Department of Biomechanics, Hospital for Special Surgery, 535 E 70(th) St, New York, NY 10021, United States.
Department of Orthopedic Surgery, Chaim Sheba Medical Center, Tel Hashomer and Sackler Faculty of Medicine, Derech Sheba 2, Ramat Gan, Israel.
Knee. 2021 Dec;33:266-274. doi: 10.1016/j.knee.2021.08.003. Epub 2021 Nov 26.
Anterior cruciate ligament (ACL) graft position within the anatomic femoral footprint of the native ACL and the flexion angle at which the graft is fixed (i.e., fixation angle) are important considerations in ACL reconstruction surgery. However, their combined effect on ACL graft force remains less well understood.
During passive flexion, grafts placed high within the femoral footprint carry lower forces than grafts placed low within the femoral footprint (i.e., high and low grafts, respectively). Forces carried by high grafts are independent of fixation angle. All reconstructions impart higher forces on the graft than those carried by the native ACL.
Controlled laboratory study.
Five fresh-frozen cadaveric knees were mounted to a robotic manipulator and flexed from full extension to 90° of flexion. The ACL was sectioned and ACL force was calculated via superposition. ACL reconstructions were then performed using a patellar tendon autograft. For each knee, four different reconstruction permutations were tested: high and low femoral graft positions fixed at 15° and at 30° of flexion. Graft forces were calculated from full extension to 90° of flexion for each combination of femoral graft position and fixation angle again via superposition. Native ACL and ACL graft forces were compared through early flexion (by averaging tissue force from 0 to 30° of flexion) and in 5° increments from full extension to 90° of flexion.
When fixed at 30° of flexion, high grafts carried less force than low grafts through early flexion bearing a respective 64 ± 19 N and 88 ± 11 N (p = 0.02). Increasing fixation angle from 15° to 30° caused graft forces through early flexion to increase 40 ± 13 N in low grafts and 23 ± 6 N in high grafts (p < 0.001). Low grafts fixed at 30° of flexion differed most from the native ACL, carrying 67 ± 9 N more force through early flexion (p < 0.001).
ACL grafts placed high within the femoral footprint and fixed at a lower flexion angle carried less force through passive flexion compared to grafts placed lower within the femoral footprint and fixed at a higher flexion angle. At the prescribed pretensions, all grafts carried higher forces than the native ACL through passive flexion.
Both fixation angle and femoral graft location within the anatomic ACL footprint influence graft forces and, therefore, should be considered when performing ACL reconstruction.
前交叉韧带(ACL)移植物在解剖学上的 ACL 股骨足迹内的位置和移植物固定时的弯曲角度(即固定角度)在 ACL 重建手术中非常重要。然而,它们对 ACL 移植物力的综合影响仍不太清楚。
在被动弯曲过程中,位于股骨足迹高处的移植物比位于股骨足迹低处的移植物承受的力小(即高位和低位移植物)。高位移植物的力与固定角度无关。所有重建都会对移植物施加比天然 ACL 更高的力。
对照实验室研究。
将五个新鲜冷冻的尸体膝盖安装到机器人操纵器上,并从完全伸展到 90°弯曲。ACL 被切开,通过叠加计算 ACL 力。然后使用髌腱自体移植物进行 ACL 重建。对于每个膝盖,测试了四种不同的重建排列:在 15°和 30°弯曲时固定高位和低位股骨移植物。再次通过叠加计算每个股骨移植物位置和固定角度组合从完全伸展到 90°弯曲时的移植物力。通过从 0 到 30°弯曲的早期弯曲(通过平均组织力)和从完全伸展到 90°弯曲的 5°增量比较天然 ACL 和 ACL 移植物力。
当固定在 30°弯曲时,高位移植物在早期弯曲时承受的力小于低位移植物,分别为 64±19N 和 88±11N(p=0.02)。将固定角度从 15°增加到 30°会导致低位移植物的早期弯曲时的移植物力增加 40±13N,高位移植物增加 23±6N(p<0.001)。固定在 30°弯曲时的低位移植物与天然 ACL 的差异最大,在早期弯曲时承受的力多 67±9N(p<0.001)。
与固定在较低弯曲角度的股骨足迹内较低位置的移植物相比,位于股骨足迹内较高位置并固定在较低弯曲角度的 ACL 移植物在被动弯曲时承受的力较小。在规定的预张力下,所有移植物在被动弯曲时对移植物施加的力均高于天然 ACL。
固定角度和 ACL 解剖足迹内的股骨移植物位置都会影响移植物力,因此在进行 ACL 重建时应予以考虑。
