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Various embodiments of components, devices, systems and methods are provided for a pneumatic surgical instrument having a probe or an impactor disposed at a distal end thereof and configured to make contact with a selected portion of an orthopedic implant or device and drive the implant into a hole

Various embodiments of components, devices, systems and methods are provided for a pneumatic surgical instrument having a probe or an impactor disposed at a distal end thereof and configured to make contact with a selected portion of an orthopedic implant or device and drive the implant into a hole or void formed in a patient's bone. The instrument is configured to generate a shock wave, which is then transferred to the distal end of the probe or impactor, and hence into the orthopedic implant, thereby causing the implant to be driven into contact with portions of the void or hole.

대표청구항 ▼

1. A pneumatic surgical instrument, comprising: a striker;a removable probe mountable on a distal end of the instrument;at least one removable probe cap configured to receive a proximal end of the removable probe therein or therethrough, the probe cap being mountable on the distal end of the surgica

1. A pneumatic surgical instrument, comprising: a striker;a removable probe mountable on a distal end of the instrument;at least one removable probe cap configured to receive a proximal end of the removable probe therein or therethrough, the probe cap being mountable on the distal end of the surgical instrument;at least one removable O-ring disposed between an inner surface of the probe cap and a distal terminus of the removable probe;a pressure regulator operably connectable to a self-contained gas cartridge mountable on or in the instrument, anda trigger mechanism comprising a trigger, the trigger mechanism being operably connected to the pressure regulator and to the striker; wherein the probe has a distal end configured and shaped to engage or to be secured in or on a probe engagement feature disposed: (a) in or an orthopedic implant; or (b) in or on an orthopedic implant impactor configured to matingly engage the orthopedic implant, wherein the surgical instrument is configured: (a) to deliver at least one shock wave to the probe when the trigger is actuated by a user and a predetermined volume of gas stored at a predetermined range of pressures in the instrument is released thereby to cause the striker to move towards a distal end of the instrument and deliver the shock wave to the proximal end of the probe and thence into the orthopedic implant or into the orthopedic impactor and the orthopedic implant; (b) to drive the orthopedic implant at least partially into a void or hole formed in a patient's bone; (c) such that the shockwave delivered by the probe is substantially repeatable when the trigger is thereafter actuated by the user such that the instrument is configured to cause the orthopedic implant to engage at least portions of the void or hole in the bone; and (d) such that the shockwave provided by the probe has a rise time ranging between about 2 microseconds and about 20 microseconds; and further wherein the at least one O-ring is selectable according to a thickness, mechanical properties, materials, or stiffness of the O-ring, and the at least one probe cap is selectable such that internal dimensions of the at least one probe cap are configured, thereby to provide a given amount of relative displacement between the probe and the instrument body when the instrument is triggered or actuated, and wherein selection of a different one of the at least one O-ring and/or at least one cap provides the probe with a different relative displacement as compared with a selection of another of the at least one cap and/or at least one O-ring. 2. The pneumatic surgical instrument of claim 1, wherein the O-ring comprises nitrile. 3. The pneumatic surgical instrument of claim 1, wherein the probe O-ring has a thickness ranging between about 1 mm and about 6 mm. 4. The pneumatic surgical instrument of claim 1, wherein the probe O-ring has a thickness ranging between about 2 mm and about 4 mm. 5. The pneumatic surgical instrument of claim 1, wherein the probe further comprises a shaft having the probe terminus disposed at a proximal end thereof. 6. The pneumatic surgical instrument of claim 5, wherein the removable probe cap is configured to receive the shaft therethrough and to house proximally therefrom within the instrument the at least one probe O-ring disposed against a distal surface of the proximal probe terminus. 7. The pneumatic surgical instrument of claim 1, wherein the distal end of the probe is threaded and configured to threadably engage at least one of the probe engagement feature of the orthopedic implant and the probe engagement feature of the impactor. 8. The pneumatic surgical instrument of claim 1, wherein the distal end of the orthopedic implant impactor comprises a threaded impactor engagement feature configured to threadably engage and mate with the probe engagement feature of the orthopedic implant. 9. The pneumatic surgical instrument of claim 1, wherein the orthopedic impactor has a mass or weight selected such that the surgical instrument, the probe and the orthopedic impactor working in conjunction with one another are configured to provide a shockwave having a predetermined force or falling within a predetermined range of forces to the orthopedic implant. 10. The pneumatic surgical instrument of claim 1, wherein the orthopedic impactor comprises a material or has dimensions selected such that the surgical instrument, the probe and the orthopedic impactor working in conjunction with one another are configured to provide a shockwave having a predetermined force or falling within a predetermined range of forces to the orthopedic implant. 11. The pneumatic surgical instrument of claim 1, wherein the orthopedic impactor comprises one of stainless steel, INOX stainless steel, chromium cobalt metal or metal alloys, titanium, suitable biocompatible materials, USP Class VI plastics, and polyetheretherketone (PEEK). 12. The pneumatic surgical instrument of claim 1, wherein the orthopedic impactor has a mass or weight ranging between about 3 grams and about 100 grams. 13. The pneumatic surgical instrument of claim 1, wherein the orthopedic impactor has a length between its proximal and distal ends ranging between about 3 cm and about 50 cm. 14. The pneumatic surgical instrument of claim 1, wherein the probe has a weight or mass ranging between about 15 grams and about 80 grams. 15. The pneumatic surgical instrument of claim 1, wherein the probe has a length ranging between about 10 centimeters and about 30 centimeters. 16. The pneumatic surgical instrument of claim 1, wherein the pressure regulator is further configured to provide pressurized gas to the trigger mechanism at pressures ranging between about 15 bars and about 60 bars. 17. The pneumatic surgical instrument of claim 1, wherein the pressure regulator is further configured to provide pressurized gas to the trigger mechanism at pressures ranging between about 25 bars and about 35 bars. 18. An orthopedic implant system, comprising: an orthopedic implant;a pneumatic surgical instrument comprising a striker, a removable probe mountable on a distal end of the instrument, at least one removable probe cap configured to receive a proximal end of the removable probe therein or therethrough, the probe cap being mountable on the distal end of the surgical instrument, at least one removable O-ring disposed between an inner surface of the probe cap and a distal terminus of the removable probe, a pressure regulator operably connectable to a self-contained gas cartridge mountable on or in the instrument, and a trigger mechanism comprising a trigger, the trigger mechanism being operably connected to the pressure regulator and to the striker, the probe having a distal end configured and shaped to engage or to be secured in or on a probe engagement feature disposed: (a) in or the orthopedic implant; or (b) in or on an orthopedic implant impactor configured to matingly engage the orthopedic implant, and the pneumatic surgical instrument is configured: (a) to deliver at least one shock wave to the probe when the trigger is actuated by a user and a predetermined volume of gas stored at a predetermined range of pressures in the instrument is released thereby to cause the striker to move towards a distal end of the instrument and deliver the shock wave to the proximal end of the probe and thence into the orthopedic implant or into the orthopedic impactor and the orthopedic implant, (b) to drive the orthopedic implant at least partially into a void or hole formed in a patient's bone; (c) such that the shockwave delivered by the probe is substantially repeatable when the trigger is thereafter actuated by the user such that the instrument is configured to cause the orthopedic implant to engage at least portions of the void or hole in the bone; and (d) such that the shockwave provided by the probe has a rise time ranging between about 2 microseconds and about 20 microseconds; and further wherein the at least one O-ring is selectable according to a thickness, mechanical properties, materials, or stiffness of the O-ring, and the at least one probe cap is selectable such that internal dimensions of the at least one probe cap are configured, thereby to provide a given amount of relative displacement between the probe and the instrument body when the instrument is triggered or actuated, and wherein selection of a different one of the at least one O-ring and/or at least one cap provides the probe with a different relative displacement as compared with a selection of another of the at least one cap and/or at least one O-ring. 19. The orthopedic implant system of claim 18, wherein the orthopedic implant is one of an orthopedic hip implant socket, an orthopedic hip implant stem, an orthopedic shoulder implant socket, and an orthopedic shoulder implant stem.