FIELD OF THE INVENTION
The present invention relates to safety intravenous catheter assemblies including closed system catheter (CSC) assemblies having a catheter hub with a side port, and needle insertion assemblies connectable to the catheter hub.
BACKGROUND OF THE INVENTION
In U.S. Pat. No. 10,675,440, assigned to the same assignee as the instant application, a closed system catheter (CSC) assembly is described to have a catheter insertion device coupled to a catheter hub assembly that has a catheter hub with a side opening having connected thereto an extension tubing. The catheter insertion device has a needle housing that has at its distal end a passive release mechanism for connecting to the proximal end of the catheter hub. The passive release mechanism comprises an actuator internally movable relative to an output collar attached to the needle housing.
SUMMARY OF THE PRESENT INVENTION
The needle insertion assembly of the instant invention has a passive connection mechanism that does not rely on the relative movement of an actuator inside a collar for connection to a catheter hub.
The instant invention is directed to a safety intravenous catheter assembly including a closed system catheter (CSC) assembly that has a catheter hub assembly and a needle insertion assembly. The catheter hub assembly has a catheter hub having a catheter tube extending from its distal end. The needle insertion assembly has a needle housing that includes a needle hub and a safety clip enclosed in a protective housing or clip guard removably housed within a compartment in a distal section of the needle housing. The safety clip in the clip guard fixedly holds the catheter hub when the CSC assembly is in a ready to use position or state, or simply a ready position. A needle, or needle cannula, has its proximal, or non-patient end, fixedly attached to the needle hub integrally formed inside the needle housing. The needle extends from the needle hub such that its patient end passes through the catheter with its bevel sharp distal tip extending beyond the distal end of the catheter. The proximal end of the needle may be flush with or extends slightly beyond the proximal end of the needle hub into a flashback chamber in the proximal section of the needle housing. A flashback plug is fitted to the open proximal end of the flashback chamber so that air in the cannula of the needle and flashback chamber may pass through while fluid that flows into the flashback chamber is contained therein.
The safety clip has two arms that extend from a base having an opening through which the needle passes. The arms each have an elongated member that extends distally from the base to an elbow where the member is bent substantially orthogonal to the elongated member to form a mid-section having an end curved to form a distal gripper. The gripper may be a hook like finger or a jaw. The respective grippers at the distal ends of the elongated members are movable relative to each other and are adapted to grasp the proximal end of the catheter hub in the ready to use position. At least one flange or protuberance may be formed at the open proximal end of the catheter hub to facilitate the grasping of the catheter hub by the grippers. The elongated members are naturally inwardly biasing such that in their natural state, the members pivot toward each other. The arms further have respective barriers proximal their corresponding elbows that naturally bias inwardly toward the longitudinal axis of the safety clip.
The barriers are biased outwardly away from each other when a needle, or more precisely the shaft of the needle, passes therebetween such that the distal grippers of the elongated members are forced inwardly to grasp the proximal end of the catheter hub. Thus, so long as the distal tip of the needle has not been retracted to a position proximal the naturally inwardly biasing barriers of the safety clip, the catheter hub is fixedly held to the safety clip. The sharp distal tip of the needle thus is prevented from being exposed to the environment.
To further ensure that the needle tip is continuously shielded from the environment, the safety clip is housed and fixedly held in the clip guard. The clip guard has a proximal portion that slidably form fits to an aperture at the distal end portion of the needle hub in the ready to use position, while the distal portion of the clip guard that shields the safety clip is housed in a similarly configured compartment in the distal section of the needle housing in the ready position.
The catheter hub of the CSC assembly has a distal end to which is attached the proximal end section of a catheter tube, or simply a catheter. An insert may be used to frictionally hold the proximal end section of the catheter to the catheter hub. In the ready position, the needle extends along the interior cavity of the catheter hub and slidably extends along the catheter with its sharp distal tip protrudes or extends past the distal end of the catheter. The catheter hub has a side opening to an extension integral of the catheter hub to which one end of an extension tubing is attached. The other end of the extension tubing has a connector mechanism adapted to be connected to a fluid store device. A pair of wings are integrally formed at the patient facing surface of the catheter hub to assist the clinician in positioning and holding the catheter hub assembly to the patient during use. The wings and catheter hub may be taped to the skin of the patient to hold the catheter hub assembly to the patient afterwards.
An interior cavity is formed inside the catheter hub between its distal end and open proximal end. An elastomeric septum is positioned proximal to the opening at the side wall that forms the side port extension to prevent fluid from flowing in the proximal direction towards the open proximal end of the catheter hub. When the needle is withdrawn from the catheter hub and the septum reseals, a fluid path is established between the vasculature of the patient to which the catheter is inserted and the extension tubing at the side opening of the catheter hub, and from there to the fluid store that may be connected to the extension tubing.
For an embodiment of the instant invention, a septum retainer may be inserted distally from the open proximal end of the catheter hub into its internal cavity so that the distal end of the septum retainer abuts against the proximal surface of the septum. A stop at the inner wall of the catheter hub prevents the septum from movement in the distal direction. Thus, the septum is held in place inside the catheter hub by the stop at the inner wall of the catheter hub and the septum retainer. An opening may be provided at the distal end of the septum retainer to enable the needle to pass into and through the septum.
In the ready position, the proximal end of the catheter hub is held to the clip guard by the distal grippers of the safety clip non-removably enclosed in the clip guard. When the needle is withdrawn from the patient and moves past the septum such that its distal tip is proximal the biasing barriers, no longer biased outwardly by the needle, those barriers would return to their natural inwardly biased state so that the distal grippers are released from the flange at the proximal end of the catheter hub. The clip guard may be removed from the catheter hub when the needle feature at the distal end of the needle comes into contact with the opening at the base of the safety clip, as the opening has a dimension preventing the needle feature from passing through. Further proximal movement of the needle relative to the catheter hub separates the safety clip and the clip guard non-removably attached thereto from the catheter hub assembly. As the needle is removed from the catheter hub, the needle housing is moved in the proximal direction relative to the catheter hub to pull the needle away from the catheter hub. Since the safety clip is non-removably enclosed in the clip guard, the contaminated distal tip of the needle continues to be shielded from the environment by the clip guard as the needle is withdrawn from the catheter hub into the safety clip. The distal tip of the needle is thus continuously shielded from when the CSC assembly is in the ready position to when it is in the safe position, whereby the distal tip of the needle is entrapped in the safety clip.
The present invention is directed to a closed system catheter assembly, comprising:
- a catheter hub having a body including a distal end having extending distally therefrom a catheter having a distal tip, an open proximal end and a wall extending between the distal end and the proximal end defining an internal cavity, a side port extending from an opening at the wall between the distal end and the proximal end;
- a needle insertion assembly including a needle housing having a needle hub separating a distal section and a proximal section of the needle housing, the needle hub having secured thereto a proximal end of a needle having a sharp distal tip, the needle establishing a fluid passageway between the sharp distal tip and the proximal section of the needle housing;
- a clip guard; and
- a safety clip non-removably housed in the clip guard slidably mounted along the needle, the safety clip including a base having two arms extending distally from the base, the two arms having respective distal grippers and respective naturally inwardly biasing members;
- wherein the needle extends through the catheter hub and its distal sharp tip extends past the distal end of the catheter, the proximal end of the catheter hub held by the distal grippers of the two arms of the safety clip and the clip guard enclosed by the distal section of the needle housing when the catheter assembly is in a ready position.
The invention is also directed to a needle insertion assembly, comprising:
- a needle having a distal tip and a proximal end;
- a needle housing having a distal section, a proximal section and a needle hub sandwiched between the distal section and the proximal section, the proximal end of the needle secured to the needle hub, the distal tip of the needle extending past the distal section away from the needle hub, the needle establishing a fluid passageway between the distal tip and an internal cavity in the proximal section of the needle housing;
- a clip guard removably positioned in the distal section of the needle housing in a ready position; and
- a safety clip non-removably housed in the clip guard slidably mounted along the needle, the safety clip including a base having two arms extending distally from the base, the two arms having respective distal grippers and respective naturally inwardly biasing members;
- wherein the needle insertion assembly is adapted to be coupled to a catheter hub having a proximal end opened into an internal cavity when the needle passes between the inwardly biasing members to extend distally through the internal cavity of the catheter hub such that the two arms of the safety clip are biased outwardly by the needle to cause the distal grippers to fixedly hold the proximal end of the catheter hub.
The present invention is further directed to a method of making a safety catheter assembly, comprising the steps of:
- providing a catheter hub having a body including a distal end, an open proximal end and a wall extending between the distal end and the proximal end defining an internal cavity;
- extending a catheter having a distal tip from the distal end of the catheter hub;
- providing a needle housing having a distal section, a proximal section and a needle hub sandwiched between the distal section and the proximal portion,
- attaching a needle having a sharp distal tip and a proximal end to the needle hub to establish a fluid passageway between the sharp distal tip and the proximal section of the needle housing;
- removably positioning a clip guard in the distal section of the needle housing;
- slidably mounting a safety clip along the needle;
- non-removably housing the safety clip in the clip guard, the safety clip including a base having two arms extending distally from the base, the two arms having respective distal grippers and respective naturally inwardly biasing members; and
- extending the needle through the catheter hub and its distal sharp tip past the distal end of the catheter such that the proximal end of the catheter hub is fixedly held by the distal grippers of the two arms of the safety clip and the clip guard is enclosed in the distal section of the needle housing when the catheter assembly is in a ready position.
BRIEF DESCRIPTION OF THE FIGURES
The present invention will become apparent and the invention itself will be best understood with reference to the following description of the invention taken in conjunction with the accompanying drawings, wherein:
FIG. 1 is an overall view of a closed system catheter (CSC) assembly of the instant invention;
FIG. 2 is the CSC assembly of FIG. 1 but with the needle sheath protecting the catheter and needle before use removed;
FIG. 3 is a top cross-sectional view of the inventive CSC assembly;
FIG. 4 is an enlarged view of the catheter hub and the distal portions of the clip guard and the safety clip of the needle insertion assembly;
FIG. 5 is a perspective view of an exemplar safety clip of the instant invention relative to the proximal end of the catheter hub;
FIG. 6 is a cut-away view of the proximal portion of the exemplar safety clip non-removably anchored to the clip guard;
FIG. 7 is a perspective view of the catheter hub assembly of the CSC assembly of the instant invention;
FIG. 8 is an exploded view of the different components of the FIG. 7 catheter hub assembly;
FIG. 9 is a cross-sectional side view of the catheter hub shown in FIGS. 7-8;
FIG. 10 shows the CSC assembly in a ready to use position;
FIG. 11 shows the CSC assembly with the needle being removed from the catheter;
FIG. 12 shows the needle having been substantially separated from the catheter hub but the clip guard remains positioned relative to the catheter hub; and
FIG. 13 shows the needle insertion assembly separated from the catheter hub assembly.
DETAILED DESCRIPTION OF THE INVENTION
The instant application relates to provisional application U.S. 63/227,508 filed Jul. 30, 2021 and assigned to the assignee of the instant application. The disclosure of the '508 application is incorporated by reference in its entirety to the disclosure of the instant application.
As shown in FIGS. 1-4, the closed system catheter (CSC) assembly 2 is comprised of a catheter hub assembly 4 and a needle insertion assembly 6 lying coaxially along a longitudinal axis 3. Catheter hub assembly 4 has a catheter hub 8 that has a distal section 8a where a catheter tube, or simply catheter 10, is attached via its proximal end 10a. An insert (FIG. 8) may be used to frictionally attach proximal end 10a of catheter 10 to distal section 8a of catheter hub 8. Alternatively, the proximal end of the catheter may be attached to the distal end of the catheter hub by bonding as is well known. A needle 12 extends through catheter 10 with its bevel sharp distal tip 12a extending beyond a distal end 10b of catheter 10. As best shown in FIG. 5, a needle feature 12b that has a dimension or configuration different from the shaft 12c of needle 12 is provided proximate to the sharp distal tip 12a of needle 12.
Catheter hub 8 has an interior cavity 8b defined by a wall 8c extending from distal section 8a to an open proximal end 8d. A side opening 8e at wall 8c connects the interior cavity 8b to a side port extension 8f at catheter hub 8. For discussion purpose, side port extension 8f may be referred to simply as a side port or an extension of the catheter hub. One end of an extension tubing 14 is fixedly fitted to the open end of extension 8f. The other end of the extension tubing 14 has fitted thereto a connector 28 adapted to connect to a fluid store device such as a syringe, a fluid line, a pump or alike as is well known, so that fluid may be input to the internal cavity 8b of catheter hub 8 from the fluid store. A clamp 26 adapted to squeeze shut tubing 14 to prevent fluid flow therealong is slidably fitted along tubing 14. Catheter hub 8 is shown in greater detail in FIGS. 7-9.
A septum 16 made of an elastomeric material as is well known is positioned in internal cavity 8b proximal to side opening 8e to prevent fluid from flowing in the proximal direction as indicated by directional arrow 18. Elastomeric septum 16 has the quality of allowing a needle such as needle 12 to pierce through it and, after the needle is removed, reseals itself. A shoulder 8g formed circumferentially at the inner surface of wall 8c provides a stop to the distal end 16a of septum 16 from moving in the distal direction as indicated by directional arrow 20.
With reference to FIGS. 3-4 and 7-9, a septum retainer 22 is shown inserted into open proximal end 8d of catheter hub 8 such that its distal end 22a, or the surface at the distal end, abuts against the proximal end 16b of septum 16 to hold septum 16 in place. Septum retainer 22 has a cup-shaped configuration where its distal end corresponds to the bottom of the cup and the circumferential wall 22d extending therefrom defines an interior cavity 22e for the septum retainer. As best shown in FIG. 9, an opening 22f is provided at distal end 22a with a dimension that allows needle 12 to pass through. Septum retainer 22 may be fixedly held in the proximal section of catheter hub 8 by a circumferential protuberance 22b at the septum retainer mating with an infernal circumferential groove 8h formed at the inner wall of catheter hub 8. For the embodiment shown, septum retainer 22 has a proximal end 22c that is flush with the proximal end 8d of catheter hub 8. However, it should be appreciated that the proximal end of septum retainer 22 may extend proximally beyond or distally inwardly from the proximal end 8d of catheter hub 8. At least one flange may be provided at proximal end 8d of catheter hub 8 to receive distal grippers of the safety clip as will be discussed, infra.
Extending orthogonally at the underside of catheter hub 8 are two wings 8i that may be employed to hold the catheter hub against the skin of the patient when using the CSC assembly 2. As shown in FIGS. 1 and 2, prior to use, catheter 10 and needle 12 slidably extending therethrough are shielded by a needle sheath 24, shown to be removed in FIG. 2. FIGS. 1-2 show CSC assembly 2 in the ready to use position or state, or simply the ready position. In FIGS. 7 and 8, open proximal end 8d of catheter hub 8 is shown to have a flange 8j that may be used to couple to the distal grippers of the safety clip to be discussed below. Although one flange is shown, it should be appreciated that the flange may be one continuous circumferential flange, or multiple partial circumferential flanges such as flanges 8j1 and 8j2 shown in FIG. 5 that may be grasped by the grippers of the safety clip.
FIGS. 8 and 9 show an insert 8k pressure fitted into the passage 8a′ defined by wall 8c that extends through distal section 8a in catheter hub 8. Insert 8k is inserted into passage 8a′ to frictionally press hold the proximal end of catheter 10 to the distal end of catheter hub 8. When fully fitted to the passage, the tapered proximal end 8k′ of insert 8k makes contact with the smaller distal section 8b1 of internal cavity 8b of catheter hub 8 to prevent fluid from passing.
With reference to the FIGS. 1-3 embodiment shown, needle insertion assembly 6 includes a needle housing 30 having a distal section 30a configured to have four walls each taper outwardly in the distal direction. Needle housing 30 has a mid-section 30b that includes an integral internal needle hub 30c. Needle hub 30c has an internal passageway 30c1 into which a proximal end 12e of needle 12 is fixedly attached, by bonding or frictional fit as is well known. Proximal end 12d of needle 12 may be flush with the proximal end 30c2 of needle hub 30c. Proximal end 12d of needle 12 feeds into an internal or flashback chamber 30d at the proximal section 30e of needle housing 30. The open proximal end 30e1 of proximal section 30e is fitted with a flash plug 32 that may be made of an air permeable hydrophilic material to allow air to pass but inhibits the passage of fluid as is well known. Air that resides in flashback chamber 30d is pushed through flash plug 32 by the incoming blood until the blood reaches the hydrophilic material of the flash plug which prevents the blood from passing.
Removably housed in the compartment defined by distal section 30a of needle housing 30 is a needle tip protector guard, or clip guard 34. Clip guard 34 is configured to be form fittingly housed within the compartment defined by distal section 30a. As shown in FIG. 3, clip guard 34 has an open distal end 34a that tapers inwardly in the proximal direction to a proximal back end 34b having a proximal extension 34c that matingly fits into an aperture 30c3 at the distal end portion of needle hub 33 in the ready position. Distal end 34a of clip guard 34 extends distally from the distal end 30f of needle housing 30 as per shown in FIGS. 3 and 4 exemplar embodiment. In practice, it should be appreciated that distal end 34a of clip guard 34 may be flush with the distal end 30f of needle housing 30 or proximal to the distal end of the needle housing in the ready position. The thing to note is that distal end 34a of clip guard 34 encloses the distal grippers of the safety clip housed in clip guard 34, as discussed herein.
As shown in FIG. 3, fixedly enclosed within its interior chamber 34d in clip guard 34 is a needle protection device or safety clip 36. One embodiment of safety clip 36 is shown in detail in FIG. 5. With reference to FIGS. 3 and 4, CSC catheter assembly 2 is shown to have the proximal end 8d of catheter hub 8 covered by the open distal end 34a of clip guard 34. The remaining portion of clip guard 34 is received in the compartment at the distal section 30a of needle housing 30.
FIG. 5 shows the safety clip 36 relative to the proximal section of catheter hub 8. Needle safety clip 36 is shown to have two arms 36c1 and 36c2 that extend substantially transversely in the distal direction from opposite ends of a base 36a. An opening 36b formed at base 36a has a dimension that allows needle 12 to pass but prevents needle feature 12b from passing in the proximal direction as indicated by directional arrow 18. Respective mid-sections 36d1 and 36d2 of the arms 36c1 and 36c2 are bent toward the center of safety clip 36, with their corresponding bent ends 36d1b and 36d2b curved to form respective naturally inwardly biasing members, or barriers 36d1b and 36d2b.
Further with reference to FIG. 5, with the mid-sections 36d1 and 36d2 bent inwardly from arms 36c1 and 36c2, slots along arms 36c1 and 36c2 are formed by the parallel rails left with the inwardly bending of the mid-sections. In particular, parallel rails 36e1 and 36e2 extend from the mid-section of arm 36c1 to a cross end 36e3 that connects the rails to define a slot 36e4 with a width that allows needle 12 to pass through. As shown, rails 36e1 and 36e2 coplanarly extend distally to a distance proximal the proximal end 8d of catheter hub 8, and are then bent slightly off at right angle downwardly to form a downward section 36c1′. Similarly, arm 36c2 is bent in a reverse manner such that rails 36f1 and 36f2 are bent upwardly at a slightly off right angle from the longitudinal portion of arm 36c2 to form an upright section 36c2′ that defines a slot 36f4 with space sufficient to allow needle 12 to pass through. Section 36c2′ is formed at a distance proximal from section 36c1′. Slot 36f4 of upright section 36c2′ has a width that is smaller than the width of slot 36e4 of section 36c1′ so that upright section 36c2′ is freely movable within slot 36e4. The end portion of rails 36e1 and 36e2 are further bent in the distal direction substantially transverse to section 36c1′ to form a lower jaw 36g adapted to press against flange 8j2 of catheter hub 8, while the distal end of arm 36c2 is configured as a hook like finger 36h adapted to grasp flange 8j1 to couple safety clip 36 to catheter hub 8.
For the embodiment shown in FIGS. 3 and 4, the lower jaw of arm 36c1 is replaced with a hook like finger such as 36h. Thus, the safety clip 36 may have hook like fingers at the distal end of both of its arms as per shown in FIGS. 3 and 4. Both of the hook fingers shown in FIGS. 3-4 and the combination of hook finger and jaw shown in FIG. 5 may simply be referred to as the grippers of safety clip 36.
When in the safe position as shown in FIG. 5 where barriers 36d1b and 36d2b are in their natural inwardly biased positions since they are not biased by needle 12, the barriers effect a stop distal of the distal tip 12a of needle 12 to prevent needle 12 from re-emerging from safety clip 36 in the distal direction. At the same time, needle feature 12b prevents needle 12 from further proximal movement relative to safety clip 36 through opening 36b. Thus, the distal end portion including distal tip 12a of needle 12 is entrapped in safety clip 36. As shown, barrier 36d1b is distal to barrier 36d2b, with distal tip 12a of needle 12 proximal to both barriers 36d1b and 36d2b. FIG. 5 shows the CSC assembly 2 in the safe state or position, as the potentially contaminated distal tip 12a of the needle 12 is trapped inside safety clip 36.
With reference to FIG. 3 and the detailed showing of safety clip 36 in FIG. 5, when CSC assembly 2 is in the ready position, barriers 36d1b and 36d2b are biased by needle 12 away from the longitudinal axis 3 of the CSC assembly. Needle 12 also passes slots 36f4 and 36e4 of arms 36c2 and 36c2, respectively, into catheter hub 8. With barriers 36d1 and 36d2 biased outwardly, transverse portions 36c1′ and 36c2′ would move in opposite directions away from the longitudinal axis 3 such that hook finger 36h would grasp flange 8j1 and jaw 36g would press against flange 8j2 of catheter hub 8, such that safety clip 36 and catheter hub 8 are coupled to each other. Although a combination of hook and jaw is shown in the embodiment of FIG. 5, it should be appreciated that In practice, the arms each may have a hook finger at their distal end as per shown in FIGS. 3-4, or some other finger gripping mechanisms that allow the safety clip to grippingly hold catheter hub 8. Thus, the proximal end of the catheter hub is fixedly held by the distal grippers of the safety clip in the ready position. It should further be appreciated that safety clip 36 as described above may be adapted to be used for safety catheter assembles other than CSC catheter assemblies.
FIGS. 3 and 4 show safety clip 36 and catheter hub 8 coupled to each other by means of dual finger hook grippers 36h1 and 36h2 instead of the combination hook and jaw as discussed above with reference to FIG. 5. Functionally, the finger hook grippers in FIGS. 3 and 4 operate in the same manner as the grippers discussed with reference to FIG. 5, except that the opposite flanges 8j1 and 8j2 of the catheter hub 8 each are grasped by a corresponding one of grippers 36h1 and 36h2.
FIG. 3 shows safety clip 36 being housed or enclosed in clip guard 34. Clip guard 34 in turn is received in the compartment defined by distal section 30a of needle housing 30. Safety clip 36 has the same parts as the safety clip described in FIG. 5, except that the distal grippers are both hook type gripper mechanisms. To maintain safety clip 36 within chamber 34d of clip guard 34, a pair of opposing projections or tangs 36i extending from base 36a as per shown in FIG. 6 are added to safety clip 36. Undercuts 34e or other structure adapted to coact with tangs 36i are formed at the opposing inner walls of clip guard 34. When safety clip 36 is inserted into chamber 34b, tangs 36i, when coming into contact with the tapered distal surfaces of undercuts 34e, would bend inwardly to pass the undercuts. Once past the undercuts, tangs 36i revert back to their unbiased natural state so that their respective edges 36i1 would abut against the proximal back surfaces of the respective undercuts 34e to prevent safety clip 36 from moving in the distal direction relative to clip guard 34. As a result, safety clip 36 is non-removably enclosed in chamber 34b of clip guard 34. Note that the opposing tangs 36i extend from opposing sides of base 36a of safety clip 36 while the arms 36c1 and 36c2 of safety clip 36 extend from the other opposing sides of base 36a.
The operation of the safety catheter assembly of the instant invention is illustrated in FIGS. 10-13. In the ready position as shown in FIG. 10, catheter hub 8 is coupled to clip guard 34 by the distal grippers of safety clip 36 fixedly holding the proximal end 8d of catheter hub 8. After the needle is inserted into the appropriate vein or artery of the patient followed by the insertion of catheter 10, the clinician would withdraw needle 12 by moving needle housing 30 in the proximal direction as indicated by directional arrow 18 relative to catheter hub 8, as per shown in FIG. 11. With further movement of needle housing 30 in the proximal direction relative to catheter hub 8, the needle feature 12b (FIG. 5) comes into contact with opening 36b at base 36a of safety clip 36 and the distal tip 12a of needle 12 is positioned proximal of barriers 36b1 and 36b2. No longer biased by needle 12, barriers 36b1 and 36b2 return to their natural inwardly biased state such that the distal grippers are released from proximal end 8d of catheter hub 8. Since safety clip 36 is non-removably held to clip guard 34, upon further proximal movement of needle housing 30 relative to catheter hub 8, clip guard 34 is removed from the catheter hub, with safety clip 34 enclosed therein and distal tip 12a of needle 12 entrapped in the safety clip. FIG. 13 shows needle housing assembly 6 and catheter hub assembly 4 separated from each other.
The CSC assembly 2 shown in FIG. 13 may be considered to be in a safe position or state in that the distal tip 12a of needle 12 is trapped in safety clip 36 enclosed by clip guard 34 within needle housing 30 of the needle insertion assembly 6. Thus, throughout the life of CSC assembly 2, from shipping to use to disposal, or from the ready position to the safe position, the distal portion of the needle and more particularly the sharp distal end of the needle is prevented from being exposed to the environment.
It is the intension of the inventors that all matter described throughout this specification and shown in the accompanying drawings be interpreted as illustrative only and not in a limiting sense. Accordingly, it is intended that the invention be limited only by the spirit and scope of the hereto appended claims.
Patent Application
20250073424
