We studied what effect a rotational pre-twist of the patellar tendon had on
its mechanical properties. We used the central strip of canine patellar te
ndons. The length, width and thickness of each specimen were measured and t
he specimens were mounted in custom-made aluminum pots. Five groups of 10 s
pecimens each were measured with neutral rotation, 90 degrees external rota
tion, 180 degrees external rotation, 270 degrees external rotation and 360
degrees external rotation. The ultimate stress, ultimate strain, average el
astic modulus, and strain energy density were measured. There were no stati
stically significant differences among the five groups. Twisting the graft
up to 360 degrees did not decrease the biomechanical properties of the graf
t.