Zong Jian-Chun, Ma Richard, Wang Hongsheng, Cong Guang-Ting, Lebaschi Amir, Deng Xiang-Hua, Rodeo Scott A
The Second Affiliated Hospital of Chongqing Medical University, Chongqing, China.
The Hospital for Special Surgery, New York, New York, USA.
Am J Sports Med. 2017 May;45(6):1349-1358. doi: 10.1177/0363546516686967. Epub 2017 Feb 1.
Moderate graft pretensioning in anterior cruciate ligament (ACL) reconstruction is paramount to restore knee stability and normalize knee kinematics. However, little is known about the effect of graft pretensioning on graft-to-bone healing after ACL reconstruction.
Moderate graft pretensioning will improve bone formation within the bone tunnel after ACL reconstruction, resulting in superior load to failure.
Controlled laboratory study.
67 male Sprague-Dawley rats underwent unilateral ACL reconstruction with a flexor digitorum longus tendon autograft. The graft was subjected to pretensioning forces of 0 N, 5 N, or 10 N. Custom-made external fixators were used for knee immobilization postoperatively. Rats were euthanized for biomechanical load-to-failure testing (n = 45) and micro-computed tomography (μCT) examination (n = 22) at 3 and 6 weeks after surgery. Three regions of each femoral and tibial bone tunnel (aperture, middle, and tunnel exit) were chosen for measurement of tunnel diameter and new bone formation.
Biomechanical tests revealed significantly higher load-to-failure in the 5-N graft pretensioned group compared with the 0- and 10-N groups at 3 weeks (8.58 ± 2.67 N vs 3.96 ± 1.83 N and 4.46 ± 2.62 N, respectively) and 6 weeks (16.56 ± 3.50 N vs 10.82 ± 1.97 N and 7.35 ± 2.85 N, respectively) after surgery ( P < .05). The mean bone tunnel diameters at each of the 3 regions were significantly smaller in the 5-N group, at both the femoral and tibial tunnel sites, than in the 0- and 10-N groups ( P < .05). At 3 and 6 weeks postoperatively, the bone mineral density, bone volume fraction, and connectivity density around the aperture and middle regions of the tibial bone tunnels were all significantly higher in the 5-N group compared with the 0- and 10-N groups ( P < .05). In the aperture and middle regions of the femoral bone tunnels, pretensioning at either 5 or 10 N resulted in increased bone formation compared with the nonpretensioned group at 3 weeks postoperatively. No differences were found in bone formation between any of the 3 femoral tunnel regions at 6 weeks.
Graft pretensioning can stimulate new bone formation and improve tendon-to-bone tunnel healing after ACL reconstruction.
Optimal graft pretensioning force in ACL reconstruction can improve bone tunnel healing. Further study is necessary to understand the mechanisms underlying the effect of graft pretensioning on healing at the bone-tunnel interface.
在前交叉韧带(ACL)重建中,适度的移植物预张紧对于恢复膝关节稳定性和使膝关节运动学正常化至关重要。然而,关于移植物预张紧对ACL重建后移植物与骨愈合的影响知之甚少。
适度的移植物预张紧将改善ACL重建后骨隧道内的骨形成,从而导致更高的失效载荷。
对照实验室研究。
67只雄性Sprague-Dawley大鼠接受了自体趾长屈肌腱进行的单侧ACL重建。移植物分别承受0 N、5 N或10 N的预张紧力。术后使用定制的外固定器固定膝关节。在术后3周和6周,对大鼠实施安乐死以进行生物力学失效载荷测试(n = 45)和微型计算机断层扫描(μCT)检查(n = 22)。选择每个股骨和胫骨骨隧道的三个区域(孔口、中部和隧道出口)来测量隧道直径和新骨形成情况。
生物力学测试显示,在术后3周(分别为8.58±2.67 N vs 3.96±1.83 N和4.46±2.62 N)和6周(分别为16.56±3.50 N vs 10.82±1.97 N和7.35±2.85 N)时,5 N移植物预张紧组的失效载荷显著高于0 N和10 N组(P <.05)。在股骨和胫骨隧道部位,5 N组的三个区域中每个区域的平均骨隧道直径均显著小于0 N和10 N组(P <.05)。术后3周和6周时,5 N组胫骨骨隧道孔口和中部区域周围的骨矿物质密度、骨体积分数和连通性密度均显著高于0 N和10 N组(P <.05)。在股骨骨隧道的孔口和中部区域,与术后3周未预张紧的组相比,5 N或10 N的预张紧导致骨形成增加。在6周时,三个股骨隧道区域之间在骨形成方面未发现差异。
移植物预张紧可刺激新骨形成并改善ACL重建后肌腱与骨隧道的愈合。
ACL重建中最佳的移植物预张紧力可改善骨隧道愈合。有必要进一步研究以了解移植物预张紧对骨隧道界面愈合影响的潜在机制。
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