Rip-Stop Fixation Constructs for Rotator Cuff Repair

In arthroscopic rotator cuff repair, poor tendon quality, medially based tears, lateral tendon loss, or limited tendon mobility can all preclude the use of double-row suture constructs, presenting a challenge in achieving secure fixation and tendon-to-bone healing. Rip-stop suture configurations can...

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Veröffentlicht in:	Arthroscopy 2023-11, Vol.39 (11), p.2271-2272
Hauptverfasser:	Hwang, Simon T., Horinek, Jeffrey L., Ardebol, Javier, Menendez, Mariano E., Denard, Patrick J.
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creator	Hwang, Simon T. Horinek, Jeffrey L. Ardebol, Javier Menendez, Mariano E. Denard, Patrick J.
description	In arthroscopic rotator cuff repair, poor tendon quality, medially based tears, lateral tendon loss, or limited tendon mobility can all preclude the use of double-row suture constructs, presenting a challenge in achieving secure fixation and tendon-to-bone healing. Rip-stop suture configurations can be used in these settings to improve resistance to tissue cutout and provide enhanced biomechanical characteristics compared with standard single-row repairs. The load-sharing rip-stop technique uses 2 double-loaded medial suture anchors, which are placed adjacent to the articular margin, and 1 rip-stop suture tape, which is independently secured to bone with 2 lateral knotless anchors. The load-sharing rip-stop technique has been shown to improve ultimate load to failure by 1.7 times compared with a single-row repair. Clinically, this technique has been associated with a 53% healing rate of large and massive rotator cuff tears, compared with only 11% healing when using single-row repair. A completely knotless variation rip-stop configuration also has been described and shown to be biomechanically equivalent to a single-row repair with triple-loaded anchors. For surgeons desiring a single-row repair only, the knotless rip-stop therefore presents an advantage by eliminating the need for knot-tying and decreasing operative time.
doi_str_mv	10.1016/j.arthro.2023.06.013
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title	Rip-Stop Fixation Constructs for Rotator Cuff Repair
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