View clinical trials related to Sarcopenia.
Filter by:The overall goal of this project is to develop modular, lower-limb, powered orthoses that fit to user-specific weakened joints and control force/torque in a manner that enhances voluntary motion in broad patient populations. This project aims to establish feasibility of assisting different populations with these modular powered orthoses. The investigators hypothesize that assisting lower-limb musculature with modular powered orthoses will improve 1) lifting/lowering posture in able-bodied subjects and 2) functional outcomes in elderly subjects.
This study aims to follow a cohort of osteoporotic patients treated with anti-osteoporotic drugs and to evaluate the impact of these treatments on the osteoporosis-cardiovascular-sarcopenia triad and on pain.
Sarcopenia is the major health concern and common consequence of COVID-19 in the aging population. Moreover, this clinical condition has not been considered in usual physical rehabilitation practice, and its optimal protein requirement in food is not well defined, which requires a meaningful study in this field. The reports of this trial would deliver the latest evidence and proper guidelines for the prescription of physical exercises and also provide an optimal dietary plan in sarcopenia patients with COVID infection. Objective: To find and compare the clinical and psychological effects of integrated physical training with a high protein diet versus a low-protein diet in community-dwelling COVID-19 asymptomatic older adults with Sarcopenia symptoms.
To analyze the effects of a high intensity exercises program by intervals on sarcopenia, active aging and oral microbiota in older adults.
Recent work in the investigators laboratory has examined the ability of a non-invasive 13CO2 breath-test to assess differences in amino acid oxidation rates and net balance in young healthy males following protein feeding and resistance exercise. The investigators aim to test the efficacy of this non-invasive 13CO2 breath-test to assess for differences in anabolic sensitivity between young and older adults following an acute period of habitual and reduced physical activity.
Growing evidence has confirmed that the prognosis of lung cancer is not only related to the stage of disease, but also to the physiological and psychological situation of the patients. Malignant tumors are often associated with weakness and cachexia, leading to less physical activities and worse moods. However, few studies that have attempted to investigate the impact of nutritional status on the prognosis of NSCLC. Existing applications of nutritional scoring systems in early-stage of NSCLC are very limited. Therefore, this study aims to observe the correlation between nutritional status and the prognosis of patients with early-stage NSCLC, to clarify the value in predicting the overall survival rate and progression-free survival rate of NSCLC patients, and to offer evidence for alleviating the social and economic burden of NSCLC.
Botulinum neurotoxin type A (BoNT-A) intervention to control the hypertonia of muscles is one of the evidence-based managements for children with spastic cerebral palsy. However, BoNT-A injection in animal models to induce weakness had revealed some detrimental effects on muscular and skeletal systems. There are some objectives of this research. The first aim is to establish the baseline data of deficiencies in bone condition and muscle mass for individuals with cerebral palsy. To confirm the influences of intramuscular administration of Botox on muscular and bony health in this population is the other aim.
The use of surrogate markers such as body mass index (BMI) as a target outcome of physical activity may not be appropriate in older adults who are at risk of muscle sarcopenia. In the presence of sarcopenia, reductions in body weight may lead to lower BMI values. We have previously found deleterious changes in cardiac structure and function among sarcopenic older adults, raising a possible biological syndrome of 'cardio-sarcopenia'. In this study, we will investigate the impact of physical activity on temporal changes in cardiac and skeletal muscle , and BMI, over six- to twelve month period, on older adults with this syndrome. By targeting the cardio-sarcopenic phenotype as a modifiable risk factor that may be altered by physical activity, the results will provide new knowledge into retarding deleterious consequences of cardiovascular ageing. This new target challenges the paradigm of using BMI as an anthropometric marker in health prevention. If proven, this will dramatically change primary prevention targets among older adults, justifying the use of cardio-sarcopenia as a rational anthropometric target.
Muscle failure (sarcopenia or dynapenia) is a factor of frailty and therefore, ultimately, of loss of autonomy in the elderly. Currently, no biomarker of muscle failure has a high sensitivity, specificity and positive predictive value. Several results, although preliminary, suggest that metabolomics could facilitate the early identification of frail patients, allowing the implementation of primary prevention strategies. Untargeted high-resolution metabolomics analysis would identify discriminative biomarkers and biological mechanisms associated with frailty. Finally, the hypothesis that metabolic signatures can be identified as risk factors for the development of age-related dynapenia should be tested in a longitudinal design.
We aim to clarify the relationship between sleep hygiene and the onset of sarcopenia or cognitive dysfunction using sleep time, arousal, and sleep quality as indicators in COPD or IPF patients, and clarify the effects of sleep hygiene on disease progression and life prognosis.