View clinical trials related to Upper Extremity Dysfunction.
Filter by:Breast cancer is the most common type of cancer among women and covers 25% of all cancers. After mastectomy and reconstruction, many patients develop various upper extremity complications such as joint movement limitation, pain, lymphedema, and axillary cord. Because of such upper extremity problems, evaluation and treatment of upper extremity functions are important. Upper extremity functions are generally evaluated with questionnaires filled out by the patients themselves and which reflect their own perspectives subjectively. However, these questionnaires cannot reflect the observations and evaluations of the clinicians. Performance tests are important for clinicians to make decisions. With this study, we want to examine the usability of the FIT-HaNSA test in the evaluation of upper extremity functions in patients with breast cancer. Our hypothesis; The FıtHaNSA test is successful in evaluating the upper extremity function in patients with breast cancer.
Acquired Brain Injury (TBI) is a serious medical and health problem in the US. Individuals with an acquired brain injury due to stroke and Traumatic Brain Injury (TBI) commonly suffer from upper extremity physical impairments that persist even after years of injury; these deficits are attributed to the damage to brain structure and changes in structural and functional connectivity. Although the conventional rehabilitation approaches are helpful in assisting motor recovery often there is a complaint of fatigue due to the repetitive tasks and also, nearly half of the ABI survivors do not regain their ability to use their arms for daily activities. To address this issue, Dr. Shenoy's proposed study will investigate the combined use of individually targeted non-invasive brain stimulation and music-assisted video game-based hand exercises to achieve functional recovery. Further, the project will also investigate how the intervention modulates brain activity (recorded using EEG) in terms of brain connectivity before- and after the -intervention. In the end, this study will allow us to understand the cortical dynamics of ABI rehabilitation upon brain stimulation. Extending further, this could pave the way to advance the knowledge of behavioral and neural aspects of motor control in patients with different types of neuromuscular disorders.
Trans-Radial Percutaneous Coronary Intervention (TR-PCI) is rapidly becoming the gold standard. This is especially the case in primary Percutaneous Coronary Interventions (PCI), where most benefits of the radial approach, such as reduced major bleeding and mortality, can be expected. However there is very limited research available looking at the consequences of trans-radial access for upper extremity function. The main objective of this study is to provide insight in the morbidity with regards to the upper extremity surrounding the radial access route in percutaneous coronary interventions. Secondary objectives are to provide insight in the consequences for functional status, factors influencing and financial costs of this morbidity, to identify subject who might benefit from early referral and treatment of this morbidity and to generate hypotheses for further clinical research into this matter. The investigators hypothesis is that approximately 20% of the population will experience upper extremity dysfunction after TR-PCI.