Severe Wound Complication due to Prineo Surgical Dressing in Shoulder Hemiarthroplasty: A Case Report.

CASE: A 61-year-old woman with left shoulder osteoarthritis underwent a left shoulder hemiarthroplasty. The wound was closed using the Dermabond Prineo system. The patient had a severe and progressive reaction during the first 2 weeks that necessitated debridement and skin grafting. Three months after surgery, the patient was doing well. CONCLUSIONS: Severe reactions to 2-octyl cyanoacrylate are uncommon. The severity of the presented reaction is rare. However, surgeons using this closure method should be aware of potential reactions that may initially mimic infection. It is important to initiate appropriate treatment including removing the dressing, topical steroids, and/or oral antihistamines, antibiotics, and possible surgical wound debridement.

Reverse Flipping Technique: An Alternate Approach to Tie Reversing Half-Hitches on Alternating Posts.

Arthroscopic knot tying requires practice and attention to detail, especially tying the 3 reversing half-hitches on alternating posts (RHAPs) in a knot. Mistakes can occur that result in an unintentional tension (>10 N) applied to the wrapping suture limb, and by placing tension in the wrong limb, the previously "flipped" half-hitch is converted from a series of RHAPs into a series of identical half-hitches on the same post, thereby producing insecure knots or suture loops. This was hypothesized to be a source of knot failure by knot slippage. This error can be avoided by using a technique we describe as "reverse flipping," which purposely "flips" the half-hitch down at the main knot while tying the 3 RHAPs in a knot, and then the half-hitch is retightened using either a past-pointing or over-pointing technique. This way the surgeon can be absolutely sure that the half-hitch is tightened in the direction that it was intended to be placed, and can also prevent the unintentional tension applied to the wrapping suture limb that causes the half-hitch to "flip." However, caution should be used when tensioning the half-hitches; overtensioning (>40 N) during past-pointing or over-pointing could also potentially "flip" the previous half-hitch that has already been tightened and cause potential knot failure.

Validation of Improvement of Basic Competency in Arthroscopic Knot Tying Using a Bench Top Simulator in Orthopaedic Residency Education.

PURPOSE: To validate basic competency in arthroscopic knot tying using a unique simulator device to compare the level of training needed for learning and tying the arthroscopic knot by evaluating the tensile properties of the arthroscopic knots. METHODS: Three groups of surgeons of various experience levels (postgraduate year [PGY] 1, PGY 3, and experienced surgeons) tied 2 different arthroscopic knots (Tennessee Slider, considered easier, and Weston, considered more difficult) over a 10-week period. Each group went through 3 separate stages of knot tying: stage 1, tying 8 knots without cannula or knot pusher; stage 2, tying 12 knots with knot pusher; and stage 3, tying 20 knots with knot pusher through a cannula that simulates knot tying during surgery. A single load-to-failure test was performed and ultimate clinical failure loads were recorded. Time needed to tie each knot was also recorded. RESULTS: At stages 1 and 2, the PGY 1 group had a significantly weak knot tensile strength (Tennessee Slider stage 1: 60 v 129 N, P = .001; Tennessee Slider stage 2: 69 v 132 N, P = .0029; Weston stage 1: 73 v 184 N, P = .0000; Weston stage 2: 125 v 173 N, P = .0045) and were slower (Weston: 56 v 30 seconds, P = .0010) than the experienced surgeon group for both knots. At stage 3, only the initial 2 weeks of Tennessee Slider showed a significant difference between groups 1 and 3 (week 6: 87 v 118 N, P = .0492; week 7: 89 v 126, P = .01485). Even though the Tennessee Slider knot is one of the easier arthroscopic knots to learn to tie, the results showed a slow trend of improvement in this knot-tying skill for group 1 after each stage. CONCLUSIONS: The data validated an important learning effect in all trainees in arthroscopic knot tying over a 10-week period and showed that inexperienced trainees will be able to improve their knot-tying skill with training in 3 stages with a simulator environment. CLINICAL RELEVANCE: The findings of this study indicated the importance of hands-on experience in performing arthroscopic knot tying, as determined by both knot performance and ultimate suture loop strength. In addition, each orthopaedic resident learned and developed his or her arthroscopic knot-tying skills and provided a foundation for his or her future practice in orthopaedic medicine.