在单腿跳跃过程中，髌腱方向和应变是体内前交叉韧带应变的预测指标。

Patellar Tendon Orientation and Strain Are Predictors of ACL Strain In Vivo During a Single-Leg Jump.

作者信息

Englander Zoë A, Lau Brian C, Wittstein Jocelyn R, Goode Adam P, DeFrate Louis E

机构信息

Department of Orthopaedic Surgery, Duke University, Durham, North Carolina, USA.

Department of Biomedical Engineering, Duke University, Durham, North Carolina, USA.

出版信息

Orthop J Sports Med. 2021 Mar 18;9(3):2325967121991054. doi: 10.1177/2325967121991054. eCollection 2021 Mar.

DOI:10.1177/2325967121991054

PMID:33796591

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7983247/

Abstract

BACKGROUND

There is little in vivo data that describe the relationships between patellar tendon orientation, patellar tendon strain, and anterior cruciate ligament (ACL) strain during dynamic activities. Quantifying how the quadriceps load the ACL via the patellar tendon is important for understanding ACL injury mechanisms.

HYPOTHESIS

We hypothesized that flexion angle, patellar tendon orientation, and patellar tendon strain influence ACL strain during a single-leg jump. Specifically, we hypothesized that patellar tendon and ACL strains would increase concurrently when the knee is positioned near extension during the jump.

STUDY DESIGN

Descriptive laboratory study.

METHODS

Models of the femur, tibia, ACL, patellar tendon, and quadriceps tendon attachment sites of 8 male participants were generated from magnetic resonance imaging (MRI). High-speed biplanar radiographs during a single-leg jump were obtained. The bone models were registered to the radiographs, thereby reproducing the in vivo positions of the bones, ligament, and tendon attachment sites. Flexion angle, patellar tendon orientation, patellar tendon strain, and ACL strain were measured from the registered models. ACL and patellar tendon strains were approximated by normalizing their length at each knee position to their length at the time of MRI. Two separate bivariate linear regression models were used to assess relationships between flexion angle and patellar tendon orientation and between ACL strain and patellar tendon strain. A multivariate linear regression model was used to assess whether flexion angle and patellar tendon strain were significant predictors of ACL strain during the inflight and landing portions of the jump.

RESULTS

Both flexion angle and patellar tendon strain were significant predictors ( < .05) of ACL strain. These results indicate that elevated ACL and patellar tendon strains were observed concurrently when the knee was positioned near extension.

CONCLUSION

Concurrent increases in patellar tendon and ACL strains indicate that the quadriceps load the ACL via the patellar tendon when the knee is positioned near extension.

CLINICAL RELEVANCE

Increased ACL strain when the knee is positioned near extension before landing may be due to quadriceps contraction. Thus, landing with unanticipated timing on an extended knee may increase vulnerability to ACL injury as a taut ligament is more likely to fail.

摘要

背景

在动态活动中，描述髌腱方向、髌腱应变和前交叉韧带（ACL）应变之间关系的体内数据很少。量化股四头肌如何通过髌腱加载ACL对于理解ACL损伤机制很重要。

假设

我们假设在单腿跳跃过程中，屈曲角度、髌腱方向和髌腱应变会影响ACL应变。具体而言，我们假设在跳跃过程中当膝关节接近伸展位时，髌腱和ACL应变会同时增加。

研究设计

描述性实验室研究。

方法

从8名男性参与者的磁共振成像（MRI）生成股骨、胫骨、ACL、髌腱和股四头肌肌腱附着部位的模型。在单腿跳跃过程中获取高速双平面X线片。将骨骼模型与X线片配准，从而重现骨骼、韧带和肌腱附着部位的体内位置。从配准后的模型中测量屈曲角度、髌腱方向、髌腱应变和ACL应变。通过将每个膝关节位置的ACL和髌腱长度归一化为MRI时的长度来近似计算ACL和髌腱应变。使用两个单独的双变量线性回归模型评估屈曲角度与髌腱方向之间以及ACL应变与髌腱应变之间的关系。使用多变量线性回归模型评估屈曲角度和髌腱应变是否是跳跃飞行和着陆阶段ACL应变的显著预测因素。

结果

屈曲角度和髌腱应变都是ACL应变的显著预测因素（P <.05）。这些结果表明，当膝关节接近伸展位时，观察到ACL和髌腱应变同时升高。

结论

髌腱和ACL应变同时增加表明，当膝关节接近伸展位时，股四头肌通过髌腱加载ACL。

临床意义

着陆前膝关节接近伸展位时ACL应变增加可能是由于股四头肌收缩。因此，在伸展的膝关节上意外时间着陆可能会增加ACL损伤的易感性，因为拉紧的韧带更有可能断裂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab66/7983247/c29cc6f8459a/10.1177_2325967121991054-fig1.jpg

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在单腿跳跃过程中，髌腱方向和应变是体内前交叉韧带应变的预测指标。

Patellar Tendon Orientation and Strain Are Predictors of ACL Strain In Vivo During a Single-Leg Jump.

作者信息

机构信息

出版信息

BACKGROUND

HYPOTHESIS

STUDY DESIGN

METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

背景

假设

研究设计

方法

结果

结论

临床意义

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