Supraspinatus tendon organizational and mechanical properties in a chronic rotator cuff tear animal model

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Gimbel, Jonathan A.¹; Van Kleunen, Jonathan P.¹; Mehta, Samir¹; Perry, Stephanie M.¹; Williams, Gerald R.¹; Soslowsky, Louis J.¹

Supraspinatus tendon organizational and mechanical properties in a chronic rotator cuff tear animal model

J Biomech. May 2004;37(5):739-749

©2003 Elsevier Science Ltd. All rights reserved.

Affiliations

¹McKay Orthopaedic Research Laboratory, University of Pennsylvania, 424 Stemmler Hall, 36th and Hamilton Walk, Philadelphia, PA 19104-6081, USA
Abstract and keywords

Rotator cuff tears of the shoulder are a common cause of pain and disability. The successful repair of rotator cuff tendon tears depends on the time from onset of injury to the time of surgical repair. However, the effect of time from injury to repair remains poorly understood. A rat model was used to investigate the supraspinatus tendon organizational and mechanical property changes that occur with time post-injury to understand the natural injury response in the absence of repair. It was hypothesized that increased time post-injury would result in increased detrimental changes to tendon organizational and mechanical properties. Tendons were detached at the insertion on the humerus without repair and the quantitative organizational and mechanical properties were analyzed at 1, 2, 4, 8, and 16 weeks post-detachment. Tendon detachment resulted in a dramatic decrease in mechanical properties initially followed by a progressive increase with time. The quantitative collagen fiber orientation results provided corroborating support to the mechanical property data. Based on similarities in histology and mechanical properties to rotator cuff tears in humans, the animal model presented here is promising for future investigations of the tendon's natural injury response in the absence of repair.

Keywords: Supraspinatus tendon; Rotator cuff; Shoulder; Chronic
Links

DOI: 10.1016/j.jbiomech.2003.09.019

PubMed: 15047003

WoS: 000220781600016
History

Accepted: 2003-09-14

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2020	Huegel J, Boorman‐Padgett JF, Nuss CA, Raja HA, Chan PY, Kuntz AF, Waldorff EI, Zhang N, Ryaby JT, Soslowsky LJ. Effects of pulsed electromagnetic field therapy on rat achilles tendon healing. J Orthop Res. January 2020;38(1):70-81.
2020	Itoigawa Y, Wada T, Kawasaki T, Morikawa D, Maruyama Y, Kaneko K. Supraspinatus muscle and tendon stiffness changes after arthroscopic rotator cuff repair: a shear wave elastography assessment. J Orthop Res. January 2020;38(1):219-227.
2022	Uehara H, Itoigawa Y, Wada T, Morikawa D, Koga A, Nojiri H, Kawasaki T, Maruyama Y, Ishijima M. Relationship of superoxide dismutase to rotator cuff injury/tear in a rat model. J Orthop Res. May 2022;40(5):1006-1015.
2022	Huegel J, Chan PYW, Weiss SN, Nuss CA, Raja H, Waldorff EI, Zhang N, Ryaby JT, Soslowsky LJ, Kuntz AF. Pulsed electromagnetic field therapy alters early healing in a rat model of rotator cuff injury and repair: potential mechanisms. J Orthop Res. July 2022;40(7):1593-1603.
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