Australian Patents Act 1990 - Regulation 3.2A ORIGINAL COMPLETE SPECIFICATION STANDARD PATENT Invention Title "IV Catheter" The following statement is a full description of this invention, including the best method of performing it known to me/us: P/00/00 I C:\NRPonbl\DCC\TZS\4757099_1 DOC - 30/11/12 C:\NRPonbl\DCC\TZS\4757125_1.DOC.3WI l012 IV CATHETER The disclosure of the complete specification of Australian Patent Application No. 2009233612 as originally filed is incorporated herein by reference. The invention relates to a safety needle assembly which can form part of a safety 5 intravenous (IV) catheter device. Safety IV catheter devices comprise a needle protecting means which slides to the needle point as the needle is removed from the catheter and permanently blocks the needle point such that the needle point cannot be inserted into objects or persons. A safety intravenous catheter device is disclosed in International application WO 10 99/08 742 by the present applicant. Said catheter device comprises a tubular catheter having a catheter hub at the proximal end, a hollow needle adapted to be inserted into the catheter and provided with a needle hub at the proximal end, and a needle protecting means. The needle protecting means is located in a hollow space of the catheter hub, the hollow space being closed by the needle hub, 15 wherein the needle passes through the needle protecting means and the needle protecting means comprises a spring portion made of steel through which the needle is adapted to slide. The needle protecting means comprises an engagement element which, when the needle is retracted relatively to the catheter, engages with an irregularly configured portion of the needle in order to remove the 20 needle protecting means from the proximal end of the catheter hub. The needle protecting means comprises a bent sheet-metal portion made from spring steel which presses against the wall of the hollow space of the catheter hub, the sheet-metal portion thus being supported. Said support is no longer given when the needle protecting means is moved over the needle point when the needle is 25 retracted, the needle protecting means thus being protected. Then the needle protecting means, together with the needle, can be removed from the hollow space of the catheter hub. In the case of the known catheter device the projection, with which the needle protecting means lockingly engages, is configured as a retaining protrusion molded to the inner wall of the catheter hub, or a retaining 30 groove.
C \NRPorbl\DCC\TZS\4757125_1.DOClvI l/2012 2 A catheter device of this type protecting means poses the problem that the needle protecting means must be fastened in the catheter hub, with a bend or an elbow of the needle protecting means having to be moved over the projection on the inner side of the catheter hub, such that a reliable support of the needle protecting 5 means in the hollow space of the catheter hub is ensured. It is an object of the present invention to provide an intravenous catheter device comprising a needle protecting means where fastening of the needle protecting means in the catheter hub is facilitated. 10 According to the invention, there is provided a safety IV catheter comprising: a) a needle having a needle shaft and a needle tip; b) said needle shaft comprising a bulge; c) a hollow tubular catheter having a proximal end; d) said hollow tubular catheter is secured to the distal end of a catheter hub; e) said catheter hub having a hub section, wherein a chamber is formed in said hub section, and having an 15 inner wall; f) a resilient spring clip needle guard located within said chamber being formed in said hub section of said catheter hub and having a distal end wall; g) said needle being received within said hollow tubular catheter when in a ready position, wherein said needle extends through said chamber, a passageway and distally beyond said catheter hub and said hollow tubular catheter so that said 20 needle tip extends beyond the tapered distal end of said hollow tubular catheter and said needle guard located within said hub chamber is adapted to automatically snap or pivot into a retracted position for blocking access to said distal needle tip and preventing further movement of said needle tip when said needle is in its retracted position; h) said needle guard being adapted to be inserted into said 25 catheter hub and to be urged by said needle shaft into contact with said inner wall of said catheter hub so that the needle guard is retained therein; i) and a groove or bump being formed in said inner wall of said catheter hub for engaging a curved protrusion of said needle guard for retaining said needle guard in said catheter hub in the ready position; j) said needle shaft of needle being adapted to engage said 30 distal end wall of said needle guard when said needle is in its said ready position; and k) the said catheter hub being configured such that a force exerted by said CVNRPo0bDCC\TZW7725DOC- 12012 3 needle shaft on said needle guard in said catheter hub is released when said needle is retracted causing said needle guard to pivot or snap to the retracted position in which said distal end wall blocks said needle tip; I) and said needle guard further comprising a proximal wall having an opening adapted to let said 5 shaft of needle freely pass through and axially move; m) wherein said bulge has a diameter greater than that of said opening of said proximal wall. There is also disclosed an IV-catheter comprising a catheter hub attached to the proximal end of a tubular catheter, a needle having a needle tip at a distal end of a 10 needle shaft and an enlarged segment disposed along the needle shaft, said needle being moveable between a ready position in which the needle tip protrudes from said catheter and a blocking position in which a needle guard blocks said needle tip, said needle guard being retained in the catheter hub when said needle is in the ready position the needle guard including a rear wall and two resilient 15 arms each joined at a proximal end to a respective end of the rear wall, each said arm being generally oriented and crossing each other in a distal direction, a guard wall at the distal end of each arm, said guard walls abutting the shaft of the needle in the ready position and overlapping distally in front of the needle tip when the needle is in the blocking position, said rear wall including an opening through 20 which the needle shaft passes, and the enlarged segment being larger than said opening to retain the needle guard on the needle in the blocking position. There is also disclosed a safety needle assembly comprising a hub, a needle having a needle tip at a distal end of a needle shaft and an enlarged segment 25 disposed along the needle shaft, said needle being moveable between a ready position in which the needle protrudes through said hub and a blocking position in which a needle guard blocks said needle tip, said needle guard being retained in the hub when said needle is in the ready position, the needle guard including a rear wall and two resilient arms each joined at a proximal end to a respective end 30 of the rear wall, each said arm being generally oriented and crossing each other in a distal direction, a guard wall at the distal end of each arm, said guard walls abutting the shaft of the needle in the ready position and being disposed in front of C:\NRPorth!DCCTZS\4757125 DOC-30I 112012 4 the needle tip when the needle is in the blocking position, said rear wall including an opening through which the needle shaft passes, and the enlarged segment being larger than said opening to retain the needle guard on the needle in the blocking position. 5 There is also disclosed an IV-catheter comprising a catheter hub attached to the proximal end of a tubular catheter, a needle having a needle tip at a distal end of a needle shaft and an enlarged segment disposed along the needle shaft, said needle being moveable between a ready position in which the needle tip protrudes 10 from said catheter and a blocking position in which a needle guard blocks said needle tip, said needle guard being retained in the catheter hub when said needle is in the ready position the needle guard including a rear wall and two resilient arms each joined at a proximal end to a respective end of the rear wall, a guard wall at the distal end of each arm, each said arm being generally oriented and 15 crossing each other in a distal direction, said guard walls abutting the shaft of the needle on a side remote to the proximal end of the corresponding arm in the ready position and being disposed in front of the needle tip when the needle is in the blocking position, said rear wall including an opening through which the needle shaft passes, and the enlarged segment being larger than said opening to retain 20 the needle guard on the needle in the blocking position. Hereunder embodiments of the present invention are explained in detail with reference to the drawings in which: 25 Fig. 1 shows a longitudinal section across a first embodiment of an intravenous catheter device, Fig. 2 shows the distal end of the needle with the needle protecting means protecting the needle point when the needle has been removed from the catheter, Fig. 3 shows a section along line 111-111 of Fig. 1, CANRPonbl\DCC\TZSW757125_l.DOC-3 l2012 5 Fig. 4 shows a similar representation as Fig. 3 of a second embodiment having an essentially annular projection with a small interruption, Fig. 5 shows a section across a third embodiment with a bipartite annular projection whose segments are separated from each other by two interruptions, 5 Fig. 6 shows a schematic side view of the distal area of the needle shown in Fig. 1, Fig. 7 shows a view of the needle shown in Fig. 6 as seen from the direction indicated by arrow VII, Fig. 8 shows a perspective representation of a tool for fastening the needle 10 protecting means, Fig. 9 shows a schematic cross-section of another embodiment of the catheter with the needle protecting means being oriented such that it can be inserted into the hollow space of the catheter hub, and Fig. 10 shows by way of the same representation as Fig. 9 the condition of the 15 needle protecting means after a rotation by approximately 450 with the needle protecting means gripping behind the segments of the projection and being in engagement with the projection. The embodiment of the present invention shown in Fig. 1 comprises an elongate hollow tubular catheter 24 concentrically connected at its proximal end (remote 20 from the patient) with the distal end of a catheter hub 26. The catheter hub 26 has a hollow space 27 communicating with the volume of the catheter 24 and being open at the proximal end. The needle 16 passes through the catheter 24. The needle 16 is an elongate hollow needle made of steel and comprising a needle point 18 at the distal end. At 25 a certain distance from the distal end 18 an irregularly configured portion 138 is provided. In the present embodiment said irregularly configured portion 138 is a flattened section of the needle which increases the width of the needle in one C:NRPonbl\DCCTZSU?7125_1.DOC-311/2I12 6 direction and decreases it in the direction perpendicular thereto. Said irregularly configured portion 138 can alternatively be a local projection. At the proximal end of the needle 16 a needle hub 12 is attached which has a hollow space 13 communicating with the volume of the needle. The distal step in 5 said needle hub 12 abuts the proximal end of said catheter hub 26. In this position of the needle hub 12 relative to the catheter hub 26 the distal end of the needle 16 and the needle point 18 project from the distal end of the catheter 24. On the needle point 18 a needle protecting means 120 is provided which is configured generally in the same way as the needle protecting means shown and 10 described in Figs. 10A, 10B and 11 of WO 99/08 742. However, the needle protecting means may also be of different configuration and numerous configurations are suggested by the prior art. In particular the needle protecting means needs not comprise any clamping means for clamping the needle in the locked position. 15 The needle protecting means 120 which is shown in the ready condition in Fig. 1 and in the protecting condition in Fig. 2 is an integral part made of spring steel. It comprises a rear wall 126 extending transversely to the needle 16 and containing an opening. Said opening forms the engagement element 127 engaging with the irregularly configured portion 138 of the needle 16. Said opening or engagement 20 element 127 is dimensioned such that it can be freely shifted on the needle 16 but cannot pass the irregularly configured portion 138. Consequently, the rear wall is shiftable in the area between the irregularly configured portion 138 and the needle hub 12. From the ends of the rear wall 126 of the needle protecting means 120 arms 122 25 and 124 project which are generally oriented in distal direction and cross each other, with each arm 122,124 being located on a different side of the needle 16. At the end of each arm 122,124 an end wall 129,130 is arranged orthogonally to the arm. At the transition between the arm and the end wall a bend 128 or elbow oriented towards the outside is located. At the free end of the front wall 129 and C3NRPonbl\DCC\TZ5\4757125_ I.DOC-3WIU 20 12 7 130, respectively, a lip 132 bent by more than 900 is provided. The arm 122 is shorter than the other arm 124 such that the front walls 129,130 do not collide with each other in the protected condition of the needle protecting means. The front walls 129 and 130 are wider than the arms 122,124 such that, in said protecting 5 condition, they can cover the needle point 18 and protect it against contact with other parts or bodies. The needle protecting means 120 is retained in the catheter hub 26. For this purpose an annular projection 136a extending about the inner wall of the catheter hub 26 is provided. While the lips 132 press against the outer wall of the needle 16 10 from opposite sides (Fig. 1), the bends 128 grip behind the projection 136a. When the needle 16 is removed from the catheter 24 the needle protecting means 120 is retained in the catheter hub 26 such that the needle 16 slides through the catheter hub. When the needle point passes the lips 132 the arms 122,124 resiliently move into the position shown in Fig. 2 in which the front walls 129,130 cover the needle 15 point. In this condition the engagement element 127 abuts the irregularly configured portion 138 such that the needle protecting means 120 is prevented from sliding beyond the distal end of the needle 16. In the embodiment shown in Fig. 1 the projection 136a is of completely round and continuous configuration. The annular projection 136a retains the needle protecting means 120 in the 20 catheter hub 26 when the needle 16 is removed from the catheter hub 26 until the arms 122,124 of the needle protecting means 120 are no longer supported by the needle 16 and resiliently move towards the inside. Here, the projection 136 is integrally molded to the catheter hub 26, e. g. by injection molding. In the embodiment shown in Fig. 4 the projection 136b oriented towards the inside 25 is of generally C-shaped configuration. Said C-shaped projection 136b can be made from a metal snap ring partially seated in an annular groove on the inside of the catheter hub. In this way it is possible to produce the projection 136b by inserting the snap ring into the catheter hub 26 until it lockingly engages the corresponding groove.
C:\NRPorbl\DCC\TZSTSl25_l.DOC-30)/11/2012 8 Fig. 5 shows another alternative where the projection 136c is divided into two segments with intermediate interruptions 137. Each segment has a larger circumferential extension than the intermediate interruptions 137. Further, the circumferential extension is considerably larger than the width of the distal front 5 walls 129,130 of the needle protecting means. Preferably, the generally annular projection projecting towards the inside does not have any interruptions 137 whose width is larger than the width of the distal front walls 129 and 130, respectively, of the needle protecting means. The interruptions 137 being dimensioned such that they are smaller than the width of the front walls prevents 10 the needle protecting means 120 from unintentionally passing the interruptions 137 thus sliding out of the catheter hub without covering the needle point. According to the present invention any number of separate segments forming a generally annular projection may be provided as long as the needle protecting means 120 is securely retained in the catheter hub when the needle 16 is removed 15 from the catheter 24. As shown in Figs. 6 and 7 the irregularly configured portion 138 of the needle 16 is preferably produced by deformation, with two bulges 138a oriented in opposite directions and at right angles thereto two dents 138b also located opposite each other being produced. The bulges 138a have a width W which is small enough to 20 allow the needle 16 to move in the catheter 24 as shown in Fig. 1, but which is too large to pass the opening forming the engagement element 127 in the basis wall 126 of the needle protecting means 120. The catheter device according to Fig. 1 is assembled by pushing the needle protecting means 120 over the point 18 of the needle 16 before the irregularly 25 configured portion 138 is produced on the needle. The needle 16 then passes the engagement element 134 which is an opening in the basis wall 126 of the needle protecting means 120. The distal arms 132 are pressed apart and the needle 16 passes between them. Then the irregularly configured portion 138 is produced on the needle 16 such that the needle protecting means 120 is captured between the 30 irregularly configured portion 138 and the needle hub.
C:NRPorbl\DCC\TZSW757123 I.DOC311121112 9 Then the needle 16 and the needle protecting means 120 located thereupon are inserted into the catheter hub 26 such that the acute needle point 18 enters the catheter 24. The needle 16 is inserted into the catheter 24 to such an 5 extent that the bends 128 of the needle protecting means abut the projection 136a. 5 When the bends 128 abut the annular projection 136a the advance movement of the needle protecting means is stopped. This advance movement may also 10 be stopped earlier since the inner wall of the catheter hub 26 tapers such that the needle protecting means 120 is compressed during its advance movement. If the needle protecting means 120 cannot be advanced, a tool is used for advancing the 10 needle protecting means 120 further into the catheter hub 26 until the bends 128 of the needle protecting means 120 lockingly engage with the projection 136a. For this purpose an adequate force must be exerted by the tool on the needle protecting means 120 such that the bends 128 resiliently move towards each other to move over the projection 136a. Then they move towards the outside again and 15 press against the inner wall of the catheter hub 26. The needle protecting means 120 is now in the ready position as 20 shown in Fig. 1. The tool for inserting the needle protecting means may have any suitable form. Preferably, the tool shown in Fig. 8 is used which comprises a simple pin 200 having a longitudinal slot 202 extending over the overall length. The tool 200 can 20 accommodate the needle 16 in said slot 202 while advancing the needle protecting means 120. The annular projection 136a retains the needle protecting means 120 when the needle is retracted until the lips 132 of the needle protecting means 120 lockingly engage with the needle point such that the bends 128 work free from the annular 25 projection 136a and the needle protecting means, together with the needle 16, can be removed from the catheter hub 26. An alternative method of assembling the intravenous catheter comprising a spring clip according to the present invention is realized by employing the embodiment shown in Fig. 4 where the projection 136b is an open snap ring. In this case the C\NRPobKlDCOTZS\157125_1.DOCVI 1/212 10 open snap ring can be slipped onto the needle protecting means such that it is positioned between the proximal end and the distal end of the needle protecting means. Prior to this the needle protecting means 120 has been slipped onto the needle 16 which is then deformed to produce the irregularly configured portion 5 138. Thereafter the needle protecting means 120 and the open ring 136b are simultaneously inserted into the catheter hub 26 by means of the same tool. Said tool preferably comprises two fingers each of which extends along one side of the needle protecting means 120. Using these fingers the open ring 136b is pushed further into the catheter hub than the proximal end of the needle protecting 10 means 120. Thus it is not necessary to push the needle protecting means 120 over the annular projection 136b. On the contrary, the needle protecting means 120 and the annular projection 136b are inserted together. Thus the annular projection 136b is inserted into the catheter hub 26 such that the needle protecting means 120 lockingly engages with said lockingly annular projection 136b and 15 remains in that condition until the needle 16 is retracted. Figs. 9 and 10 show another embodiment of the device, which allows a different fastening method. Here, the annular projection 136d is configured such that it comprises at least 4 interruptions 137 between the segments, with the corners 250 of the needle protecting means 120a being adapted to be pushed through the 20 interruptions 137 at a low force or no force at all. When the needle protecting means 120a has been inserted into the catheter hub 26 until it is positioned behind the projection 136d, the needle protecting means 120a is rotated such that the four corners 250 are positioned behind the segments of the projection 136d as shown in Fig. 10. Thus the needle protecting means 120a is retained in the catheter hub 25 26 until the needle 16 is retracted. It may be appropriate to configure the needle protecting means 120 such that it has a generally square profile, as shown in Figs. 9 and 10, but other rectangular or polygonal contours of the needle protecting means 120a are also suitable. It is merely necessary to arrange the interruptions 137 of the projection 136d such that 30 the needle protecting means 120 can be easily pushed through said interruptions C.INRPorbIDCC\T7ZS\4757125_ .DOC-30111/2012 137 and then lockingly engages with the projection 136d when the needle protecting means 120a has been rotated such that the corners 250 abut the segments of the projection 136d. Throughout this specification and the claims which follow, unless the context 5 requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps. The reference in this specification to any prior publication (or information derived 10 from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.