髌腱病中纤维丝形态和肌腱力学性能:大重量慢阻力训练的影响。
Fibril morphology and tendon mechanical properties in patellar tendinopathy: effects of heavy slow resistance training.
机构信息
Department of Orthopedic Surgery M, Bispebjerg Hospital and Center for Healthy Aging, University of Copenhagen, Denmark.
出版信息
Am J Sports Med. 2010 Apr;38(4):749-56. doi: 10.1177/0363546509350915. Epub 2010 Feb 12.
BACKGROUND
Patellar tendinopathy is characterized by pathologic abnormalities. Heavy slow resistance training (HSR) is effective in the management of patellar tendinopathy, but the underlying functional mechanisms remain elusive.
PURPOSE
To investigate fibril morphology and mechanical properties in patellar tendinopathy and the effect of HSR on these properties.
STUDY DESIGN
Cohort study; Level of evidence, 2.
METHODS
Eight male patients with patellar tendinopathy completed 12 weeks of HSR. Nine healthy subjects served as controls. Assessments were conducted at baseline and at 12 weeks. Patients assessed symptoms/function and maximal tendon pain during activity. Tendon biopsy samples were analyzed for fibril density, volume fraction, and mean fibril area. Tendon mechanical properties were assessed using force and ultrasonography samplings.
RESULTS
Patients improved in symptoms/function (P = .02) and maximal tendon pain during activity (P = .008). Stiffness and modulus of control and tendinopathy tendons were similar at baseline. Stiffness remained unaffected in control tendons (3487 +/- 392 to 3157 +/- 327 N/mm, P = .57) but declined in tendinopathic tendons at 12 weeks (3185 +/- 187 to 2701 +/- 201 N/mm, P = .04). At baseline, fibril volume fraction was equal, fibril density smaller (P = .03), and mean fibril area tended to be higher in tendinopathy versus controls (P = .07). Fibril morphology remained unchanged in controls but fibril density increased (70% +/- 18%, P = .02) and fibril mean area decreased (-26% +/- 21%, P = .04) in tendinopathic tendons after HSR.
CONCLUSION
Fibril morphology is abnormal in tendinopathy, but tendon mechanical properties are not. Clinical improvements after HSR were associated with changes in fibril morphology toward normal fibril density and mean fibril area. Heavy slow resistance training improved the clinical outcome of patellar tendinopathy, and these improvements were associated with normalization of fibril morphology, most likely due to a production of new fibrils.
背景
髌腱病的特征为病理异常。大强度慢收缩阻力训练(HSR)在髌腱病的治疗中是有效的,但潜在的功能机制仍难以捉摸。
目的
研究髌腱病中的原纤维形态和力学特性,以及 HSR 对这些特性的影响。
研究设计
队列研究;证据水平,2 级。
方法
8 名男性髌腱病患者完成了 12 周的 HSR。9 名健康受试者作为对照组。在基线和 12 周时进行评估。患者评估症状/功能和活动时最大肌腱疼痛。对肌腱活检样本进行原纤维密度、体积分数和平均原纤维面积分析。使用力和超声采样评估肌腱力学特性。
结果
患者在症状/功能(P =.02)和活动时最大肌腱疼痛(P =.008)方面得到改善。在基线时,对照组和腱病组的肌腱刚度和模量相似。对照组的刚度保持不变(3487 +/- 392 至 3157 +/- 327 N/mm,P =.57),但腱病组在 12 周时下降(3185 +/- 187 至 2701 +/- 201 N/mm,P =.04)。在基线时,腱病组的原纤维体积分数相等,但原纤维密度较小(P =.03),平均原纤维面积也倾向于高于对照组(P =.07)。在对照组中,原纤维形态保持不变,但在 HSR 后,腱病组的原纤维密度增加(70% +/- 18%,P =.02),平均原纤维面积减少(-26% +/- 21%,P =.04)。
结论
腱病中原纤维形态异常,但肌腱力学特性正常。HSR 后的临床改善与原纤维形态向正常原纤维密度和平均原纤维面积的变化有关。大强度慢收缩阻力训练改善了髌腱病的临床疗效,这些改善与原纤维形态的正常化有关,这很可能是由于新原纤维的产生。
Zotero 插件