In a first embodiment, the present invention includes an instrumentation system for preparing a bone for soft tissue repair, the instrumentation system including a flexible drill pin capable of bending along a curved path; an aimer capable of engaging the flexible pin to bend the flexible pin; and a
In a first embodiment, the present invention includes an instrumentation system for preparing a bone for soft tissue repair, the instrumentation system including a flexible drill pin capable of bending along a curved path; an aimer capable of engaging the flexible pin to bend the flexible pin; and a flexible reamer having a flexible portion along at least a portion of its length, the flexible portion comprising a plurality of laser cuts. In an alternate embodiment, the present invention may also include a method for preparing a bone tunnel in a femur adjacent a knee joint, the method including introducing a flexible drill pin into the knee joint; guiding the flexible drill pin towards a surface of the femur with an instrument introduced into the knee joint; drilling the flexible drill pin into the femur; removing the instrument from the knee joint; introducing a cannulated flexible reamer into the knee joint by placing the flexible pin within the cannulation of the flexible reamer; and reaming the bone tunnel in the femur along the path of the flexible pin.
대표청구항▼
1. An instrumentation system for preparing a bone for soft tissue repair, the instrumentation system comprising: a flexible drill pin capable of bending along a curved path, the flexible drill pin formed of a shape memory material;an aimer capable of engaging the flexible drill pin to bend the flexi
1. An instrumentation system for preparing a bone for soft tissue repair, the instrumentation system comprising: a flexible drill pin capable of bending along a curved path, the flexible drill pin formed of a shape memory material;an aimer capable of engaging the flexible drill pin to bend the flexible drill pin, the aimer having a forked tip at its distal end, the forked tip including spaced apart forks allowing disengagement of the aimer from the flexible drill pin in a first direction transverse to a longitudinal axis of the flexible drill pin; anda cannulated flexible reamer having a flexible portion along at least a portion of its length, the flexible portion comprising a plurality of laser cuts, wherein the flexible portion is cannulated along at least a portion of its length for placement over at least the bent portion of the flexible drill pin. 2. The instrumentation system of claim 1, wherein the aimer at least substantially surrounds a circumference of the flexible drill pin. 3. The instrumentation system of claim 1, wherein the flexible portion of the flexible reamer comprises discrete, interlocking portions. 4. The instrumentation system of claim 1, wherein the flexible reamer comprises an asymmetric tip having at least one flute positioned off-axis relative to a longitudinal axis of the flexible reamer. 5. The instrumentation system of claim 1, wherein the flexible drill pin is composed of Nitinol. 6. The instrumentation system of claim 1, wherein the flexible drill pin further comprises a distal portion and a proximal portion, wherein the distal portion includes a trocar tip and the proximal portion includes a suture connection. 7. The instrumentation system of claim 1, wherein the spaced apart forks of the forked tip of the aimer remain fixed in position relative to each other. 8. The instrumentation system of claim 1, wherein the spaced apart forks of the forked tip of the aimer extend from a shaft of the aimer in a second direction transverse to a longitudinal axis of the aimer. 9. The instrumentation system of claim 1, wherein the spaced apart forks of the forked tip of the aimer extend from a shaft of the aimer in a second direction parallel to a longitudinal axis of the aimer. 10. The instrumentation system of claim 1, wherein the spaced apart forks of the forked tip of the aimer form an engagement surface for surrounding a circumference of the flexible drill pin when the aimer is engaged with the flexible drill pin, and wherein the engagement surface is shaped such that the longitudinal axis of the flexible drill pin may define an oblique angle with a longitudinal axis of the shaft of the aimer when the aimer is surrounding the circumference of the flexible drill pin. 11. A method for preparing a bone tunnel in a femur adjacent a knee joint, comprising: introducing a flexible drill pin into the knee joint, the flexible drill pin formed of a shape memory material;guiding the flexible drill pin towards a surface of the femur with an instrument introduced into the knee joint, wherein the instrument guides the flexible drill pin along a curved path towards the surface of the femur, the instrument having a forked tip at its distal end, the forked tip including spaced apart forks allowing disengagement of the instrument from the flexible drill pin in a first direction transverse to a longitudinal axis of the flexible drill pin;drilling the flexible drill pin into the femur along a substantially linear path;removing the instrument from the knee joint;introducing a cannulated flexible reamer into the knee joint by placing the flexible drill pin within the cannulation of the flexible reamer, the flexible reamer comprising a flexible portion along at least a portion of its length such that the flexible portion is positioned over at least the curved path of the flexible drill pin; andreaming the bone tunnel in the femur along the path of the flexible drill pin. 12. The method of claim 11, wherein the instrument comprises a femoral aimer or a curved guide tool. 13. The method of claim 11, wherein the flexible portion comprises a plurality of laser cuts. 14. The method of claim 13, wherein the flexible portion of the flexible reamer comprises discrete, interlocking portions. 15. The method of claim 11, wherein the flexible drill pin, instrument, and flexible reamer are introduced into the knee joint through an at least one portal. 16. The method of claim 11, wherein the flexible drill pin and flexible reamer are introduced into the knee joint through a bone tunnel through a tibia, and the instrument is introduced into the knee joint through a portal. 17. The method of claim 11, wherein the flexible drill pin is drilled through the femur and exits out a lateral side of the femur. 18. The method of claim 17, wherein the flexible drill pin follows a curved path from introduction in the knee joint to the surface of the femur, and follows a generally straight and substantially linear path from the surface of the femur, through the femur, and out the lateral side of the femur. 19. The method of claim 11, wherein the spaced apart forks of the forked tip of the instrument remain fixed in position relative to each other. 20. The method of claim 11, wherein the spaced apart forks of the forked tip of the instrument extend from a shaft of the instrument in a second direction transverse to a longitudinal axis of the instrument. 21. The method of claim 11, wherein the spaced apart forks of the forked tip of the instrument extend from a shaft of the instrument in a second direction parallel to a longitudinal axis of the instrument. 22. The method of claim 11, wherein the spaced apart forks of the forked tip of the instrument form an engagement surface for surrounding a circumference of the flexible drill pin when the instrument is engaged with the flexible drill pin, and wherein the engagement surface is shaped such that the longitudinal axis of the flexible drill pin may define an oblique angle with a longitudinal axis of the shaft of the instrument when the aimer is surrounding the circumference of the flexible drill pin.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (217)
Clark, Ron; Lower, Jerry L.; Olsen, Raymond E., ACL fixation pin.
McGuire David A. (3418 Lakeside Dr. Anchorage AK 99515) Ek Steven (Bolton MA) Marchand Sam R. (Dunedin FL) Frushell Matthew R. (Clearwater FL), Angled surgical screw driver and methods of arthroscopic ligament reconstruction.
Purnell Mark L. (323 Free Silver Dr. Aspen CO 81611) Odn Robert R. (P. O. Box 660 Aspen CO 81611) McCune William L. (1739 W. 35th Denver CO 80211) Berkeley Michael E. (1695 Silver King Dr. Aspen CO 8, Apparatus and method for use in performing a surgical operation.
Lubbers, Lawrence M.; Hughes, Kenneth E.; Coleman, Carl R.; Williamson, IV, Warren P.; Berky, Craig B.; Ward, Thomas J.; Huddleston, Matthew J.; Goldin, Mark A.; Christy, William J.; DeFazio, Perry; Schumacher, Brian Scott; Murphy, Terence Lee; Lewis, Nickola Symone; Jarrett, Jeremy; Young, Joseph E., Apparatus and methods for tendon or ligament repair.
Scheller ; Jr. Arnold D. (181 Essex St. North Quincy MA 02171) Quigley Thomas B. (99 Pond Ave. Brookline MA 02146), Curved drill attachment for bone drilling uses.
Siegal, Tzony, Devices for introduction into a body along a substantially straight guide to form a predefined curved configuration, and methods employing same.
Odensten Magnus G. (Hjulsbrovgen 104 S-582 69 Linkping SEX) Gillquist Jan I. (Stjrnorpsvgen Berg S-590 61 Vreta Kloster SEX), Drill guiding and aligning device.
McGuire David A. (408 Laurel St. ; Suite 202 Anchorage AK 99508) Paterson Roger (32 Payneham Rd. Stepney 5069 ; South Australia AUX), Femoral guide and methods of precisely forming bone tunnels in cruciate ligament reconstruction of the knee.
Johnson Wesley D. (Chanhassen MN) Sutton Gregg S. (Plymouth MN) Stursa Bruce Wayne (Hudson WI) Peterson Francis C. (Prescott WI), Flexible cutting tool and methods for its use.
Moore Robert R. (1897 National Ave. Hayward CA 94545) Lamb Steve (6724 Corte Del Vista Pleasanton CA 94566) Wolf Eugene M. (3400 California St. ; 2nd Floor San Francisco CA 94118), Glenohumeral ligament repair.
Aboczky Robert I. (323 E. Saddle River Rd. Upper Saddle River NJ 07458), Instrument for orienting, inserting and impacting an acetabular cup prosthesis including prosthesis retaining head arran.
Goble E. Marlowe (850 E. 1200 North Logan UT 84321) Somers W. Karl (651 N. 150 West Logan UT 84321), Procedure for verifying isometric ligament positioning.
McGuire David A. (3418 Lakeside Dr. Anchorage AK 99515) Goble E. Marlowe (850 E. 1200 North Logan UT 84321) Somers W. Karl (651 N. 150 West Logan UT 84321), Process of endosteal fixation of a ligament.
Harms, Jürgen; Biedermann, Lutz; Rapp, Helmar, Rod-like element for application in spinal or trauma surgery, and stabilization device with such a rod-like element.
Houser David E. (Apalachin NY), Single flute drill for drilling holes in printed circuit boards and method of drilling holes in a printed circuit board.
Stone Kevin T. (2940 E. Patterson Rd. Warsaw IN 46580) Williamson Daniel E. (895 S. Caleb Ct. Warsaw IN 46580) Sheetz Jane A. (3968 W. Crystal Lake Rd. Warsaw IN 46580), Surgical reamer.
Shaolian,Samuel M.; Teitelbaum,George P.; Nguyen,Thanh Van; Nguyen,Frank; Pham,To V.; Divino, Jr.,Vincent; Henson,Michael R., Transpedicular intervertebral disk access methods and devices.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.