Fiber-based anterior cruciate ligament model for biomechanical simulations

## Abstract We compared mechanical properties, degradation rates, and cellular compatibilities of two synthetic polymer fibers potentially useful as ACL reconstruction scaffolds: poly(desaminotyrosyl‐tyrosine dodecyl dodecanedioate)(12,10), p(DTD DD) and poly(L‐lactic acid), PLLA. The yield stress

## Abstract This study examined the biomechanics of anterior cruciate ligament‐patellar tendon autografts for as long as 3 years after surgery. Twenty‐seven adult female goats were tested; four served as controls and the others received an autograft to the right knee with each left knee serving as

## Abstract The early histological, biochemical, and biomechanical characteristics of the anterior cruciate ligament (ACL) were determined in a rabbit model of acute hemarthrosis. The ACLs of 19 rabbits were given seven consecutive daily knee injections of 2 ml of fresh autologous blood, and then c

## Abstract Use of novel tissue engineering approaches to heal an injured anterior cruciate ligament (ACL) requires suture repair and/or augmentation to provide joint stability. We evaluated the effects of the location of suture augmentation at the femur and tibia in terms of joint stability using

## Abstract In order to determine the appropriate load history for optimal remodeling of an anterior cruciate ligament graft, methods for establishing and measuring graft forces __in vivo__ are required. Our objectives with this study were to (a) develop a method in which the graft force due to an