Department of Orthopaedic Surgery, Indiana University School of Medicine, Indianapolis, Indiana, USA.
Indiana University School of Medicine, Evansville, Indiana, USA.
Am J Sports Med. 2023 Jul;51(9):2342-2356. doi: 10.1177/03635465231180616. Epub 2023 Jun 27.
Young patients are 6 times more likely than adults to have a primary anterior cruciate ligament (ACL) graft failure. Biological factors (ie, tunnel osteolysis) may account for up to a third of these failures. Previous evaluations of patient ACL explants indicated significant bone loss within the entheseal regions. However, it remains unknown if the degree of bone loss within the ACL insertion regions, wherein ACL grafts are fixated, exceeds that of the femoral and tibial condylar bone.
Bone loss in the mineralized matrices of the femoral and tibial ACL entheses is distinct from that clinically reported across the whole knee after injury.
Controlled laboratory study.
We developed a clinically relevant in vivo mouse ACL injury model to cross-sectionally track the morphological and physiological postinjury changes within the ACL, femoral and tibial entheses, synovial joint space, and load-bearing epiphyseal cortical and trabecular bone components of the knee joint. Right ACLs of 10-week-old C57BL/6J female mice (N = 75) were injured in vivo with the contralateral ACLs serving as controls. Mice were euthanized at 1, 3, 7, 14, or 28 days after injury (n = 12/cohort). Downstream analyses included volumetric cortical and trabecular bone analyses and histopathologic assessments of the knee joint after injury. Gait analyses across all time points were also performed (n = 15 mice).
The majority of the ACL injuries in mice were partial tears. The femoral and tibial cortical bone volumes were 39% and 32% lower, respectively, at 28 days after injury than those of the uninjured contralateral knees ( < .01). Trabecular bone measures demonstrated little difference between injured and control knees after injury. Across all bone measures, bone loss was similar between the injured knee condyles and ACL entheses. There was also significant inflammatory activity within the knee after injury. By 7 days after injury, synovitis and fibrosis were sigificantly elevated in the injured knee compared with the controls ( < .01), which corresponded with significantly higher osteoclast activity in bone at this time point compared with the controls. This inflammatory response signficantly persisted throughout the duration of the study ( < .01). The hindlimb gait after injury deviated from normal, but mice habitually loaded their injured knee throughout the study.
Bone loss was acute and persisted for 4 weeks after injury in mice. However, the authors' hypothesis was not confirmed, as bone quality was not significantly lower in the entheses compared with the condylar bone regions after injury. With relatively normal hindlimb loading but a significant physiological response after injury, bone loss in this model may be driven by inflammation.
There is persistent bone resorption and fibrotic tissue development after injury that is not resolved. Inflammatory and catabolic activity may have a significant role in the postinjury decline of bone quality in the knee.
年轻患者发生前交叉韧带(ACL)初次移植物失败的可能性是成年人的 6 倍。生物学因素(例如,隧道骨溶解)可能占这些失败的三分之一。先前对 ACL 移植物的患者评估表明,在腱骨附着处有明显的骨丢失。然而,ACL 插入部位(固定 ACL 移植物的部位)的骨丢失程度是否超过股骨和胫骨髁骨,目前仍不清楚。
ACL 腱骨附着处的矿化基质中的骨丢失与受伤后整个膝关节临床报告的丢失程度不同。
对照实验室研究。
我们建立了一种具有临床相关性的体内小鼠 ACL 损伤模型,以横向跟踪 ACL、股骨和胫骨腱骨附着处、滑膜关节间隙以及膝关节负重骺皮质和小梁骨成分的形态和生理损伤后变化。10 周龄 C57BL/6J 雌性小鼠(N=75)的右侧 ACL 在体内受伤,对侧 ACL 作为对照。受伤后 1、3、7、14 或 28 天(每组 n=12)处死小鼠。损伤后进行膝关节的体积皮质和小梁骨分析以及组织病理学评估。所有时间点的步态分析也进行了(n=15 只小鼠)。
大多数小鼠的 ACL 损伤为部分撕裂。与未受伤的对侧膝关节相比,受伤后 28 天,股骨和胫骨皮质骨体积分别降低 39%和 32%(<0.01)。受伤后,胫骨小梁骨测量值与对照组之间差异不大。在所有骨测量中,损伤膝关节的髁骨和 ACL 腱骨附着处的骨丢失相似。损伤后膝关节也有明显的炎症活动。与对照组相比,受伤后 7 天,膝关节滑膜炎和纤维化明显升高(<0.01),此时骨中的破骨细胞活性明显高于对照组。这种炎症反应一直持续到研究结束(<0.01)。受伤后后肢步态异常,但小鼠在整个研究过程中习惯性地负重受伤的膝关节。
在小鼠中,骨丢失是急性的,并在受伤后持续 4 周。然而,作者的假设并未得到证实,因为与受伤后髁骨区域相比,腱骨附着处的骨质量并没有明显降低。尽管后肢负重相对正常,但在受伤后有明显的生理反应,因此,这种模型中的骨丢失可能是由炎症引起的。
损伤后存在持续的骨吸收和纤维组织发育,且未得到解决。炎症和分解代谢活动可能在后交叉韧带损伤后骨质量下降中起重要作用。
