Double row equivalent for rotator cuff repair: A biomechanical analysis of a new technique

Abstract Introduction There are numerous configurations of double row fixation for rotator cuff tears however, there remains to be a consensus on the best method. In this study, we evaluated three different double-row configurations, including a new method. Our primary question is whether the new an...

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Bibliographic Details
Published in:Journal of orthopaedics 2018-06, Vol.15 (2), p.426-431
Main Authors: Robinson, Sean, Krigbaum, Henry, Kramer, Jon, Purviance, Connor, Parrish, Robin, Donahue, Joseph
Format: Article
Language:English
Subjects:
Anchors
Arthroscopy
Biomechanical
Double row
Orthopedics
Rotator cuff repairs
Shoulder
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Summary:Abstract Introduction There are numerous configurations of double row fixation for rotator cuff tears however, there remains to be a consensus on the best method. In this study, we evaluated three different double-row configurations, including a new method. Our primary question is whether the new anchor and technique compares in biomechanical strength to standard double row techniques. Methods Eighteen prepared fresh frozen bovine infraspinatus tendons were randomized to one of three groups including the New Double Row Equivalent, Arthrex Speedbridge and a transosseous equivalent using standard Stabilynx anchors. Biomechanical testing was performed on humeri sawbones and ultimate load, strain, yield strength, contact area, contact pressure, and a survival plots were evaluated. Results The new double row equivalent method demonstrated increased survival as well as ultimate strength at 415N compared to the remainder testing groups as well as equivalent contact area and pressure to standard double row techniques. Conclusions This new anchor system and technique demonstrated higher survival rates and loads to failure than standard double row techniques. This data provides us with a new method of rotator cuff fixation which should be further evaluated in the clinical setting. Level of Evidence Basic science biomechanical study.
ISSN:0972-978X
0972-978X
DOI:10.1016/j.jor.2018.03.006