Apparatus and method for reconstructive surgery
First Claim
1. In a method for replacing a ligament in a joint connecting pivotable bones to one another, the steps which comprise:
- (a) selecting proposed ligament attachment sites for both of said bones;
(b) applying a test ligament to said sites;
(c) pivoting said bones and determining the resulting shortening-lengthening profile relationship;
(d) comparing the resulting shortening-lengthening profile relationship with the optimum shortening-lengthening profile relationship;
(e) repeating if necessary, steps (a) through (d), until optimum attachment sites have been determined against the optimum shortening-lengthening profile relationship; and
(f) attaching a replacement ligament to said optimum sites.
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Abstract
A method and apparatus for the permanent surgical reconstruction of the anterior cruciate ligament in the human knee, which will stabilize the tibia and femur relative to each other and restore a full range of motion to the knee, by precisely locating the ends and angular relationship of a replacement ligament within the knee joint, at bone attachment sites such that the degree of shortening and lengthening experienced by the replacement ligament over the range of joint motion is either as close to zero (isometric) as possible, or closely matches that of the natural uninjured ligament (physometric), whichever the surgeon feels is most desirable.
251 Citations
12 Claims
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1. In a method for replacing a ligament in a joint connecting pivotable bones to one another, the steps which comprise:
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(a) selecting proposed ligament attachment sites for both of said bones; (b) applying a test ligament to said sites; (c) pivoting said bones and determining the resulting shortening-lengthening profile relationship; (d) comparing the resulting shortening-lengthening profile relationship with the optimum shortening-lengthening profile relationship; (e) repeating if necessary, steps (a) through (d), until optimum attachment sites have been determined against the optimum shortening-lengthening profile relationship; and (f) attaching a replacement ligament to said optimum sites. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of surgery for reconstruction of a ligament in a joint having two swingable bones which method comprises;
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preliminarily marking a first tunnel end site at a point on the end of a first of said bones within said joint; preliminarily marking a second tunnel end site at a point on said first one of said bones away from said joint, said end sites on said first one of said bones defining a path for a tunnel therebetween; preliminarily marking a third tunnel end site at a point on the end of a second one of said bones within said joint; preliminarily marking a fourth tunnel end site at a point on said second one of said bones away from said joint, said end sites on said second one of said bones defining a path for a tunnel therebetween; connecting excursion measuring means between said first and third tunnel end sites within said joint; flexing said bones in said joint over a substantially full range of motion and repeatedly adjusting the location of any or all of said tunnel end sites until the change in separation distance between sites as measured said by said excursion measuring means approximates the natural physiometric shortening-lengthening experimental by the naturally occurring ligament in said joint over a similar range of motion; drilling a tunnel in each of said bones between physiometrically determined tunnel end sites; and threading a replacement ligament into said tunnels and securing said ligament to said bones. - View Dependent Claims (8, 9, 10, 11)
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12. A method of surgery for reconstruction of a ligament in a joint having two swingable bones which method comprises:
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preliminarily marking a first tunnel end site at a point on the end of a first of said bones within said joint; preliminarily marking a second tunnel end site at a point on said first one of said bones away from said joint, said end sites on said first one of said bones defining a path or a tunnel therebetween; preliminarily marking a third tunnel end site at a point on the end of a second one of said bones within said joint; preliminarily marking a fourth tunnel end site at a point on said second one of said bones away from said joint, said end sites on said second one of said bones defining a path for a tunnel therebetween; connecting excursion measuring means between said first and third tunnel end sites within said joint; flexing said bones in said joint over a substantially full range of motion and repeatedly adjusting the location of any or all of said tunnel end sites until the change in separation distance between sites as measured said by said excursion measuring means approximates the natural isometric shortening-lengthening experimental by the naturally occurring ligament in said joint over a similar range of motion; drilling a tunnel in each of said bones between isometrically determined tunnel end sites; and threading a replacement ligament into said tunnels and securing said ligament to said bones.
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Specification