The present invention is directed, generally, to a guidewire protector and advancing device used in connection with medical devices for providing intravascular access into a blood vessel, including veins, arteries, or other anatomical structure for advancing the guidewire used to place such medical devices within the anatomical structure. More specifically, the guidewire protector and advancing device rapidly and easily advances substantial lengths of wire for rapid and effective intravascular placement of the medical device, such as through the proximal end of an access needle integrated with a catheter.
Intravascular (IV) access is a mainstay of medical care, and provides a conduit for delivery of life-saving medications, fluids, and nutrition. Furthermore, venous access allows the aspiration and sampling of blood for diagnostic purposes to learn more about the medical patient. IV access may be within a peripheral vein, a central vein, or an intermediate placement such as a peripherally inserted central catheter (PICC) or midline/extended dwell peripheral IV (EDPIV). Intra-arterial access is also commonplace, and the archetype of arterial access is that of the well-described arterial “art” line. Rather than serving as a conduit for the administration of fluids as is seen in venous lines, arterial lines are most frequently employed for diagnostic purposes in the invasive, yet accurate, collection of vital signs and blood gases. Finally, arterial access also enables percutaneous introduction of vascular devices, namely hemostatic sheaths, for the subsequent introduction and exchange of various catheters, wires, and other endovascular devices.
Barriers to effective and safe intravascular access include limitations in patient anatomy, patient medical condition, potential loss of sterility, and user proficiency. Anatomical barriers include size and depth of the vessel, tortuosity or lack of a sufficient inline segment, vessel spasm, and lack of good direct or ultrasound visualization. When patients require intravascular access, they are often in an unhealthy state, which may further complicate the creation of durable access, including smaller vessels in the setting of dehydration or systemic illness, as well as concern for potential bleeding complications in the ill and anticoagulated patient. Sterility may be broken dependent on the preparation and positioning of the patient's access site, but may often be related to operator error while try to control an unwieldy object, or make multiple device exchanges. All the aforementioned barriers may be further complicated by individual skill and training. Therefore, desirable attributes of a vascular access device include an intuitive device whose components, namely the wire, are user-friendly and sufficiently long enough to obtain the necessary amount of purchase inside a vessel to maximize trackability, and ultimately, the technical success, sterility, and safety of introducing an integrated catheter.
It is, therefore, advantageous to provide a guidewire protector and advancing device for rapidly, efficiently, and effectively advancing substantial lengths of guidewire through a needle for medical device placement within an anatomical structure, such as an artery or vein, while also rendering the procedure as minimally invasive as possible. Although originally designed for use with a vascular access catheter, the device could also be used to facilitate access into other body cavities such as the thorax for insertion of chest tubes or the abdomen for insertion of paracentesis or nephrostomy catheters or drains. The guidewire protector and advancing device may be used on conjunction with any medical device employing a guidewire, including U.S. Ser. No. 15/008,628 for Rapid Insertion Integrated Catheter and Method of Using an Integrated Catheter, which is incorporated herein by reference.
The present invention overcomes shortcomings of the prior art by providing a novel slotted guidewire protector and advancing device which facilitates guidewire insertion into a target vessel for gaining vascular access, such as performing an endovascular procedure. For demonstration purposes, the guidewire advancing device according to the present invention is used with a tubular catheter body configured to receive a hollow needle for receiving the guidewire. The guidewire advancing device includes a slotted wire guide, a guidewire stay, a needle hub and a clamp. More specifically, the wire guide is a generally tubular member having a longitudinally extending channel with an open upper edge configured for receipt of a guidewire. The channel configuration permits the guidewire to be advanced distally, along the length of the channel wherein the proximal portion of the guidewire may be advanced outside of the channel. The guidewire stay is positioned on the proximal end of the guidewire and is manipulated by the treating physician for advancing the guidewire. The brace connects the wire guide to the catheter and is easily removed therefrom. The distal portion of the guidewire may be engaged with the needle during use, or it may be pre-assembled with the needle wherein advancement of the guidewire advances the wire distally from the needle tip for intravascular placement.
The method of using the device permits the treating physician to effectively, accurately, and rapidly advance the guidewire for intravascular placement of a medical device. The length of the guidewire is managed as it is advanced along the length of wire guide channel. Upon placement of the needle within the target vessel, the physician may advance the guidewire by advancing the guidewire stay which passes adjacent to the open side of the wire guide channel. The guidewire stay advances until engaging the needle hub, or in the fully advanced position at the distal conical portion of the wire guide. The guidewire stay is designed to prevent loss of the wire through the access needle and into the patient's vasculature, however, a separate embodiment could include a simple guidewire without a stopper. These and other objectives are met by the present invention.
The present invention will now be described in detail hereinafter by reference to the accompanying drawings. The invention is not intended to be limited to the embodiments described; rather, this detailed description is provided to enable any person skilled in the art to make and practice the invention.
As used herein, the terms “proximal” and “distal” (excluding horizontal cross-sections) are used to refer to the axial ends of the assembly. The term “proximal end” refers to the end closely adjacent the user of the assembly and the term “distal end” refers to the end of the assembly to be intravascularly positioned.
The guidewire advancing device 10, as shown in
For the purposes of its use with the rapid insertion venous catheter, the wire 15 is preassembled into the proximal end of the venous access needle 13. Alternatively, the guidewire may be inserted into the access needle after initiation of the procedure, that is, it is not “pre-loaded” into the needle. The device 10 may also be used in a manner as to be contained within the housing of a peripheral IV (PIV) or midline/extended dwell peripheral IV (EDPIV) device, or as a mechanism to be used in conjunction with any type and configuration of a peripheral or central line. One skilled in the art of vascular access and minimally invasive procedures could also envision a device that could contain this mechanism not only for peripheral or central venous access, but also for arterial access as is seen in arterial lines for invasive vital sign monitoring, hemostatic vascular sheaths for venous/arterial procedures, or access components, such as peel-away sheaths, for example. Additionally, the guidewire device 10 described herein could be used in conjunction or incorporated in a device used for percutaneous access into any cavity as is seen in image-guided drain/catheter placements into an abscess, the renal collecting system, biliary system, or any space or potential space of the human body.
The catheter 12 is a disposable, single use device that is made of a biocompatible material. The needle and guidewire may be made of known materials, such as steel, nitinol, or a composition including one or both. The guidewire 15, according to one aspect, is formed of a flexible material to accommodate anatomical complications such as complex and tortuous vasculature. Commonly used materials are a polymeric coated or metallic wire.
The needle 13 has an insertion tip and is hollow and may be formed of a surgical grade stainless steel, such as an 18-22 gauge, as is common in the art.
As shown, the guidewire 15 extends along the length of the hollow needle 13. The proximal end of the guidewire 15 preferably includes visible marks at regular intervals, for example, 1 cm, to indicate the depth of the wire. This avoids placement too deep within the vasculature, but of sufficient depth for catheter placement. The guidewire 15 may be formed of material known in the art, such as a composite with a nitinol core to provide a blend of stiffness and flexibility, for effective torque control and venous navigation.
The guidewire advancing device 10, as shown in
The guidewire advancing device 10 also includes a tapered distal end 38, a proximal cap 28, and a guidewire stay 27 positioned on the proximal end of the guidewire. The proximal cap 28 is also slotted and defines a channel to allow passage of the guidewire 15. The proximal cap 28 and the guidewire stay 27 communicate with each other and are held in place by either static friction or a screwing thread mechanism analogous to a Luer Lock device. The tapered distal end 38 is configured for receipt by the needle hub 16. The distal end 38 may be integrally formed with the wire guide 22 or, as shown, separately formed wherein the wire guide 22 is inserted therein. The needle hub 16, shown in
The guidewire advancing device 10 further includes a brace 20. Brace 20 shown in
The wire guide 22 may be of any desired length, such as substantially the length of the catheter 12 as shown. The channel 25 is open on its proximal end wherein the guidewire 15 extends along the length of the channel 25 and the guidewire stay extends proximally from the wire guide 22 as shown in
As shown, the wire guide 22 is linear. It is within the scope of the present invention, however, to provide the wire guide in a non-linear configuration, such as curvilinear, or a combination of portions which are linear and non-linear.
In operation, the guidewire 15 is preferably preloaded in the wire guide 22. The wire guide tip 38 articulates with the needle hub 16. The wire guide 22 is then connected to the catheter 12. The brace 20 of guidewire advancing device 10 mates with the catheter coupling 21, such as by a snap fit. The needle 13 is then inserted into the target vessel for treatment.
For treatment, the guidewire 15 is advanced distally to extend beyond the distal tip of the needle 13 and further into the target vessel for treatment. The length of the guidewire 15 is restrained by but slideable along the wire guide channel 25. Once positioned, the physician, utilizing the guidewire stay 27 as a handle, distally advances the guidewire 15. As it is advanced, the guidewire 15 curves upwardly, out of the channel 25, as shown in
Upon completion of guidewire 15 placement within the target vessel as necessary for the medical procedure, the wire guide 22 may be removed by applying appropriate force to disconnect the connection between the catheter coupling 21 and the brace 20. The catheter 12 may then be advanced along the length of the guidewire 15 until placed within the target vessel. The guidewire 15 and the needle 13 may then be withdrawn, leaving the catheter 12 in-dwelling within the vessel.
While exemplary embodiments have been shown and described above for the purpose of disclosure, modifications to the disclosed embodiments may occur to those skilled in the art. The disclosure, therefore, is not limited to the above precise embodiments and that changes may be made without departing from its spirit and scope.
This application is a continuation of PCT/US17/60063, filed Nov. 4, 2017 which claims priority to U.S. Pat. App. No. 62/419,426 filed Nov. 8, 2016, both entitled Slotted Guidewire Protector and Advancing Device and Method, the disclosures of which are incorporated herein by reference.
Number | Date | Country | |
---|---|---|---|
62419426 | Nov 2016 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/US17/60063 | Nov 2017 | US |
Child | 16402373 | US |