ARTHROSCOPIC BONE TRANSPLANTING PROCEDURE, AND MEDICAL INSTRUMENTS USEFUL THEREIN
Described is an arthroscopic bone transplanting procedure for transplanting a section of a first bone to a second bone. The described procedure is particularly useful for the treatment an anterior shoulder instability, where the first bone is the coracoid and the second bone is the glenoid. Also described is a kit of medical instruments particularly useful in such a procedure.
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This application is a continuation of U.S. patent application Ser. No. 14/142,971 filed on Dec. 30, 2013, which is a division of U.S. patent application Ser. No. 12/375,422 filed on Nov. 6, 2009, now U.S. Pat. No. 8,617,219, which is a National Phase of PCT Patent Application No. PCT/IL2007/000952 having International filing date of Jul. 30, 2007, which claims the benefit of priority of U.S. Provisional Patent Application No. 60/834,173 filed on Jul. 31, 2006. The contents of the above Applications are all incorporated herein by reference.
FIELD AND BACKGROUND OF THE INVENTIONThe present invention relates to an arthroscopic bone transplanting procedure and to medical instruments useful in such a procedure as may be supplied in the form of a kit. The invention is particularly useful in the treatment of an anterior shoulder instability, where a section of the coracoid is transplanted to the glenoid, and is therefore described below with respect to said transplant.
The range of movements the human shoulder can make far exceeds any other joint in the body. The shoulder joint is a ball and socket joint, similar to the hip; however, the socket of the shoulder joint is extremely shallow, and thus inherently unstable. Muscles and tendons serve to keep the bones in approximation. In addition, in order to compensate for the shallow socket, the shoulder joint has a cuff of fibrous cartilage called a labrum that forms a cup for the head of the arm bone (humerus) to move within. This cuff of cartilage makes the shoulder joint much more stable, yet allows for a very wide range of movement. When the labrum of the shoulder joint is damaged, the stability of the shoulder joint is compromised, leading to subluxation and dislocation of the joint. Recurrent dislocations may cause damage to the bones of the joint—the humeral head and the glenoid. In particular, damage to the anterior-inferior part of the glenoid will cause a decrease in the area of contact with the humeral head.
When bone deficiencies associated with anterior shoulder instability are present, the prognostic factors for the success of soft tissue repair are poor. Current standards of success are predicated on the restoration of motion and strength and the return to full functional activities, including competitive athletics. Reestablishment of anterior shoulder stability requires the recognition and the treatment of osseous defects.
Several surgical procedures have been described for the management of osseous deficiencies in association with anterior shoulder instability, involving the transplantation of a portion of the coracoid process to the anterior-inferior section of the glenoid. The procedure described by Latarjet in 1954 involves the transplantation of a large section of the coracoid together with the conjoined tendon attached to it to reinforce the glenoid fossa and create an antero-inferior musculotendinous sling. The procedure has been performed since its disclosure with positive results as an open surgical intervention.
However, up to the present, no minimally invasive technique for performing it has been developed.
OBJECTS AND BRIEF SUMMARY OF THE PRESENT INVENTIONAn object of the present invention is to provide an arthroscopic bone transplanting procedure which is particularly useful in the treatment of anterior shoulder instability, but may be used in other procedures involving implanting of a section of a first bone to a second bone. A further object of the invention is to provide instruments, which may be supplied in kit form, particularly useful in such an arthroscopic procedure.
According to one aspect of the present invention, there is provided an arthroscopic procedure for transplanting a section of a first bone to a second bone, comprising the following steps: (a) making small incisions to open portals for the introduction of medical instruments; (b) drilling a threaded bore in said section of said first bone; (c) attaching a first cannula to said section of said first bone; (d) separating said section from said first bone; (e) positioning said separated section of said first bone on said second bone; (f) replacing said first cannula by a second cannula attached to said separated bone section by a cannulated device; (g) introducing a guide wire through the cannulated device; (h) removing the cannulated device; (i) drilling a bore into the second bone by a cannulated drill guided by said guide wire; (j) removing the guide wire; (k) and applying a bone screw through said bore in said separated section of the first bone and said bore in said second bone.
The preferred embodiment of the invention described below is particularly useful for the treatment of anterior shoulder instability, or other disorders where it is desired to use at least two bone screws for attaching a section of a first bone to a second bone. When such a procedure is used, in step (b), two threaded bores at a fixed distance from each other are drilled in said section of the first bone; in step (c), the first cannula is a T-handle cannula and is attached in said first bore by sutures or flexible wires; in step (f), the second cannula is a double cannula and is attached to said section of the first bone by two cannulated devices; in step (g), two guide wires are introduced through the two cannulated devices, which cannulated devices are then removed in step (h); in step (i), two bores are drilled into the second bone by a cannulated drill guided by said guide wires; in step (j), the two guide wires are removed; and in step (k), two bone screws are applied through the two bones in the separated section of the first bone, and the two bores in the second bone.
Other aspects of the invention involve the construction of medical instruments, which may be supplied in a kit, particularly useful for the above-described bone transplanting procedures.
Further features of the invention will be apparent from the description below.
The present invention is herein described below, the reference to the accompanying drawings, wherein:
The glenoid is the lateral part of the shoulder blade scapula 4. Two hook-like projections of the scapula seen overhanging the glenoid are the acromion 5 and the coracoid process 6. A group of muscles collectively known as the Rotator Cuff originate on the scapula and insert on the humerus. These serve to stabilize the joint by keeping the humeral head in contact with the glenoid cavity. The clavicle 7 connects the acromion to the breastbone sternum. The glenoid labrum 8, which is a flexible fibrous ligament, surrounds the glenoid rim enlarging its area of contact with the humerus. When dislocations in the direction shown by the arrow occur, the anterior-inferior part of the labrum is torn away from the glenoid, causing instability of the joint. Recurring dislocations may lead to osseous lesions.
The description below describes a kit of instruments, and the method of their use, for performing coracoid transfer (Latarjet procedure) arthroscopically. The kit consists of various instruments, including drills, drill guides, osteotomes, cannulae, suture manipulators, screws, screwdrivers and others, specific for the purpose of the method disclosed by the invention.
A Bone Transplantation Procedure and the Medical Instruments Used ThereinThe procedure consists of the following main steps:
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- Opening portals (small incisions); introducing the arthroscope and instruments
- Preparation of the coracoid and glenoid surfaces
- Drilling and threading two holes in the coracoid at a fixed distance
- Passing sutures or flexible wires through the holes
- Attaching the coracoid by sutures or flexible wires to a cannula
- Separating the section of the coracoid to be transferred
- Positioning the graft on the glenoid
- Attaching a double cannula to the coracoid with a cannulated device
- Introducing K-wires through the cannulated device
- Removing the cannulated device
- Drilling into the glenoid with a cannulated drill over the K-wires
- Attaching the transplanted coracoid onto the glenoid with bone screws
- Removing the K-wires
- Final fixing of the transplant (tightening the screws)
- Removing the cannula.
In the reconstruction of the shoulder joint according to the present invention illustrated in
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- preparing the surfaces of the first and second bones (211),
- separating a section of the first bone (212),
- maneuvering the separated section of the first bone onto the second bone (213), and
- attaching the section of the first bone to the second bone (215).
Portals (small incisions) are first made for introducing the arthroscope and instruments and for preparing the coracoid and glenoid surfaces, leaving the conjoined tendon (shown in
Suture strands or flexible wires are now attached to the coracoid process for securing during separation by threading them through the holes. A suture loader 35,
Preparing for the transfer of the separated section of the coracoid, the subscapularis muscle is dissected and split to allow for transferring the T-handle cannula 38 with the coracoid transplant to the anterior-inferior, damaged section of the glenoid. The cannulator shown at 40 in
The two tubes “t” of the double cannula 41 are fixed, so that the distance of their centerlines “d” is identical to that of the drill guide 33 in
When the double cannula has been inserted to face the coracoid transplant, the T-handle cannula 38 is released from the sutures/wires attached to the graft and is withdrawn. Using a suture hook shown at 42 in
The sutures/wires holding the coracoid can now be removed. The exact positioning on the glenoid may be assisted by using a suitable instrument, such as the clamping device shown at 46 in
The double cannula serves as a drill guide. With a cannulated drill 47a,
After removing the drills, cannulated bone screws 48,
The K-wires can now be pulled out and the optional bone clamping device is removed. The bone screws 48 are drawn tight and the double cannula is withdrawn to conclude the procedure.
While the invention has been described with respect to a preferred embodiment, it will be appreciated that this is set forth merely for purposes of example, and that many other variations, modifications and applications of the invention may be made.
Claims
1. An arthroscopic drill guide for drilling a second bore in a bone section intended for transplanting over to a second bone, said second bore drilled a predetermined distance from a first bore formed in said bone section, comprising:
- a handle;
- an elongated shaft comprising a proximal end and a distal end, said proximal end coupled to said handle, said shaft configured to receive a bone drill;
- a drill nut extending distally from said distal end of said shaft and configured to allow a bone drill received within said shaft to pass through;
- an arm extending from said distal end of said shaft and at an angle with respect to a longitudinal axis of said shaft, said arm comprising a guide pin mounted on a distal end of said arm and extending parallel to said drill nut, said guide pin positioned a fixed predetermined distance from said drill nut; said guide pin configured to fit within said first bore formed in said bone section.
2. The drill guide according to claim 1, wherein said predetermined distance is 9 mm.
3. The drill guide according to claim 1, wherein said handle is a T-handle.
4. The drill guide according to claim 1, wherein said shaft is cylindrical.
5. The drill guide according to claim 1, wherein said shaft is configured to receive a bone drill of 3 mm in diameter.
6. The drill guide according to claim 1, wherein said drill guide is configured for insertion through an incision formed in an arthroscopic anterior shoulder instability procedure.
7. A method for drilling a bore in a bone at a predetermined distance from a first bore formed in said bone using a drill guide comprising a handle;
- an elongated shaft comprising a proximal end and a distal end, said proximal end coupled to said handle, said shaft configured to receive a bone drill;
- a drill nut extending distally from said distal end of said shaft and configured to allow a bone drill received within said shaft to pass through;
- an arm extending from said distal end of said shaft and at an angle with respect to a longitudinal axis of said shaft, said arm comprising a guide pin mounted on a distal end of said arm and extending parallel to said drill nut, said guide pin positioned a fixed predetermined distance from said drill nut; said guide pin configured to fit within said first bore formed in said bone section;
- said method comprising drilling a first bore in said bone; positioning said guide pin in said first bore; passing a bone drill via said drill nut, and drilling a second bore in said bone at a fixed, predetermined distance from said first bore.
8. The method according to claim 7, wherein said method is performed in the treatment of anterior shoulder instability, and wherein said bone is the coracoid.
9. The method according to claim 7, further comprising implanting inserts in said bores.
10. The method according to claim 7, further comprising tapping a thread in said bores.
11. The method according to claim 10, further comprising attaching suture strands or flexible wires to said bores by threading said suture strands or flexible wires into said bores.
12. The method according to claim 11, further comprising attaching said bone to a double cannula via said suture strands or flexible wires.
13. The method according to claim 12, further comprising separating a section of said bone in which said bores were formed to transfer said section using said double cannula.
14. A kit comprising:
- a drill guide for drilling a second bore in a bone at a predetermined distance from a first bore formed in said bone, said drill guide comprising: an elongated shaft; a drill nut extending distally from a distal end of said shaft; an arm extending from said distal end of said shaft and at an angle to a longitudinal axis of said shaft, said arm comprising a guide pin mounted on a distal end of said arm and extending parallel to said drill nut, said guide pin positioned a fixed predetermined distance from said drill nut;
- a bone drill configured to be inserted through said elongated shaft of said drill guide; and
- an elongated tap configured to thread one or more bores formed in a bone by said drill.
15. A kit according to claim 14, further comprising one or more inserts for implanting in said one or more bores.
16. A kit according to claim 14, further comprising suture strands or flexible wires threadable into said bores.
17. A kit according to claim 14, further comprising an osteotome for separating a section of said bone in which said one or more bores are formed.
18. A kit according to claim 17, further comprising a double cannula configured to attach to said bone section via said suture strands or flexible wires.
Type: Application
Filed: Nov 11, 2015
Publication Date: Mar 3, 2016
Applicant: T.A.G. Medical Devices - Agriculture Cooperative Ltd. (Kibbutz Gaaton)
Inventors: Ran OREN (Kibbutz Gaaton), Laurent LAFOSSE (Sevrier), Shai NAHMIAS (Nahariya), Dan MOOR (Kibbutz Gaaton)
Application Number: 14/937,908