Morphology of Mouse Anterior Cruciate Ligament‐Complex Changes Following Exercise During Pubertal Growth

Schlecht, Stephen H.; Martin, Colin T.; Ochocki, Danielle N.; Nolan, Bonnie T.; Wojtys, Edward M.; Ashton‐Miller, James A.

doi:10.1002/jor.24328

Cited by 10 publications

(20 citation statements)

References 64 publications

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“…Furthermore, most bony morphological features are considered to be innate shapes that do not change. However, data exist showing that repeated loading from training and sport or after ACL reconstruction can cause bone remodeling 39–42 . In the future, bony morphological differences will be analyzed between athletes in different types of sports.…”

Section: Discussionmentioning

confidence: 99%

Tibiofemoral bony morphology features associated with ACL injury and sex utilizing three‐dimensional statistical shape modeling

Polamalu

Musahl

Debski

2021

Journal Orthopaedic Research

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Statistical shape modeling was employed to assess three‐dimensional (3D) bony morphology between distal femurs and proximal tibiae of anterior cruciate ligament (ACL) injured knees, the contralateral uninjured knees of ACL injured subjects, and knees with no history of injury. Surface models were created by segmenting bone from bilateral computed‐tomography scans of 20 subjects of their ACL injured knees and non‐injured contralateral knees, and 20 knees of control subjects with no history of a knee injury. Correspondence particles were placed on each surface, and a principal component analysis determined modes of variation in the positions of the correspondence particles describing anatomical variation. ANOVAs assessed the statistical differences of 3D bony morphological features with main effects of injury state and sex. ACL injured knees were determined to have a more lateral femoral mechanical axis and a greater angle between the long axis and condylar axis of the femur. A smaller anterior–posterior dimension of the lateral tibial plateau was also associated with ACL injured knees. Results of this study demonstrate that there are more bony morphological features predisposing individuals for ACL injury than previously established. These bony morphological parameters may cause greater internal and valgus torques increasing stresses in the ACL. No differences were determined between the ACL injured knees and their uninjured contralateral knees demonstrating that knees of ACL injured individuals are at similar risk for injury. Further understanding of the effect of bony morphology on the risk for ACL injury could improve individualized ACL injury treatment and prevention.

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Section: Discussionmentioning

confidence: 99%

Tibiofemoral bony morphology features associated with ACL injury and sex utilizing three‐dimensional statistical shape modeling

Polamalu

Musahl

Debski

2021

Journal Orthopaedic Research

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“…In addition to the group of weight lifters with hypertrophied ACLs potentially due to their training through puberty, 17 exercise through periods of growth has also been shown to increase the ACL size and improve its mechanical properties in animal models. 6,36,42 Therefore, the potential for the ACL to be ''trained,'' so to speak, to become larger, more robust, and thus less at risk of injuries is apparent, but many critical questions remain unanswered.…”

Section: Discussionmentioning

confidence: 99%

“…Significant increases in ACL strength (ie, greater energy at ligament failure) and stiffness have been reported in growing rats and rabbits. 6,42 Also, most recently, Schlecht et al 36 revealed that exercise during puberty significantly increased the ACL CSA in a mouse model. Evidence of hypertrophied ACLs also exists for the human ACL.…”

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confidence: 98%

“…9,18,25,43 Although morphological risk factors as a group have been largely characterized as nonmodifiable, 31,33 ACL surface area and cross-sectional area (CSA) have potential for modifiability, especially during periods of growth and development. 17,36 Perhaps the ACL could be ''trained'' to become larger, more robust, and thus less prone to injuries.…”

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confidence: 99%

“…We hypothesized that these athletes would have significantly greater ACL CSAs in the leg that is loaded the most in comparison with the contralateral control leg. 6,17,36,42 Additionally, we sought to determine whether bilateral differences in the ACL CSA were related to the age of training onset as well as the number of years of training. We predicted a significant negative correlation between the bilateral difference in the ACL CSA and age of training onset.…”

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confidence: 99%

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The Anterior Cruciate Ligament Can Become Hypertrophied in Response to Mechanical Loading: A Magnetic Resonance Imaging Study in Elite Athletes

et al. 2021

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Background: Evidence, mainly from animal models, suggests that exercise during periods of pubertal growth can produce a hypertrophied anterior cruciate ligament (ACL) and improve its mechanical properties. In humans, the only evidence of ACL hypertrophy comes from a small cross-sectional study of elite weight lifters and control participants; that study had methodological weaknesses and, thus, more evidence is needed. Purpose: To investigate bilateral differences in the ACL cross-sectional area (CSA) for evidence of unilateral hypertrophy in athletes who have habitually loaded 1 leg more than the other. Study Design: Cross-sectional study; Level of evidence, 3. Methods: We recruited 52 figure skaters and springboard divers (46 female and 6 male; mean age, 20.2 ± 2.7 years) because the former always land/jump on the same leg while the latter always drive the same leg into the board during their hurdle approach. Sport training for all participants began before puberty and continued throughout as well as after. Using oblique axial– and oblique sagittal–plane magnetic resonance imaging, we measured the ACL CSA and the anteroposterior diameter of the patellar tendon, respectively. In addition, isometric and isokinetic knee extensor and flexor peak torques were acquired using a dynamometer. Bilateral differences in the ACL CSA, patellar tendon diameter, and knee muscle strength were evaluated via 2-sided paired-samples t tests. Correlations between the bilateral difference in the ACL CSA and age of training onset as well as between the bilateral difference in the ACL CSA and years of training were also examined. Results: A significantly larger ACL CSA (mean difference, 4.9% ± 14.0%; P = .041), as well as patellar tendon diameter (mean difference, 4.7% ± 9.4%; P = .002), was found in the landing/drive leg than in the contralateral leg. The bilateral difference in the ACL CSA, however, was not associated with the age of training onset or years of training. Last, the isometric knee flexor peak torque was significantly greater in the landing/drive leg than the contralateral leg (mean difference, 14.5% ± 33.8%; P = .019). Conclusion: Athletes who habitually loaded 1 leg more than the other before, during, and after puberty exhibited significant unilateral ACL hypertrophy. This study suggests that the ACL may be able to be “trained” in athletes. If done correctly, it could help lower the risk for ACL injuries.

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Evaluation of sex differences in rodent anterior cruciate ligament injury

Liu

Rodeo

Deng

et al. 2022

Journal Orthopaedic Research

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The relative contributions of sex differences in anatomy, biomechanics, and hormones to the increased risk of anterior cruciate ligament (ACL) injury in female athletes remains unknown. The purpose of this study is to investigate sex differences in anatomy and biomechanics of the native and reconstructed ACL using our established murine model. A total of 140 12-week-old wild-type C57Bl/6 (70 male vs. 70 female) mice were used for this study. ACL reconstruction was performed on 120 mice who were split into four groups: Group 1 (30 males sacrificed at 14 days), Group 2 (30 females sacrificed at 14 days), Group 3 (30 males sacrificed at 28 days), and Group 4 (30 females sacrificed at 28 days). Tendon graftto-bone healing was assessed by biomechanical, histological, and micro-CT analysis.Twenty mice were used for baseline testing. Females showed significantly higher anterior (p < 0.05) and total displacement (p < 0.05). Males demonstrated a significantly higher load-to-failure force of native ACLs compared to females (p < 0.05). There was no significant difference in load-to-failure force in the ACL autograft. There were no significant sex differences in histological analysis of graft integration or tibial slope. The increased knee laxity and reduced load-to-failure of the native ACL observed in the female mice are consistent with some of the proposed risk factors driving the increased risk of ACL injury in females.Understanding the relative contributions of factors driving sex differences in material properties of the ACL will provide insight into the sex differences in ACL injury and future prevention strategies.

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Morphology of Mouse Anterior Cruciate Ligament‐Complex Changes Following Exercise During Pubertal Growth

Cited by 10 publications

References 64 publications

Tibiofemoral bony morphology features associated with ACL injury and sex utilizing three‐dimensional statistical shape modeling

Tibiofemoral bony morphology features associated with ACL injury and sex utilizing three‐dimensional statistical shape modeling

The Anterior Cruciate Ligament Can Become Hypertrophied in Response to Mechanical Loading: A Magnetic Resonance Imaging Study in Elite Athletes

Evaluation of sex differences in rodent anterior cruciate ligament injury

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