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The purpose of this study is to see the impact of a modified Spencer's technique on tissue stiffness, mobility, and blood flow of the shoulder joint. Spencer's technique is a well-known osteopathic manipulative treatment (OMT) that is common for treating adhesive capsulitis and is believed to help blood flow. There are studies that look at the clinical effects of the technique and/or compare it to other techniques; however, measuring the extent to which Spencer's technique, or this modified technique, improves tissue stiffness and blood flow has never been written in the literature. This study will serve as a proof of concept that this technique improves tissue stiffness, blood flow, and mobility of the shoulder join as well as the nearby areas. Using ultrasound, the investigators will measure tissue stiffness and blood flow and will analyze the mobility of the shoulder joint using a Vicon motion capture system.
2:1 Randomized, Controlled, Multi-Center, Prospective, Pre-Market Study of the INHANCE Stemless Reverse Cementless Total Shoulder.
The goal of this study is to confirm the safety and performance of the AETOS Shoulder System for USA adoption. This is a prospective, open, adaptive, non-comparative, multi-centre investigation enrolling a maximum of 220 subjects in 2 cohorts (anatomic and reverse) at up to 15 sites. No intra-study comparator group will be included, and there will be no randomization
In this work the investigators will study the relationship between chronic musculoskeletal pain and abnormal blood flow (neovascularity) around the shoulder, hip and knee. Veterans with as history of chronic shoulder, hip or knee pain and mild/moderate joint degenerative changes will be potential study subjects. Blood flow around joints will be evaluated using perfusion magnetic resonance imaging (MRI). Participants with demonstrably abnormal blood flow around their painful joint will be eligible for enrollment in a pilot study of joint embolization to treat their pain. Participants who choose to not undergo treatment will be re-assessed with MRI after one year to characterize the natural history of joint neovascularity and its relationship to pain.
The main purpose of this research is to find out if a treatment called cryoneurolysis can reduce pain after reverse total shoulder replacement surgery. This treatment uses cold to temporarily block a nerve in the shoulder. The study will compare people who receive the treatment to those who do not, to see if it helps lower pain and reduce the need for opioid pain medications after a reverse total shoulder surgery (RTSA).
Proximal humerus fractures can be a debilitating injury in the elderly, impacting the ability to function independently or complete activities of daily living due to pain and restricted shoulder motion. Evidence has shown that reverse total shoulder arthroplasty (rTSA) is an effective option to improve pain and function for patients with acute displaced proximal humerus fractures. Given that patients undergoing rTSA for proximal humerus fractures typically experience worse functional outcomes, worse patient-reported outcomes, and higher rates of complication compared to those with elective indications for surgical intervention, it is critical to determine a secure path to recovery for these patients after surgery. Early rehabilitation has been proposed to be safe and effective for patients who undergo rTSA for elective indications; however, there is a paucity of research evaluating safety and effectiveness of timing of rehabilitation for rTSA patients in the trauma setting. Currently, there exists a great variability in postoperative rehabilitation protocols across orthopaedic practices. This study's objective is to determine the safety and effectiveness of early postoperative rehabilitation on the outcomes and postoperative complications of patients undergoing rTSA for proximal humerus fractures in order to provide more specific recommendations for this patient population.
The purpose of this randomized controlled trial is to determine the effect of post-incision wash using various novel antimicrobial solutions on the rate of positive C. Acnes cultures collected from adults undergoing primary shoulder replacement surgery. Subjects will be randomly assigned in a 1:1:1:1 fashion to groups that will receive one of the following treatments: * Post-incision application of Xperience Antimicrobial wash (NextScience, Jacksonville, FL) * Post-incision application of 3% hydrogen peroxide * Post-incision application of 10% povidone-iodine (betadine) * No post-incision treatment (control) The investigators hypothesize that the subjects treated with the antimicrobial solutions after initial incision will have lower rates of positive C. Acnes cultures. The investigators also hypothesize that post-incision application of Xperience Antimicrobial wash and Betadine will have an equal reduction in the incidence of C. acnes as Hydrogen Peroxide.
The goal of this multi-center observational study is to collect long-term clinical outcome information for anatomic and reverse total shoulder arthroplasty (shoulder replacement).
Some patients may experience persistent pain in the front of their shoulder after reverse shoulder replacement. One of the possible reasons for this is that the surgery causes a change in the alignment of the shoulder joint, which may cause increased tension and compression on one of the biceps tendon called the conjoint tendon. The purpose of this study is to evaluate whether conjoint tendon lengthening, a surgical procedure that involves cutting and lengthening the conjoint tendon in order to reduce tension and compression, is able to prevent or reduce the risk of anterior shoulder pain at one year after surgery.
Shoulder pain is extremely common after stroke and occurs in 30-70% of patients. The pain may begin as early as one week after stroke, although peak onset and severity occurs around four months, and persists into the chronic stage. Chronic post stroke shoulder pain (PSSP) interferes with motor recovery, decreases quality of life, and contributes to depression. PSSP is thought to be caused mainly by damage to the myofascial tissues around the shoulder joint. Interestingly, an MRI study in patients with PSSP showed that the degree of structural damage to the muscles did not correlate with the degree of pain. Thus, the pathophysiology of myofascial dysfunction and pain in PSSP has not been elucidated leading to missed opportunities for early diagnosis and variable success with pain management. The accumulation of hyaluronic acid (HA) in muscle and its fascia can cause myofascial dysfunction. HA is a glycosaminoglycan (GAG) consisting of long-chain polymers of disaccharide units of glucuronic acid and N-acetylglucosamine and is a chief constituent of the extracellular matrix of muscle. In physiologic quantities, HA functions as a lubricant and a viscoelastic shock absorber, enabling force transmission during contraction and stretch. Reduced joint mobility and spasticity result in focal accumulation and alteration of HA in muscle. This can lead to the development of stiff areas and taut bands, dysfunctional gliding of deep fascia and muscle layers, reduced range of motion (ROM), and pain. However, the association of muscle HA accumulation with PSSP has not been established. The investigators have quantified the concentration of HA in muscle using T1rho (T1ρ) MRI and found that T1ρ relaxation time is increased in post stroke shoulder pain and stiffness. Furthermore, dynamic US imaging using shear strain mapping can quantify dysfunctional gliding of muscle that may generate pain during ROM. Myofascial dysfunction can result in non-painful reduction in ROM (latent PSSP), which may become painful due to episodic overuse injury producing greater shear dysfunction (active PSSP). Hence, shear strain mapping may differentiate between latent versus active PSSP. Thus, quantitative Motor Recovery (MR) and US imaging may serve as useful biomarkers to elucidate the pathophysiology of myofascial dysfunction.