초록 ▼

An orthopedic intramedullary fixation apparatus and system for use in hip and femur fracture surgery comprises an intramedullary nail, a dynamic lag screw structure comprising a longitudinal sheath and a lag screw, and securing means to fix the intramedullary nail relative to a femur. A dynamic chan

An orthopedic intramedullary fixation apparatus and system for use in hip and femur fracture surgery comprises an intramedullary nail, a dynamic lag screw structure comprising a longitudinal sheath and a lag screw, and securing means to fix the intramedullary nail relative to a femur. A dynamic channel created by the lag screw structure allows the lag screw to adjust dynamically, and thereby may permit further compression of the fractured bone to an optimal level as a patient begins to bear weight on it following surgery. Surgical fixation may be expedited, as a favorable point of access for a lag screw may be determined readily, particularly with obese patients in whom access to the trochanter may be problematic. Complications during surgery, such as accidental fracturing of the femoral neck and head and over-penetration of the lag screw may be avoided.

대표청구항 ▼

1. An orthopaedic fixation apparatus comprising: a dynamic lag screw structure including a longitudinal sheath open at a distal end and at a proximal end, with an upper orifice and lower orifice, and further including a lag screw with a longitudinal slot, configured to be inserted into the proximal

1. An orthopaedic fixation apparatus comprising: a dynamic lag screw structure including a longitudinal sheath open at a distal end and at a proximal end, with an upper orifice and lower orifice, and further including a lag screw with a longitudinal slot, configured to be inserted into the proximal end of the longitudinal sheath such that a dynamic channel is formed by the alignment of said upper orifice and said lower orifice with said longitudinal slot, said dynamic channel configured to accept at least a portion of an intramedullary nail, to be passed transversely through said dynamic channel of said dynamic lag screw structure, and to allow movement of said lag screw relative to said intramedullary nail in three dimensions post implantation of the orthopaedic fixation apparatus;an intramedullary nail, at least a portion of which is configured to pass transversely through said dynamic lag screw structure via said dynamic channel; andsecuring means configured to keep said intramedullary nail in a proper position relative to a bone. 2. The orthopaedic fixation apparatus of claim 1, in which said longitudinal sheath is tapered at its distal end. 3. The orthopaedic fixation apparatus of claim 1, in which said longitudinal sheath at its proximal end has an outer rim. 4. The orthopaedic fixation apparatus of claim 1, in which said longitudinal sheath has at its proximal end an inner lip, and said lag screw has an external lip configured to engage said inner lip when said lag screw is inserted into the proximal end of said longitudinal sheath. 5. The orthopaedic fixation apparatus of claim 1, in which the lag screw has a drive with securing means configured to receive a self-holding driver. 6. The orthopaedic fixation apparatus of claim 1, in which said intramedullary nail has at least one lateral orifice passing through it transversely and, at its proximal end, is configured to receive a guidance device. 7. An orthopaedic fixation apparatus comprising: a dynamic lag screw structure including a longitudinal sheath open at a distal end and at a proximal end, with an upper orifice and a lower orifice, and further including a lag screw with a longitudinal slot, configured to be inserted into the proximal end of the longitudinal sheath such that a dynamic channel is formed by the alignment of said upper orifice and said lower orifice with said longitudinal slot, said dynamic channel, configured to accept at least a portion of an intramedullary nail, to be passed transversely through said dynamic channel of said dynamic lag screw structure, and said dynamic channel further configured to allow movement of said lag screw relative to said intramedullary nail in three dimensions post-implantation of the orthopaedic fixation apparatus;an intramedullary nail, having at least one lateral orifice passing through it, at least a portion of said intramedullary nail configured to pass transversely through said dynamic lag screw structure via said dynamic channel; andsecuring means configured to keep said intramedullary nail in a proper position relative to a bone. 8. The orthopaedic fixation apparatus of claim 7, in which said intramedullary nail is tapered at its distal end. 9. The orthopaedic fixation apparatus of claim 7, in which the longitudinal sheath at its proximal end has an outer rim. 10. The orthopaedic fixation apparatus of claim 7, in which said longitudinal sheath has at its proximal end an inner lip, and said lag screw has an external lip configured to engage said inner lip when said lag screw is inserted into the proximal end of said longitudinal sheath. 11. The orthopaedic fixation apparatus of claim 7, in which the lag screw has a drive with securing means configured to receive a self-holding driver. 12. The orthopaedic fixation apparatus of claim 7, in which the intramedullary nail, at its proximal end, is configured to receive a guidance device. 13. An orthopaedic fixation comprising: a dynamic lag screw structure including a longitudinal sheath open at a distal end and at a proximal end, with an upper orifice and a lower orifice, said sheath tapered at its distal end, having an external rim and an inner lip at its proximal end, and further including a lag screw with a longitudinal slot through its shank, a self-tapping thread at its distal end, at its proximal end a drive with internal threading configured to receive a self-holding driver, and an external lip configured to engage said inner lip of said longitudinal sheath, configured to be inserted into the proximal end of the longitudinal sheath such that a dynamic channel is formed by the alignment of said upper orifice and said lower orifice with said longitudinal slot, said dynamic channel configured to accept at least a portion of an intramedullary nail, to be passed transversely through said dynamic-channel of said dynamic lag screw structure, and said dynamic channel further configured to allow movement of said lag screw relative to said intramedullary nail in three dimensions post-implantation of the orthopaedic fixation apparatus;an intramedullary nail, having at least one lateral orifice passing through it transversely, configured, at its proximal end to receive a guidance device, and tapered at its distal end, at least of portion of said intramedullary nail configured to pass transversely through said dynamic lag screw structure via said dynamic channel; andsecuring means configured to keep said intramedullary nail in a proper position relative to a bone.