METHOD AND APPARATUS FOR WRIST ARTHROPLASTY
A radiocarpal wrist joint replacement includes a radial member configured to be affixed to a portion of an end of the radial bone proximal to the wrist including a fixture to be affixed over a longitudinal aspect of the radial bone and a radial resurfacing plate having a substantially concave surface configured to be located at the end of the radial bone. A carpal capitate bone insert configured to be inserted and affixed into the carpal capitate bone. A bulbous component includes a first convex head and a second convex head, substantially opposite each other and connected by a neck defining an annular groove between the first convex head and the second convex head. The carpal capitate bone insert is configured to be flexibly coupled to the first convex head of the bulbous component. The radial resurfacing plate of the radial member with the concave surface is configured to be operably coupled to the second convex head of the bulbous component so as to allow radial freedom of motion in the joint replacement.
The present invention is a continuation application of U.S. patent application Ser. No. 15/064,673, filed on Mar. 9, 2016, now U.S. Pat. No. 9,687,352, issued on Jun. 27, 2017, which is incorporated herein by reference.
FIELD OF THE INVENTIONThe present invention relates to medical implants. More specifically, the present invention relates to a method and an apparatus for wrist arthroplasty.
BACKGROUND OF THE INVENTIONThe human wrist is a complex joint interface that bridges the proximal bones of the hands with the bones of the forearm known as the radius and ulna bones. The wrist includes a variety of carpal bones and multiple joints that intercommunicate in a common synovial cavity. These articulations work together to allow for a wide range of motions in the wrist joint. Most of the wrist motion occurs in the radiocarpal joint (RCJ) and the distal radioulnar joint (DRUJ).
The motion of the radiocarpal joint occurs between the radius and the first proximal row of carpal bones, which act together through the articular disc, and between the proximal and distal row of carpal bones. There is more a limited motion between the distal carpal bones and metacarpal bones in the hand. The DRUJ is a pivot joint located between the radius and ulna for supination and pronation movements of the hand.
Different wrist pathologies may occur in the wrist bones or joints resulting from conditions such as osteoarthritis, or from traumas, such as bone fractures, for example. A patient, or subject, with these wrist pathologies may experience severe pain during wrist movements ranging to severe disabilities due to limitations in wrist movements.
SUMMARY OF THE INVENTIONThere is thus provided, in accordance with some embodiments of the present invention, a radiocarpal joint replacement apparatus for implantation in a wrist of a subject, including a radial member configured to be affixed to a portion of an end of the radial bone proximal to the wrist including a fixture to be affixed over a longitudinal aspect of the radial bone and a radial resurfacing plate having a substantially concave surface configured to be located at the end of the radial bone, a carpal capitate bone insert configured to be inserted and affixed into the carpal capitate bone, and a bulbous component comprising a first convex head and a second convex head, substantially opposite each other and connected by a neck defining an annular groove between the first convex head and the second convex head, wherein the carpal capitate bone insert is configured to be flexibly coupled to the first convex head of the bulbous component, and wherein the radial resurfacing plate of the radial member with the concave surface is configured to be operably coupled to the second convex head of the bulbous component so as to allow radial freedom of motion of the carpal capitate member with respect to the radial resurfacing plate after the implantation.
Furthermore, in accordance with some embodiments of the present invention, the carpal capitate bone insert includes a dorsal cortical plate and an intraosseous stem, the intraosseous stem inserted into the carpal capitate bone, and the carpal capitate bone insert is affixed to the carpal capitate bone with screws inserted through holes in the dorsal cortical plate and the intraosseous stem.
Furthermore, in accordance with some embodiments of the present invention, the carpal capitate bone insert includes a screw threaded into the carpal capitate bone so as to affix the carpal capitate insert to the carpal capitate bone.
Furthermore, in accordance with some embodiments of the present invention, the carpal capitate bone insert includes petals configured to be inserted into the annular grove so as to flexibly hold the bulbous component to the carpal capitate bone insert.
Furthermore, in accordance with some embodiments of the present invention, the carpal capitate bone insert includes an implant insertion element coated with hydroxylapatite.
Furthermore, in accordance with some embodiments of the present invention, the bulbous component is formed from a material selected from the group consisting of polyethylene, ceramic, and pyrocarbon.
Furthermore, in accordance with some embodiments of the present invention, the radial resurfacing plate is formed from a polished metal surface.
Furthermore, in accordance with some embodiments of the present invention, the fixture is V-shaped.
Furthermore, in accordance with some embodiments of the present invention, the radiocarpal joint replacement apparatus, includes a hook formed on the radial member facing the ulna bone and proximal to the wrist, and an ulnar member configured to be affixed to a portion of an end of the ulna bone proximal to the wrist and opposite to the hook, the ulnar member including a bore configured to receive hook, and retain the hook after implantation, wherein the bore is shaped to allow relative movement between the radial bone and the ulna bone so as to facilitate supination and pronation movement of the wrist of the subject.
Furthermore, in accordance with some embodiments of the present invention, the ulnar member is formed from a receptacle piece and a mounting piece.
Furthermore, in accordance with some embodiments of the present invention, the bore is C-shaped.
There is further provided, in accordance with some embodiments of the present invention, a distal radioulnar joint replacement apparatus for implantation in a wrist of a subject, including a sigmoidal member configured to be affixed onto a portion of an end of the radial bone proximal to the wrist including a lower mounting bracket to be affixed over a longitudinal aspect of the radial bone so as to face the ulna bone, the sigmoidal member including a hook, and an ulnar member configured to be affixed to a portion of an end of the ulna bone proximal to the wrist and opposite to the sigmoidal member, the ulnar member including a bore configured to receive hook, and retain the hook after implantation, wherein the bore is shaped so as to allow relative movement between the radial bone and the ulna bone so as to facilitate supination and pronation movement of the wrist of the subject.
Furthermore, in accordance with some embodiments of the present invention, the sigmoidal member includes a triangular peg implanted into cancellous bone at the end of the radius bone.
Furthermore, in accordance with some embodiments of the present invention, the bore is C-shaped.
Furthermore, in accordance with some embodiments of the present invention, the ulnar member is formed from a receptacle piece and a mounting piece.
Furthermore, in accordance with some embodiments of the present invention, the receptacle piece is formed from a material selected from the group consisting of mobile polyethylene and pyrocarbon, and the mounting piece is formed from a material selected from the group consisting of stainless steel and titanium.
There is further provided, in accordance with some embodiments of the present invention, a radiocarpal joint cartilage replacement apparatus for implantation in a wrist of a subject including a radial member configured to be affixed to a portion of an end of the radial bone proximal to the wrist including a fixture to be affixed over a longitudinal aspect of the radial bone and a radial resurfacing plate having a substantially concave surface configured to be located at the end of the radial bone, and a cartilage replacement member with a first surface and a second surface wherein after implantation, the first surface is configured to be operably coupled to the carpal bones in the wrist and configured to be affixed to the radial member on the second surface.
Furthermore, in accordance with some embodiments of the present invention, the cartilage replacement member is configured to be affixed to the radial member on the second surface by one or more tabs formed on the cartilage replacement member that are respectively inserted and held within one or more holes formed in the radial member.
Furthermore, in accordance with some embodiments of the present invention, the cartilage replacement member is formed from plastic.
Furthermore, in accordance with some embodiments of the present invention, the fixture is V-shaped.
BRIEF DESCRIPTION OF THE DRAWINGSIn order for the present invention, to be better understood and for its practical applications to be appreciated, the following Figures are provided and referenced hereafter. It should be noted that the Figures are given as examples only and in no way limit the scope of the invention. Like components are denoted by like reference numerals.
In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. However, it will be understood by those of ordinary skill in the art that the invention may be practiced without these specific details. In other instances, well-known methods, procedures, components, modules, units and/or circuits have not been described in detail so as not to obscure the invention.
Although embodiments of the invention are not limited in this regard, discussions utilizing terms such as, for example, “processing,” “computing,” “calculating,” “determining,” “establishing”, “analyzing”, “checking”, or the like, may refer to operation(s) and/or process(es) of a computer, a computing platform, a computing system, or other electronic computing device, that manipulates and/or transforms data represented as physical (e.g., electronic) quantities within the computer's registers and/or memories into other data similarly represented as physical quantities within the computer's registers and/or memories or other information non-transitory storage medium (e.g., a memory) that may store instructions to perform operations and/or processes. Although embodiments of the invention are not limited in this regard, the terms “plurality” as used herein may include, for example, “multiple” or “two or more”. The terms “plurality” or “a plurality” may be used throughout the specification to describe two or more components, devices, elements, units, parameters, or the like. Unless explicitly stated, the method embodiments described herein are not constrained to a particular order or sequence. Additionally, some of the described method embodiments or elements thereof can occur or be performed simultaneously, at the same point in time, or concurrently. Unless otherwise indicated, us of the conjunction “or” as used herein is to be understood as inclusive (any or all of the stated options).
When sever wrist pathologies occur, therapeutic methods such as the use of medications may not alleviate the pain and movement limitations in the wrist joints for the patient. Partial or full wrist arthroplasty, or wrist joint replacements, may be the best course of treatment for the patient, or subject.
Previously, different wrist implant topologies involved the resection of portions of the radius and/or ulna bones and affixing portions of the implant components, such as pegs, within the soft intramedullary canal. Such soft tissue stabilizing techniques of the implant components in the soft medullary tissue have been shown to loosen over time and untimately fail, which requires additional surgery to fix and re-stabilize the implants. Moreover, in some implant topologies, the implant components may be bolted across multiple carpal bones to fix the multiple carpal bones in place severely limiting wrist movements. Some implants may bond portions of the radius to the ulna particularly in the case after large resections of those bones. These implant topologies severely limit the motion in the multiple wrist joints and may cause early loosening of the implant.
Described herein are some embodiments of a method and apparatus for wrist arthroplasty including radiocarpal joint (RCJ) and distal radioulnar joint (DRUJ) replacements. A method and apparatus for renewing the articular surface of the distal radius with a cartilage replacement can be used to repair damage, for example, from intra-articular fractures of the distal radius (e.g., from sport injuries) according to some embodiments of the present invention is also taught herein without the need to replace the entire joint (e.g., hemi-arthroplasty). Implant solutions according to some embodiments of the present invention overcome many of the implant failure and joint mobility problems seen in previous wrist implants and prostheses.
Wrist implants according to some embodiments of the present invention further account for minimal bone resection, preservation of the mobility of the radiocarpal, intercarpal and carpometacarpal joints, and a reduction of shear, bending and frictional forces in the implant components so as to prevent a loosening of the implant. Wrist implant topologies according to some embodiments of the present invention do not apply a classic ball and socket approach to the joint, but apply methods of joint articular surface reconstruction to the complex joint surfaces. Implant technologies according to some embodiments of the present invention include wrist implant topologies which combine radiocarpal joint (RCJ) replacement with the option of DRUJ resurfacing replacement and stabilization within the same implant.
Implant topologies according to some embodiments of the present invention utilize a plate fixation method whereby the implant components are plate-like and use screws to affix the plate components to the hard outer cortical bone layers for better implant stability. There is minimal bone resection with minimal placement of the implant components within the soft issue of the medullary cavity to stabilize the implant. Plate-like components used in some embodiments of the present invention employ a closed frame construction, such as the Y-plate affixed to the radius used in the RCJ implant as will described later, so as to achieve maximum contact and mechanical stability of the implant with prevention of implant failure. Surgical techniques employed according to some embodiments of the present invention for implanting the wrist replacements are simple and easy.
To implant the RCJ replacement shown in
A radial member 155 of the RCJ replacement includes holes 160 through which fasteners, typically screws, are to be inserted and threaded to allow affixing, attaching, or locking radial member 155 to a portion of an end of radius bone 165 proximal to the wrist. In contrast to the problems associated with soft tissue mounting of implants, radial member 155 is typically affixed to the cortex of radius bone 165 so as to provide a solid mechanical support for the RCJ replacement. A carpal bone insert 180 of the RCJ replacement is configured to be inserted and affixed only to carpal capitate bone 125 of the wrist, but not to other carpal bones, allowing greater maneuverability of the wrist, as a result. Carpal capitate bone insert 180 is coupled to a bulbous component 183, which includes a convex head 185 substantially opposite to carpal capitate bone insert 180.
Radial member 155 further includes a radial articular resurfacing plate 213 having a substantially smooth concave surface that is to be located at the end of the radial bone proximal to the wrist for supporting the radial member 155 when in-situ. The wrist includes the carpal bones and multiple joints that intercommunicate in a common synovial cavity. “Proximal” to the wrist refers, in the context of the present application, to the side of radial bone 165 nearest the carpal bones. This portion of the radial bone is referred to, in the context of the present application, as the distal radius. Radial articular resurfacing plate 213 is attached substantially perpendicular to V-shaped radial fixture 210 as shown in
Carpal capitate bone insert 180 includes a dorsal surface cortical plate 247 and a central intraosscous stem 249. A bulbous component 183 is configured to be flexibly coupled to carpal capitate bone insert 180 and located substantially opposite to carpal capitate bone insert 180. Bulbous component 183 includes a convex head 185 having a convex surface. Dorsal cortical plate 247 is maneuvered, during the implantation procedure, to be positioned on the dorsal cortical position of carpal capitate bone 125 and stem 249 is inserted into the central intraosseous position of the carpal capitate bone. Four screw holes 220 for four screws 225 are located on both stem 249 and plate 247 of insert 180. Four screws 225 traverse carpal capitate bone 125 in the dorsal to palmar direction so as to affix plate 247 to carpal capitate bone 125 and central intraosseous stem 249; however, any number screws may be used.
The head of stem 249 includes several petals, in this example, four petals. Two petals 245 are generally oriented in the dorsal-volar direction and two petals 250 are generally oriented in the radioulnar direction. The petals are flexibly configured to snap-in, or connect to a neck 253, so as to hold bulbous component 183 to carpal capitate bone insert 180.
Radial articular resurfacing plate 213 of radial member 155 with the concave surface is configured to be operably coupled to the convex surface of convex head 185 of carpal capitate member 175 so as to allow radial freedom of motion of carpal capitate member 175 with respect to radial articular resurfacing plate 213 after implantation. Note that the term “operably coupled” in the context of wrist arthroplasty is defined herein to mean that in coupling, bonding, connecting or otherwise holding together the two components forming the wrist joint replacement, implant, or prostheses, with two articulating surfaces, the motion of the two articulating surfaces are identical, or most closely replicate, the same motions found in equivalent in vivo joint articulating surfaces. Stated differently by way of example, the movements, or motions, of the RCJ replacement after implantation would most closely replicate the same movements, or motions, found equivalently in a normal (healthy) radiocarpal joint in the wrist.
Radial fixture 210 (the dorsal plate), includes holes 160 through which fasteners, typically screws 225, are used for plate fixation of radial member 155 to the radial bone cortex. This technique for assembling the RCJ replacement is referred to, in the context of the present application, as dorsal radius fracture fixation. In some embodiments, holes 160 have threading for screws 225 to be fixed to radial member 155. One or more holes 227 on the central region of the “V” pass are oval shaped. Screwing screw 225 into a chosen side of oval hole 227 applies a longitudinal stress to fixture 210 in the direction of the chosen side so as to allow an additional degree of freedom for placing and fastening radial fixture 210 to radius bone 215. Although a V-shaped radial fixture is described, aimed at providing good mechanical stability, other shapes may be considered, too. The V-shape is not in any way limiting the embodiments of the present invention to that shape. Other shapes for the radial fixture may be used with varying number of screws and respective screw holes in any geometric orientation.
Radial fixture 210 (dorsal plate) is also connected to radial articular resurfacing plate 213. Two triangular pegs 230 that are formed in the bottom side of radial articular resurfacing plate 213 are designed to be pressed against and penetrate into the end of the radius bone as shown in
Radial member 155 of the radiocarpal joint (RCJ) replacement includes a radial fixture 210 which is integrally formed with radial articular resurfacing plate 213. Radial articular resurfacing plate 213 is concave 312 toward the carpus, or carpal bones, and convex 314 toward the radial articular surface of the radial bone according to the normal anatomical concavity of the articular surface of the distal radius. In some embodiments, radial articular resurfacing plate 213 with concave surface 312 is fabricated or formed to present a highly polished metal surface. Convex surface 314 may be coated (e.g., hydroxylapatite) for better contact with the distal radius bone and also to allow for bone growth.
Radial fixture 210 also includes holes 160 for screws to affix the radial member 155 to the cortex of the radius and an oval hole 227 which allows another longitudinal degree of freedom in firmly attaching radial fixture 210 to the radius bone as described in
Two triangular pegs 230 are formed in convex surface 314 of radial articular resurfacing plate 213 (e.g., on the volar portion of plate 213). Pegs 230 have screw holes 240 such that two lock screws 235 mounted through holes 240 and holes 234 (as described in
Four screw holes 220 for four screws 225 are located on both stem 249 and plate 247 of insert 180. Four screws 225 traverse and are threaded through carpal capitate bone 125 in the dorsal to palmar direction so as to affix plate 247 to carpal capitate bone 125 and central intraosseous stem 249; however, any number screws may be used. Holes 220 in plate 247 are parallel to holes 220 in stem 249. Plate 247 is connected to stem 249 at a proximal end 418 of stem 249. Also connected to a proximal end 418 of stem 249 are four petals. Two petals 245 are oriented in the dorsal-volar direction and two petals 250 are oriented in the radioulnar direction.
In some embodiments, carpal capitate bone insert 180 may be formed from titanium or stainless steel. In other embodiments, stem 249 are prepared with plasma deposited hydroxylapatite which gives stem 249 a corrugated coated surface for better bone growth and adhesion when stem 249 is implanted within the central intraosseous position of the carpal capitate bone.
According to some embodiments of the invention, there may be provided bulbous components with different neck sizes to cater for various palm sizes. Bulbous component 183 may be made from a material selected from the group consisting of polyethylene, pyrocarbon, and ceramic. Similarly, the bulbous components may be provided with second convex heads 185 of different sizes. However, the size of second convex heads 185 is typically the same or similar for most purposes. The size of the carpal capitate member and can be predetermined by snapping in a bulbous component, for example, having the proper neck size to suit the patient's palm size. The adjustment of the size of the carpal capitate member in this manner can be used to balance between the tension and wrist motion during implantation so as optimize performance of the RCJ replacement.
The RCJ replacement effectively has two joints that can move during the motion of the RCJ wrist replacement. Movement in the first joint in the RCJ replacement mainly occurs where the convex surface of second convex head 185 is configured to be operably coupled to radial articular resurfacing plate 213. The area of the convex head articulates with the radial articular resurfacing plate of substantially the same area. In addition, the flexible coupling between carpal capitate bone insert 180 and bulbous component 183 forms a second flexible joint with another degree of freedom in the movement of the overall RCJ replacement. The flexible movements possible in the second joint are small relative to the large radial movements in the first joint.
To implant the RCJ replacement in the second embodiment of
A radial member 155 of the RCJ replacement includes radial member holes 160 through which fasteners, typically screws can be inserted and threaded to allow affixing or locking radial member 155 to a portion of an end of radius bone 165 proximal to the wrist. In contrast to soft tissue mounting of implants, radial member 155 is typically affixed to the cortex of radius bone 165 to provide a solid mechanical support for the RCJ replacement. A carpal capitate bone insert 575 of the RCJ replacement is configured to be affixed by a screw 580 only to carpal capitate bone 125 of the wrist, but not to other carpal bones, allowing greater maneuverability of the wrist, as a result. The head of screw 580 includes a spherical highly polished small head. In the same manner, as described in
Carpal capitate bone insert 575 includes screw 580 with wide threads along the shank which is inserted, threaded, implanted, or affixed to the carpal capitate bone, The head of screw 580 includes four petals. Two petals 45 are oriented in the dorsal-volar direction and two petals 250 are oriented in the radioulnar direction. The petals are configured to be connected to a neck 253 of bulbous component 183. Two petals 250 oriented in the radioulnar direction each have threaded oblique holes 647.
After implantation of the screw into the carpal capitate bone, two locking screws are threaded through the carpal capitate bone, through channels 648 formed in the shank of main capitate screw 580 and into oblique holes 647. A first locking screw 649 is mounted from threaded oblique hole 647 and is oriented toward the ulnar dorsal base of the carpal capitate bone. A second locking screw 651 is mounted from threaded oblique hole 647 and is oriented toward the radial volar base of the carpal capitate bone. The shank of screw 580 is coated for good contact and good bone growth with plasma deposited hydroxylapatite for implantation within the central introsseous position of the carpal capitate bone.
Stated differently, in some embodiments, carpal capitate insert includes an implant insertion element selected from the group consisting of stem 249 and screw 580. The implant insertion element is implanted into the central intraosseous position of the carpal capitate bone and may be coated with hydroxylapatite.
Bulbous component 183 includes a convex head 185 having a convex surface. The four petals 245 and 250 are substantially flexible and allow the insertion of bulbous component 183 such that the four petals squeeze and bite down on annular ring 430 of neck 253 as described in
Radial articular resurfacing plate 213 of radial member 155 with the concave surface is configured to be operably coupled to the convex surface of convex head 185 of carpal capitate member 575 so as to allow radial freedom of motion of carpal capitate member 575 with respect to radial articular resurfacing plate 213 after implantation. The area of the convex surface of convex head 185 is substantially the same as the area of radial articular resurfacing plate 213.
Radial fixture 210, or dorsal plate, includes holes 160 through which fasteners, typically screws 225, are used for plate fixation of radial member 155 to the radial bone cortex. This technique for assembling the RCJ replacement may also be referred to as dorsal radius fracture fixation. In some embodiments, holes 160 have threading for screws 225 to be fixed to radial member 155. Two or three holes 227 on the central region of the “V” are oval which allow compression of radial fixture 210 longitudinally to radius bone 165.
Radial fixture 210 (dorsal plate) is also connected to radial articular resurfacing 213. Two triangular pegs 230 that are formed in the bottom side of radial articular resurfacing plate 213 are designed to be pressed against and penetrate into the end of the radius bone as shown in
When pathologies exist in the distal radioulnar joint (DRUJ), such as sigmoid notch damage, that affect supination and pronation movements of the wrist, a DRUJ replacement can be implanted to alleviate the dysfunction.
Ulnar member 1015 is also constructed with a triangular block 1133 that restores a partial oblique resection of the articular surface of an ulnar head 1140 of ulna bone 170, restoring nearly ⅔ of the ulnar head. Ulnar member 1015 is partially affixed by a screw 1125 inserted to threaded through screw hole 1130 into triangular block 1133.
A bore 1230 is formed into ulnar portion 1015. Bore 1230 may also be referred to herein as a supination-pronation tunnel. In some embodiments, bore 1230 may include a track formed in ulnar portion 1015. In other embodiments, bore 1230 may
include a groove formed in ulnar portion 1015. Ulnar portion 1015 is held to ulna bone 170 by three screws as shown in
Hook 1040 of sigmoidal member 1005 is inserted and held in bore 1230 in ulnar member 1015 which is configured to receive hook 1040, and retain the hook after implantation. Although bore 1230 is shaped like a “C”, the C-shape has been determined to provide good stability of the DRUJ replacement when the wrist is moved in pronation and supination, any suitable bore shape can be chosen so as to optimize the joint stability and performance.
Peg 1105 is impacted into the cancellous bone of the distal radius and affix to radius 165 by screw 1120 threaded through holes 1110 and 1205. The screws and screw holes are the same as described in
As shown in
After implantation, radial resurfacing plate 213 of modified radial member 1510 with the concave surface is configured to be operably coupled to the convex surface of convex head 185 of carpal capitate member 575 so as to allow radial freedom of motion of the carpal capitate member with respect to the radial resurfacing plate of the RCJ replacement. Hook 1040 is inserted into bore 1230, which is configured to receive and retain the hook. The bore in the DRUJ replacement is shaped to allow relative movements between the radial bone and ulna bone so as to facilitate supination and pronation movement of the wrist. Note that either embodiment of carpal capitate member may be used in the RCJ replacement in
Modified radial member 1510 is identical to radial member 155 as shown in
Different embodiments are disclosed herein. Features of certain embodiments may be combined with features of other embodiments; thus, certain embodiments may be combinations of features of multiple embodiments. The foregoing description of the embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. It should be appreciated by persons skilled in the art that many modifications, variations, substitutions, changes, and equivalents are possible in light of the above teaching. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.
While certain features of the invention have been illustrated and described herein, many modifications, substitutions, changes, and equivalents will now occur to those of ordinary skill in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.
Claims
1. A distal radioulnar joint replacement apparatus for implantation in a wrist of a subject, the apparatus comprising:
- a sigmoidal member configured to be affixed onto a portion of an end of the radial bone proximal to the wrist including a lower mounting bracket to be affixed over a longitudinal aspect of the radial bone so as to face the ulna bone, the sigmoidal member including a hook; and
- an ulnar member configured to be affixed to a portion of an end of the ulna bone proximal to the wrist and opposite to the sigmoidal member, the ulnar member including a bore configured to receive hook, and retain the hook after implantation,
- wherein the bore is shaped so as to allow relative movement between the radial bone and the ulna bone so as to facilitate supination and pronation movement of the wrist of the subject.
2. The apparatus of claim 1, wherein the sigmoidal member comprises a triangular peg implanted into cancellous bone at the end of the radius bone.
3. The apparatus of claim 2, wherein the triangular peg comprises a threaded hole for receiving a screw.
4. The apparatus of claim 3, wherein the sigmoidal member comprises a screw hole configured to enable threading of a screw through the screw hole and the radius bone and into the threaded hole.
5. The apparatus of claim 1, wherein the bore is C-shaped.
6. The apparatus of claim 1, wherein the ulnar member is formed from a receptacle piece and a mounting piece.
7. The apparatus according to claim 6, wherein the receptacle piece is formed from mobile polyethylene or pyrocarbon.
8. The apparatus according to claim 6, wherein the mounting piece is formed from stainless steel or titanium.
9. The apparatus of claim 6, wherein the receptacle piece includes the bore.
10. The apparatus of claim 6, wherein the receptacle piece includes rails and the mounting piece includes tracks configured to receive the rails to hold the receptacle piece on the mounting piece.
11. The apparatus of claim 6, wherein the mounting piece includes a plurality of screw holes configured to endable affixing the mounting piece to the ulna bone.
12. The apparatus of claim 1, wherein the lower mounting bracket includes at least one screw hole configured to enable affixing the lower mounting bracket to an ulnar side of the radius bone.
13. The apparatus of claim 12, wherein said at least one screw hole comprises two screw holes.
14. The apparatus of claim 1, wherein the ulnar member comprises a plurality of screw holes to enable affixing the ulnar member to the ulnar bone.
15. The apparatus of claim 14, wherein a screw hole said plurality of screw holes is configured to enable threading of a screw through that screw hole through an ulnar head into a hole in a triangular block of the ulnar member.
16. the apparatus of claim 14, wherein a screw hole said plurality of screw holes has an oval shape.
Type: Application
Filed: Jun 25, 2017
Publication Date: Oct 12, 2017
Inventor: Lauren GORELICK (Rosh-Hanikra)
Application Number: 15/632,382