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Effect of Current and Former Anabolic-Androgenic Steroid Abuse on the Patellar Tendon

医学 肌腱 合成代谢雄激素类 运动员 髌腱 结缔组织 横断面研究 内科学 合成代谢 外科 物理疗法 病理
作者
Ann Damgaard,Grith Højfeldt,Olivia Thorsgaard,Yeliz Bulut,Frederik Hvid Linden,Peter Schjerling,Abigail L. Mackey,Caroline Kistorp,S. Peter Magnusson,Michael Kjær,René B. Svensson
出处
期刊:American Journal of Sports Medicine [SAGE Publishing]
卷期号:53 (8): 1978-1987 被引量:1
标识
DOI:10.1177/03635465251340701
摘要

Background: Anabolic-androgenic steroids (AASs) are synthetic derivatives of testosterone that are abused by athletes to enhance their physical appearance and performance. AAS abusers have an increased risk of tendon ruptures compared with nonusers, and it has been proposed that AASs damage tendon tissue. Only a few human studies have investigated the effect of AASs on tendon tissue, and to our knowledge, there are no data on female sex. Purpose/Hypothesis: The purpose was to investigate the effect of current and former abuse of AASs on the patellar tendon (PT). It was hypothesized that AASs would not affect tendon tissue. Study Design: Cross-sectional study; Level of evidence, 3. Methods: This study included recreational athletes with current (female: n = 4; male: n = 18; total: n = 22) or former (female: n = 5; male: n = 7; total: n = 12) AAS abuse and nonusers (female: n = 5; male: n = 9; total: n = 14). The authors investigated the proportion of tendon injuries, PT cross-sectional area by magnetic resonance imaging, mechanical properties by ultrasound, gene expression levels of connective tissue proteins, and cell density by histological staining from tendon biopsy samples. Results: The combined AAS group (both current and former abusers) reported a higher proportion of upper body tendon injuries compared with nonusers (79.4% vs 28.6%, respectively; P = .002). There was no difference in PT cross-sectional area ( P = .918) or cell density (fascicular matrix: P = .413; interfascicular matrix: P = .982) between current AAS abusers, former AAS abusers, and nonusers. There was a greater expression of IGF-1 mRNA in current AAS abusers compared with nonusers ( P = .043), but there were no group differences in other mRNA targets. Former AAS abusers had significantly higher tendon deformation ( P = .030) and strain ( P = .026) at common force compared with nonusers. There were no significant differences between male and female participants in the effect of AASs on tendon tissue. Conclusion: These data show that the PT itself was not severely affected by AAS abuse.

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