6. A blunt ended cannula device and sampling site combination in accordance with claim 2 further comprising a generally cylindrical wall extending in the opposite direction from said sheath for receiving the end of a syringe.

7. A sampling site in accordance with claim 1 wherein said sampling site housing has an inlet at a lower portion of said housing and an outlet at a higher portion of said housing.

8. An adapter for transferring fluid from a blunt ended cannula and syringe to an evacuated tube, comprising:

a) an injection site having a cylindrical housing and flexible means carried by said housing for sealing one end of said housing, said flexible means having a resealable opening therein and a curved exterior peripheral surface such that the blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with a needle attached to the other end of said housing, and such that the blunt cannula can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening;

47a b) a shroud covering said needle and into which an evacuated tube can be inserted when transferring fluid from the syringe to the tube; and c) an elastomeric sleeve covering said needle.

9. A blood sampling system for withdrawing blood from a patient, comprising;

a) tubing adapted to be connected at one end to the patient in fluid communication with the patient's vascular system and at the other end to a fluid supply;

b) a reservoir assembly connected in-line to said tubing between the patient end and the fluid supply end, comprising a flow through reservoir housing having inner walls defining an interior chamber of holding fluid, a first port in fluid communication with said interior chamber connected to said tubing leading to the fluid supply, a second port in fluid communication with said interior chamber connected to said tubing leading to the patient, a retractable plunger disposed within said reservoir housing, said plunger formed in a complementary configuration to said interior chamber and adapted to traverse said chamber, and a sealing member disposed about said plunger in slidable sealing engagement with said inner walls of said interior chamber, said plunger adapted to be slidably retracted within said interior chamber to create negative pressure within said chamber, said negative pressure being effective to draw fluid from said tubing into said chamber for temporarily storing said fluid in said chamber and to draw blood from said patient into said tubing, said plunger adapted to be slidably projected toward said ports for reintroducing said stored fluid into said tubing; and c) a sampling site connected in-line to the tubing between said patient end and said reservoir assembly, said sampling site, comprising a flow through sampling site housing having a first port connected to said tubing leading to said reservoir assembly and a second port connected to said tubing leading to the patient, thereby defining a fluid channel through said sampling site housing, means defining an access aperture in said sampling site housing in communication with said fluid channel, and flexible means carried by said sampling site housing for sealing said access aperture, said means having a resealable opening therein such that a blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with said channel to withdraw blood from said tubing and such that said blunt cannula can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening.

10. A blood sampling system for withdrawing blood from a patient, comprising:

a) tubing adapted to be connected at one end to the patient in fluid communication with the patient's vascular system and at the other end to a fluid supply;

b) a reservoir assembly connected in-line to said tubing between the patient end and the fluid supply end, comprising a flow through reservoir housing having inner walls defining an interior chamber for holding fluid, a first port in fluid communication with said interior chamber connected to said tubing leading to the fluid supply, a second port in fluid communication with said interior chamber connected to said tubing leading to the patient, a retractable plunger disposed within said reservoir housing, said plunger formed in a complementary configuration to said interior chamber and adapted to traverse said chamber, and a sealing member disposed about said plunger in slidable sealing engagement with said inner walls of said interior chamber, said plunger adapted to be slidably retracted within said interior chamber to create negative pressure within said chamber, said negative pressure being effective to draw fluid from said tubing into said chamber for temporarily storing said fluid in said chamber and to draw blood from said patient into said tubing, said plunger adapted to be slidably projected toward said ports for reintroducing said stored fluid into said tubing; and c) a sampling site connected in-line to said tubing between the patient end and said reservoir assembly, said sampling site comprising a flow through sampling site housing having a first port connected to said tubing leading to the reservoir assembly and a second port connected to said tubing leading to the patient, thereby defining a fluid channel through said sampling site housing, means defining an access aperture in said sampling site housing in communication with said fluid channel, and flexible means carried by said sampling site housing for sealing said access aperture, said means having a resealable opening therein such that a blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with said channel to withdraw blood from said tubing and such that said blunt cannula can be removed therefrom with said flexible means interacting with said sampling site housing so as to reseal said resealable opening;

d) said blunt cannula comprising an elongated member with a fluid flow channel extending generally axially therewithin and through a distal end of said member, said elongated member being generally cylindrically along a substantial portion of its length and terminating in a generally tapered distal end portion having a blunt end edge.

11. A blood sampling system according to claim 9 or 10, wherein said first port of said sampling site housing leading to said reservoir assembly is located at a lower portion of said sampling site housing and said second port of said sampling site housing leading to the patient is located at a higher portion of said sampling site housing, thereby providing for ease of debubbling during initial filling of said tubing with fluid from the fluid supply and ease of clearing fluid from said reservoir assembly when said plunger is projected toward said ports in said reservoir assembly.

12. A blood sampling system according to claim 10, wherein said blunt cannula further comprises a substantially cylindrical sheath surrounding said elongated member and being at least coextensive with and spaced apart from said elongated member to protect said member from inadvertent touch contamination.

13. A blood sampling system according to claim 12, wherein said sheath has two slots formed therein at its distal end, said slots disposed opposite each other in said sheath, said slots being adapted to fit over said first and second ports of said sampling site housing to aid in aligning said blunt cannula with said sampling site.

14. A blood sampling system according to 9 or 10, further comprising an adapter for transferring fluid from said blunt cannula to an evacuated tube having a sealed end, comprising:

a) an injection site having a substantially cylindrical injection site housing and flexible means carried by said injection site housing for sealing one end of said injection site housing, said flexible means having a resealable opening therein such that the blunt cannula can be sealingly inserted through said opening and can be removed therefrom with said flexible means interacting with said injection site housing so as to reseal said resealable opening;

b) a needle attached to the other end of said injection site housing in fluid flow communication with said injection site housing;

c) a shroud attached to said injection site housing, said shroud covering said needle and adapted to receive said evacuated tube such that said evacuated tube can be inserted into said shroud and pushed against said needle until said needle pierces said sealed end, thereby enabling transfer of fluid from said blunt cannula to said evacuated tube.

15. An adapter according to claim 14, further comprising an elastomeric sleeve covering said needle such that when said evacuated tube is pushed against said needle, said sleeve is pushed back exposing the needle as the needle pierces the sealed end of the evacuated tube and as the evacuated tube is removed from the needle, the sleeve slides back over the needle to cover the needle.

16. A method for withdrawing a blood sample from a patient line which is in communication with the patient's vascular system at one end and connected to a fluid supply at the other end, comprising the steps of:
a) disposing a reservoir assembly in said patient line between said fluid supply end and the patient end of said line;
b) disposing a sampling site in said patient line between said reservoir assembly and the patient end of said line, said sampling site comprising a flow through housing having a first port leading to the reservoir assembly and a second port leading to the patient, thereby defining a fluid channel through said housing, means defining an access aperture in said housing in communication with said fluid channel, and flexible means carried by said housing for sealing said access aperture, said means having a resealable opening therein such that a blunt cannula can be sealingly inserted through said opening and placed in fluid flow communication with said channel and can be removed therefrom with said flexible means interacting with said housing so as to reseal said resealable opening;

c) disabling fluid flow from the fluid supply to said reservoir assembly;
d) drawing fluid contained in said patient line into said reservoir assembly, said drawing being effective to draw blood from the patient into said patient line;
e) inserting said blunt cannula through said resealable opening of said sampling site to withdraw blood from said patient line; and f) removing said blunt cannula from said sampling site, said flexible means of said sampling site thereby interacting with said sampling site housing so as to reseal said resealable opening.

17. A method according to claim 16, further comprising the step of:
g) transferring said blood withdrawn from said sampling site to an evacuated tube having a sealed end, through an adapter comprising an injection site having a substantially cylindrical injection site housing and flexible means carried by said injection site housing for sealing one end of said injection site housing, said flexible means having a resealable opening therein such that the blunt cannula can be sealingly inserted through said opening and can be removed therefrom with said flexible means interacting with said injection site housing so as to reseal said resealable opening, and a needle connected to the other end of said injection site housing in fluid communication with said injection site housing, a shroud connected to said injection site housing and surrounding said needle, said shroud adapted to receive said evacuated tube such that said evacuated tube can be inserted into said shroud and pushed against said needle until said needle pierces said sealed end, thereby enabling transfer of said blood from said blunt cannula to said evacuated tube.