View clinical trials related to Sarcopenia.
Filter by:This is a randomized interventional clinical trial, whereby 100 participants will be randomized to either follow the SAFE exercise program (experimental group) or not (control group). At the end of the intervention, the experimental group will be encouraged to continue doing the exercises, and the control group will have the opportunity to participate in the SAFE exercises. 12 weeks post-intervention, the investigators will follow up with participants by telephone to follow up whether they are still following the SAFE program or not.
This is a cohort study to understand the role of the human metagenome, and associated metabolites, in health and in various diseased states, in particular obesity as well as sarcopenia. Recruited participants will have their fecal, salivary, urine, serum, and in certain instances, mucosal samples taken, for metagenomic sequencing and metabolite testing. We hope to uncover various differences and signatures in the metagenome and metabolome in various diseased states, with potential future therapeutic applications in personalised medicine.
The proposed research is a parallel arm, randomized placebo-controlled clinical trial designed to assess changes in muscle strength, volume, fatigue resistance, and mobility in older adults after daily consumption of 12g of linoleic acid-rich oil.
The investigators aimed to evaluate long-term sarcopenia in patients with total and distal gastrectomy by measuring the anterior thigh muscle with USG, which is a more specific and easy method.
The goal of this clinical trial is to verify the effectiveness and safety of the low load blood flow restriction training program. The intervention effect, tolerance and compliance of low load blood flow restriction training and progressive resistance training on lung cancer patients complicated with sarcopenia during chemotherapy will be compared, in order to provide new ideas for improving or reversing sarcopenia. The main questions it aims to answer are: Can low load blood flow restriction training improve sarcopenia in chemotherapy induced lung cancer patients? Which training method is more effective and tolerable between low load blood flow restriction training and progressive resistance training? Participants will be randomly divided into 3 groups: 1. Routine care group (Control group, CON): The researchers will provide participants with regular exercise and dietary guidance. 2. Low load blood flow restriction group (LL-BFRT): The researchers will provide participants with a low load blood flow restriction training program constructed by our research group. 3. Progressive resistance training group (PRE): The researchers will provide participants with progressive resistance training.
The loss of skeletal muscle mass and function usually occurs with aging, known as primary sarcopenia. Sarcopenia has a prevalence of 11.6% among the elderly population in China and is closely associated with increased risks of falls, disability, and mortality. Currently, there is a lack of definition criteria for sarcopenia based on biomarkers. The Gut-Muscle Axis hypothesis suggests a complex interplay between gut microbiota and skeletal muscle. Nutritional intervention targeting the gut microbiota potentially plays a significant role in muscle regeneration. Therefore, this study aims to explore the effects of symbiotic and whey protein on muscle, gut microbiota, and clinical outcomes among sarcopenia patients, to provide a reference for further diagnosis and treatment of sarcopenia.
The goal of this observational cohort study is to learn about loss of muscle mass and muscle strength (sarcopenia) in patients with cirrhosis. The main question[s] it aims to answer are: - what is the prevalence and development of sarcopenia in cirrhosis? - what is the role of malnutrition? Participants will - undergo a muscle ultrasound of the lower and upper limb muscles - handgrip strength will be measured - malnutrition screening and assessment - complete a questionnaire to assess quality of life
A randomized controlled clinical trial that will test how progressive resistance training will impact outcomes of sarcopenia in older patients with type 2 diabetes who have been diagnosed as sarcopenia. The intervention will be 12 weeks in duration with approximately 24 sessions of resistance exercises. Outcome measures will be collected at baseline, 4, 8 weeks and 12 weeks.
The investigators hypothesize that Ketosteril can improve sarcopenia in patients with renal disease without increasing the burden on the kidneys and causing deterioration of renal function. Therefore, this study intends to take patients with CKD stage 3-4 and sarcopenia as the research object, give Ketosteril intervention or not to patients on the base of low-protein diet, and clarify the clinical benefits of Ketosteril prescription for improving sarcopenia in patients with CKD.
1. To explore the diagnostic value of musculoskeletal cross-modal imaging assessment system of ultrasound combined with abdominal CT/MRI for sarcopenia in patients with lung cancer. 2. To explore the value of musculoskeletal cross-modal imaging assessment system of ultrasound combined with abdominal CT/MRI in evaluating the prognosis and the effect of nutritional support in patients with lung cancer during perioperative period. 3. To explore the value of musculoskeletal cross-modal imaging assessment system of ultrasound combined with abdominal CT/MRI in evaluating the long-term prognosis of patients with lung cancer.