Effect of Tissue Flossing on Pain,Function and Movement
Elbow TendinopathyThe purpose of the current investigation is to examine the effect of tissue-flossing on upper extremity, pain, strength and functional performance in subjects with musculoskeletal-related complaints of pain surrounding the elbow complex
Diclofenac Patch for Treatment of Mild to Moderate Tendonitis or Bursitis
Rotator Cuff TendonitisBicipital Tendonitis5 moreThe primary purpose of this study is to assess the effectiveness of once daily application of a diclofenac sodium patch to the skin near or over the painful area. In this study, the location being studied will be one of the following: the affected shoulder, elbow, or wrist. The secondary purpose of this study is to assess the safety and tolerability of the diclofenac patch on the subject's skin, in the location being studied.
Treatment of Lateral Elbow Tendinopathy
EpicondylitisLateral HumeralThis study investigates the treatment effect on lateral elbow tendinopathy of strength training in combination with cortico-steroid injection, dry-needling or placebo in a double-blinded randomized controlled trial.
OVT for Epicondylosis (Tennis Elbow)
EpicondylitisLateral2 moreTo assess the residual risk of OrthoVisc-T (OVT) for the treatment of chronic lateral epicondylosis (Tennis Elbow). This trial will provide clinical data on a subject population not previously researched which have failed prior treatments for lateral epicondylosis.
Piezowave for Treatment on Lateral and Medial Elbow Tendinopathies
Elbow TendinopathyGolfer's Elbow3 moreWithin the outpatient rehabilitation clinic, therapists provide therapeutic interventions to treat patients with various tendinopathies, including lateral and medial epicondylosis. Current conservative treatment includes immobilization for forced rest of the inflamed tendons and muscles, as well as mobilizations to focus stimulation of synovial fluid, provide movement to nourish cartilage, promote periarticular extensibility, and provide sensory and proprioceptive input. Musculoskeletal disorders can accompany both local and referred pain patterns that need to be assessed and treated. When an acute trauma or repetitive micro-trauma occurs, that may result in decreased range of motion and increased pain causing the onset of weakness and function of the affected extremity. An alternative approach is through the provision of Piezowave Myofascial Acoustic Compression Therapy (MyACT), which provides mechanical stimuli delivery to improve circulation and provide relief of pain. The focused sound waves produced by the Piezowave MyACT device are classified by a pressure surge, which is followed by a drop in pressure and a brief negative pressure phase low energy/low pressure application. It is this transformation of mechanical stimuli into biochemical signals, or mechanotransduction, which yields the treatment of myofascial and musculoskeletal pain. There is currently limited research to support the benefit in regards to increased function and decreased pain when the Piezowave MyACT is used for the treatment of lateral and medial epicondylosis. Of the limited research available, treatment with non-invasive shock wave therapy, complications are low and effect is achieved in most cases within three to five sessions. If Piezowave Myofascial Acoustic Compression Therapy (MyACT)) is applied as treatment for symptoms of lateral and medical elbow tendinopathies, then the patient will experience increased function demonstrated by Quick DASH (Disability of the Arm, Shoulder and Hand) score and decreased pain demonstrated by subjective reporting on the numeric pain rating scale.
Isometric Intervention for Lateral Elbow Tendinopathy
Lateral Elbow TendinopathyElbow Pain3 moreThis study will be looking at people with lateral elbow tendinopathy (elbow pain). The goal is to determine if a one-time isometric intervention will positively change the level of pain and strength as compared to baseline measurements. After determining baseline strength and pain level, an intervention consisting of several trials of isometric hand/wrist contractions will be performed by the participant. Pain and strength will again be assessed immediately after the intervention.
Evaluation of Clinical Efficacy of Different Injection Therapies for Treating Humeral Epicondylopathy...
Elbow TendinopathyHumeral epicondylopathies are common disorders which can significantly impair upper limb function. In case of failure of rehabilitation protocol there is no evidence based second line therapy. It is common practice to perform one of the injection procedures. The biological mechanisms of these procedures are unclear, and may even be contrary. These include, but are not limited to, injections of corticosteroids, autologous platelet rich plasma (PRP) and hyaluronic acid (HA). Despite the frequent use there is much controversy about their clinical effectiveness and more evidence based data are required. The aim of the study is to compare three different injection therapies for lateral epicondylopathy. In addition, correlation between selected bioactive compounds in PRP and its clinical effectiveness will be evaluated. The study is planned as a single-center, prospective, randomized, double-blinded, controlled trial on 120 patients aged 30-60 who suffer for lateral epicondylitis. After meeting the inclusion and exclusion criteria patients will receive an injection of leukocyte-rich autologous PRP (N1), corticosteroid (N2), HA (N3) in the area of the common extensors tendon attachment, respectively. Patients from control group (N4) will get an injection of saline in the same area. All groups will be instructed how to perform everyday stretching and strengthening exercises. Evaluation of clinical effectiveness of the treatment will be based on objective measurements such as range of motion, limb girth, grip strength, X-ray and ultrasound examination and subjective measurements such as pain (VAS), functional (PRTEE, DASH, SEV, MEPS) and quality of life questionnaires (SF-36) before and during follow-up period (1, 4, 12, 24, 52 weeks). PRP samples will undergo laboratory analysis of levels of bioactive compounds including platelets, white blood cells, erythrocytes and selected growth factors and inflammatory cytokines. After data collection, the clinical effectiveness of three different injection therapies will be evaluated and statistically analyzed. Subjective and objective outcomes, safety, costs-effectiveness of three different injection therapies compared to placebo and between each other will be assessed. In addition, correlation between levels of bioactive compounds in PRP and its efficacy will be checked.