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Method and apparatus for spinal fusion

a spinal fusion and fusion device technology, applied in the field of spinal fusion methods and devices, can solve the problems of introducing several significant problems, affecting the treatment of femur fractures that extend into the neck of the bone, and extremely susceptible femur parts to fractur

Inactive Publication Date: 2005-06-23
INTERVENTIONAL SPINE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0015] In accordance with a further aspect of the present invention, there is provided a bone fracture fixation device. The device comprises an elongate body having a proximal end and a distal end. A cancellous bone anchor is on the distal end. The cancellous bone anchor comprises a helical flange wrapped about a central core or axial lumen. An outer edge of the helical anchor defines an outer boundary and the central core or axial lumen defines a minor diameter. A proximal anchor is axially movably carried on the body. Complimentary surface structures are provided between the body and the proximal anchor that permit advancing the proximal anchor in the distal direction to provide compression across a fracture but that resist axial proximal movement of the proximal anchor.

Problems solved by technology

However, portions of the femur are extremely susceptible to fracturing.
Fractures of the femur which extend into the neck of the bone are generally more difficult to treat than fractures restricted to the shaft of the femur.
The leading end portion of the implant typically includes means to positively grip the femoral head bone (external threads, expanding arms, etc.), but the inclusion of such gripping means can introduce several significant problems.
First, implants with sharp edges on the leading end portion, such as the externally threaded implants, exhibit a tendency to migrate proximally towards the hip joint weight bearing surface after implantation.
This can occur when the proximal cortical bone has insufficient integrity to resist distal movement of the screw head.
Such proximal migration under physiological loading, which is also referred to as femoral head cut-out, can lead to significant damage to the adjacent hip joint.
Also, the externally threaded implants can generate large stress concentrations in the bone during implantation which can lead to stripping of the threads formed in the bone and thus a weakened grip.
As a result, all fatigue loading is concentrated at the attached ends of the arms and undesirably large bending moments are realized at the points of attachment.
In addition, conventional threaded implants generally exhibit insufficient holding power under tension, such that the threads can be stripped out of the femoral head either by overtightening during the implantation procedure or during post operative loading by the patient's weight.

Method used

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  • Method and apparatus for spinal fusion
  • Method and apparatus for spinal fusion
  • Method and apparatus for spinal fusion

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Embodiment Construction

[0042] Although the fixation devices of the present invention will be disclosed primarily in the context of fractures of the proximal femur, the methods and structures disclosed herein are intended for application in any of a wide variety of bones and fractures, as will be apparent to those of skill in the art in view of the disclosure herein. For example, the bone fixation device of the present invention is applicable in a wide variety of fractures and osteotomies in the hand, such as interphalangeal and metacarpophalangeal arthrodesis, transverse phalangeal and metacarpal fracture fixation, spiral phalangeal and metacarpal fracture fixation, oblique phalangeal and metacarpal fracture fixation, intercondylar phalangeal and metacarpal fracture fixation, phalangeal and metacarpal osteotomy fixation as well as others known in the art. A wide variety of phalangeal and metatarsal osteotomies and fractures of the foot may also be stabilized using the bone fixation device of the present i...

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Abstract

Disclosed is a bone fracture fixation device, such as for reducing and compressing fractures in the proximal femur. The fixation device includes an elongate body with a helical cancellous bone anchor on a distal end. An axially moveable proximal anchor is carried by the proximal end of the fixation device. The device is rotated into position across the fracture or separation between adjacent bones and into the adjacent bone or bone fragment, and the proximal anchor is distally advanced to apply secondary compression and lock the device into place. The device may also be used for soft tissue attachments.

Description

PRIORITY INFORMATION [0001] This invention is a continuation-in-part of U.S. patent application Ser. No. 09 / 822,803, filed Mar. 30, 2001, the entire contents of which are hereby expressly incorporated herein by reference.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] The present invention relates to internal bone fracture fixation devices. In one application, the present invention relates to bone fracture fixation devices and methods adapted for fixation, among other fractures, of femoral neck and other proximal femoral fractures. [0004] 2. Description of the Related Art [0005] The femur, otherwise known as the thigh bone, generally comprises an elongate shaft extending from the hip to the knee. The proximal end of the shaft includes a head, a neck, a greater trochanter and a lesser trochanter. The head of the femur fits into the acetabular cup of the hip bone to form a ball and socket joint at the hip. The distal end of the femur includes a medial condyle and a...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61B17/58A61B17/68A61B17/74A61B17/76A61B17/78A61B17/86
CPCA61B17/68A61B17/742A61B17/744A61B17/8625A61B17/8685A61B17/869A61B17/746A61B17/84
Inventor HOFFMANN, GERARD VONCACHIA, VICTOR V.CULBERT, BRAD S.
Owner INTERVENTIONAL SPINE
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