Rotator cuff tears (RCTs) are one of the primary causes of shoulder pain and dysfunction in the upper extremity accounting over 4.5 million physician visits per year with 250,000 rotator cuff repairs being performed annually in the U.S. While the tear is often considered an injury to a specific tendon/tendons and consequently treated as such, there are secondary effects of RCTs that may have significant consequences for shoulder function. Specifically, RCTs have been shown to affect the joint cartilage, bone, the ligaments, as well as the remaining intact tendons of the shoulder joint. Injuries associated with the upper extremities account for the largest percent of workplace injuries. Unfortunately, the variable success rate related to RCTs motivates the need for a better understanding of the biomechanical consequences associated with the shoulder injuries. Understanding the timing of the injury and the secondary anatomic consequences that are likely to have occurred are also of great importance in treatment planning because the approach to the treatment algorithm is influenced by the functional and anatomic state of the rotator cuff and the shoulder complex in general. In this review, we summarized the contribution of RCTs to joint stability in terms of both primary (injured tendon) and secondary (remaining tissues) consequences including anatomic changes in the tissues surrounding the affected tendon/tendons. The mechanical basis of normal shoulder joint function depends on the balance between active muscle forces and passive stabilization from the joint surfaces, capsular ligaments, and labrum. Evaluating the role of all tissues working together as a system for maintaining joint stability during function is important to understand the effects of RCT, specifically in the working population, and may provide insight into root causes of shoulder injury.
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November 2017
Review Articles
Primary and Secondary Consequences of Rotator Cuff Injury on Joint Stabilizing Tissues in the Shoulder
Hafizur Rahman,
Hafizur Rahman
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mrahman3@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mrahman3@illinois.edu
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Eric Currier,
Eric Currier
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ecurrier0@gmail.com
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ecurrier0@gmail.com
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Marshall Johnson,
Marshall Johnson
Department of Mechanical Engineering,
Georgia Institute of Technology,
Atlanta, GA 30332
e-mail: mvjohns2@gatech.edu
Georgia Institute of Technology,
Atlanta, GA 30332
e-mail: mvjohns2@gatech.edu
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Rick Goding,
Rick Goding
Department of Orthopaedic,
Joint Preservation Institute of Iowa,
West Des Moines, IA 50266
e-mail: R.goding@jointpreservationiowa.com
Joint Preservation Institute of Iowa,
West Des Moines, IA 50266
e-mail: R.goding@jointpreservationiowa.com
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Amy Wagoner Johnson,
Amy Wagoner Johnson
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ajwj@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ajwj@illinois.edu
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Mariana E. Kersh
Mariana E. Kersh
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mkersh@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mkersh@illinois.edu
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Hafizur Rahman
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mrahman3@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mrahman3@illinois.edu
Eric Currier
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ecurrier0@gmail.com
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ecurrier0@gmail.com
Marshall Johnson
Department of Mechanical Engineering,
Georgia Institute of Technology,
Atlanta, GA 30332
e-mail: mvjohns2@gatech.edu
Georgia Institute of Technology,
Atlanta, GA 30332
e-mail: mvjohns2@gatech.edu
Rick Goding
Department of Orthopaedic,
Joint Preservation Institute of Iowa,
West Des Moines, IA 50266
e-mail: R.goding@jointpreservationiowa.com
Joint Preservation Institute of Iowa,
West Des Moines, IA 50266
e-mail: R.goding@jointpreservationiowa.com
Amy Wagoner Johnson
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ajwj@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: ajwj@illinois.edu
Mariana E. Kersh
Department of Mechanical Science
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mkersh@illinois.edu
and Engineering,
University of Illinois at Urbana-Champaign,
Urbana, IL 61801
e-mail: mkersh@illinois.edu
1Corresponding author.
Manuscript received May 13, 2017; final manuscript received September 13, 2017; published online September 29, 2017. Assoc. Editor: Kyle Allen.
J Biomech Eng. Nov 2017, 139(11): 110801 (10 pages)
Published Online: September 29, 2017
Article history
Received:
May 13, 2017
Revised:
September 13, 2017
Citation
Rahman, H., Currier, E., Johnson, M., Goding, R., Johnson, A. W., and Kersh, M. E. (September 29, 2017). "Primary and Secondary Consequences of Rotator Cuff Injury on Joint Stabilizing Tissues in the Shoulder." ASME. J Biomech Eng. November 2017; 139(11): 110801. https://doi.org/10.1115/1.4037917
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