10 Clinical Trials for Various Conditions
The purpose of this study is to determine if blood flow restriction therapy after Achilles tendon rupture reconstruction decreases post-operative calf atrophy, improves reported outcomes, and ultimately decreases return to play time.
The majority of patients suffering an Achilles tendon rupture develop long term functional deficits in the affected leg. The goal of the proposed study is to evaluate a new rehabilitation protocol using Neuromuscular Electrical Stimulation (NMES) for reducing muscle atrophy and improving tendon properties. If proven beneficial, the proposed protocol can be easily adopted and incorporated as part of routine care for Achilles tendon rupture.
The purpose of this study is to examine the effect of utilizing blood flow restriction (BFR) therapy in the rehabilitation of Achilles tendon rupture (ATR). Muscle atrophy occurs following Achilles tendon rupture, whether managed non operatively or operatively, which has implications on patient outcomes. The goal of physical therapy in the perioperative period is to regain and ultimately return to activity. BFR has been proposed to reduce atrophy and maintain strength, which would theoretically mitigate the deconditioning effects of an injury on surrounding musculature. BFR is proposed to work by restricting arterial inflow leading to an oxygen depleted environment and the ability to induce muscle adaption at lower maximum repetition via reactive hyperemia and induction of growth cytokines, thus leading to muscle hypertrophy. The goal of this investigation is to determine if using BFR as an adjunct in physical therapy following ATR would reduce muscular atrophy and lead to increased and expedited strength gains. Additionally, the investigators would like to determine if BFR accelerates the rehabilitation process and allows patients to perform standard rehabilitative functional tests and return to play sooner. Furthermore, the investigators will investigate patient reported outcomes metrics. The investigators hypothesize that the BFR group will have significantly greater strength gains at all time points in both non operatively and operatively treated ATR. Previous studies have shown that BFR has potential in increasing Achilles tendon stiffness, tendon cross-sectional area, muscle strength and muscle hypertrophy. However, there is a lack of evidence regarding the use of BFR in both the pre and postoperative period specifically relating to ATR. The investigators believe that the use of BFR in the perioperative period surrounding an Achilles tendon rupture and ATR has the potential to significantly decreased muscle atrophy, improve patient satisfaction and lead to earlier return to sport.
This is a retrospective chart review to determine the etiologies contributing to prolonged PACU discharge at a major Orthopedic Ambulatory Center
The purpose of this study is to evaluate the surgically repaired tendon of a ruptured achilles tendon. We will investigate fixation slippage and tendon creep and correlate how these post-repair findings can contribute to outcomes of tendon repairs.
Calf muscle atrophy (muscle degeneration) is common following Achilles tendon repair due to the immobilization period necessary to ensure optimal healing. The purpose of this study is to determine if the use of neuromuscular electrical stimulation (NMES) after Achilles tendon surgery will reduce calf muscle atrophy.
The aim of this study is to evaluate the surgical and clinical outcome of Artelon® Tissue Reinforcement in repair of chronic ruptures or re-ruptures of the Achilles tendon, with regard to lower leg and foot function, pain and quality of life.
Ambispective, multi-surgeon, single site, consecutive case series to determine the safety, performance, and benefits of the Grappler(R) Interference Screw.
Ambispective, multi-surgeon, single site, consecutive case series to determine the safety, performance, and benefits of the Grappler(R) Interference Screw.
The purpose of the proposed study is to evaluate the effect of lateral extra-articular tenodesis (LET) on anterior cruciate ligament reconstruction through evaluation of postoperative magnetic resonance imaging (MRI). This will be a single-center non-randomized controlled study. The study is comparing postoperative graft MRI findings in two cohorts: patients undergoing isolated ACLR and patients undergoing ACLR with lateral extra-articular tenodesis (LET). Postoperative MRIs will be obtained at 6, 9 and 12 months postoperatively.