Arthroscopic Bankart repair with knotless all-suture anchors

Obere Extremität 2021 · 16:51–53 https://doi.org/10.1007/s11678-021-00625-0 Received: 19 September 2020 Accepted: 3 December 2020 Published online: 22 January 2021 © The Author(s) 2021 Anna-K. Tross · Philip-C. Nolte · Joseph J. Ruzbarsky · Bryant P. Elrick · AdamM. Johannsen · Peter J. Millett 1 Steadman Philippon Research Institute, Vail, USA 2 Clinic for Orthopedics and Trauma Surgery, Heidelberg University Hospital, Heidelberg, Germany 3 Clinic for Trauma and Orthopaedic Surgery, BG Trauma Center Ludwigshafen at the University of Heidelberg, Ludwigshafen, Germany


Background
Knotless, all-suture anchors are a valuable alternative to solid anchors for arthroscopic Bankart repairs with a strong biomechanical profile and promising clinical short-term results [1,2,5]. The benefits of knotless, all-suture anchors include the small size, allowing for more points of fixation per unit area, improved access due to the ability to insert through curved drill guides, artifactreduced postoperative imaging, bone stock preservation, less risk of erosion of the humeral head or soft tissue such as the rotator cuff, and time efficiency due to the knotless construct [1][2][3][4][5].

Operative technique
The senior author's preferred technique utilizes the beach chair position, but the lateral decubitus position is also routinely used. Diagnostic arthroscopy is performed through a standard posterior viewing portal to identify the pathology at the anteroinferior aspect of the glenoid and to address any potential concomitant lesions.
Underdirectvisualizationwhile utilizing a 30°arthroscope, an anterosuperior portal is created and placed high into the rotatorinterval. The seniorauthorcreates a third portal, the anteroinferior portal, which is established just above the upper border of the subscapularis tendon providing adequate trajectory for later anchor placement and passage of sutures around the labrum and capsule. An 8.25mm cannula is typically used in this location in order to accommodate 25°and 45°curved suture-passing instruments (. Fig. 1).
The capsulolabral complex is mobilized with the help of an arthroscopic periosteal elevator. A 70°scope can also be used atthis pointtohelp withvisualization. Adequate mobilization is achieved when the muscle fibers of the subscapularis are visualized and the resting position of the elevated capsulolabral complex is at the level of the glenoid cartilage. The capsulolabral sleeve can be shifted to assess the desired tension. The glenoid neck is then debrided to a bleeding bony bed with an oscillating arthroscopic burr to promote healing. The cortex is preserved, however, so as not to weaken anchor fixation or increase the risk of postsurgical fracture/erosion. The first anchor is strategically placed at the 5:30-o' clock position in order to shift the inferior capsulolabral complex and to tighten the axillary pouch. A curved drill guide is inserted through the an-teroinferior portal to pilot the drill hole at the anteroinferior glenoid rim. The first knotless, all-suture anchor (1.8 mm FiberTak, Arthrex, Naples, FL, USA) is placed through the drill guide into the previously drilled hole, and is then manually provisionally seated, followed by mallet impaction for full seating into the bone. Tension is applied to the anchor sutures in order to allow the anchor to sit beneath the cortex. Once the anchor stability is checked, suture management can be initiated.
There are three suture limbs per anchor: one repair suture (white-blue) and two limbs of the shuttle suture (whiteblack). The repair suture is separated from the shuttling suture by retrieving it through the anterosuperior portal using an atraumatic arthroscopic grasping instrument (. Fig. 2). The senior author prefers to use a 25°angulated sutureshuttling device that is passed through the anteroinferior 8.25-mm cannula and then through the desired capsulolabral tissue in order to facilitate a capsular shift from lateral to medial and from inferior to superior. The nitinol wire of the shuttling device is then retrieved through the anterosuperior portal. The repair suture is placed into the loop of the nitinol wire and is shuttled backthroughthe anteroinferior portal, completing the repair suture passage.
The repair suture is now threaded through the loop of the shuttle suture. The non-looped shuttle suture is then pulled gently until the repair suture passes back through the anteroinferior Technical Note portal and into and through the selflocking mechanism of the anchor. The repair suture is then provisionally tightened. Next, through the anterosuperior portal, an atraumatic arthroscopic grasping device is used to superiorly advance the labral tissue while the repair suture is fully tightened. This facilitates the superior capsulolabral shift. Finally, the repair suture is cut flush. These steps are then repeated for additional anchors according to the pathology that is encountered, typically resulting in a total of four anchors for a standard Bankart repair. More anchors can be used for larger tears or tears that extend superiorly or posteriorly.

Postoperative rehabilitation
An abduction sling is applied 4 four weeks to decrease the tension on the reconstruction, and external rotation is limited to 30°. At 5 weeks, the sling is removed, and full unrestricted passive range of motion is permitted with progression to active range of motion as tolerated. Return to full activity is typically permitted at 4 months.

Discussion
All-suture anchors might have several advantages over traditional polymer-or bioabsorbable-based anchor constructs including the potential for small sizes allowing for bone preservation, reduced The repair suture (white-blue) is separated from the shuttling suture (white-black) by retrieving it through the anterosuperior portal using an atraumatic arthroscopic grasping instrument risk of anchor arthropathy, and reduced bone reactions (e.g., osteolysis) around the implant when compared with solid biocomposite anchors [4]. Concerns about limited failure load, anchor displacement, and anchor pull-out were recently addressed by Lacheta et al. [2], who demonstrated high loads to failure for both knotted and knotless all-suture anchor repairs, with superior loop security of knotless repairs. Furthermore, Ntalos et al. [3] postulated that even in the case of pull-out, all-suture anchors may be advantageous over solid suture anchors as there is less potential for articular cartilage damage. All-suture anchors also remain permanently in the bone and soft tissue possibly acting to reinforce the damaged tissues. Clinical outcome studies following all-suture anchor Bankart repairs are still scarce and mostly limited to short-term followup; however, early results are promising. Investigating 20 patients following arthroscopic Bankart repair with allsuture anchors at a minimum follow-up of 1 year, Willemot et al. [5]  For this article no studies with human participants or animals were performed by any of the authors. All studies performed were in accordance with the ethical standards indicated in each case.
Open Access. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.