Publications by authors named "Kevin A Dahl"
Introduction: The specific aims of this study were to evaluate (1) the axial force reduction of suture passage utilizing electrocautery when applied to the greater trochanter of the femur, (2) the temperature change caused while using electrocautery for suture passage, and (3) the failure loads and failure modes utilizing this technique.
Methods: Five matched pairs of fresh-frozen femurs were used and classified into two groups: with electrocautery on needle (study group) and without electrocautery on needle (control group). Two bicortical, osseous tunnels were made around the insertion of the gluteus medius tendon.
Purpose: To determine the optimal arthroscopic slipknot through comparison of ease of placement, loop security, knot security, and amount of suture material needed using a new suture material.
Methods: Nine commonly used arthroscopic knots (Dines, Field, Nicky, Hu, San Diego, Snyder, Tennessee slider, Triad, and Tuckahoe) were tested by use of modern suture material, FiberWire (Arthrex, Naples, FL), with the Instron materials testing machine (Instron, Norwood, MA) for ease of knot placement (forward and backward sliding), loop security, and knot security. The amount of suture material needed to create the knot was compared by use of the knot weight.
Background: Third-body wear can adversely affect the outcome of total hip arthroplasty by causing increased polyethylene wear, osteolysis, and component loosening. We hypothesized that there would be greater generation and migration of metal debris to the bearing surfaces in hips in which cobalt-chromium cables were used to reattach the osteotomized greater trochanter when compared with hips in which stainless steel wires were used.
Methods: Between June 1981 and December 1983, 196 consecutive total hip arthroplasties were performed with use of an Iowa stem and a titanium-backed cemented acetabular component, with cobalt-chromium cable trochanteric reattachment.