View clinical trials related to Sarcopenia.
Filter by:Sarcopenia is a pathophysiological process associated with aging and some metabolic conditions characterized by progressive muscle tissue loss, which may lead to loss of strangth and performance and increase risk of falls and fractures, physical disability and premature death. Therefore, it is necessary to identify personalized programs of physical activity and supplementation for elderly population in order to improve their physical functions, muscle strengh and body composition. With the present project we aime to assess the effect of a feasible home-based exercise program coupled with food supplementation to improve muscle strength, muscle volume and muscle physical performance potentially associated with sarcopenia in elderly people.
Muscle is lost as part of the rectal cancer disease process. Surgery to treat rectal cancer and its subsequent immobility leads to increased muscle loss. Neuromuscular electrical stimulation (NMES) has been shown in previous studies in the critically ill to maintain muscle mass. The investigators aim to examine whether NMES use in the pre and postoperative setting preserves muscle mass, speeds up recovery and improves outcomes in advanced rectal cancer patients undergoing curative surgery. This is a phase II double blind randomised controlled clinical trial.
The objective is to evaluate if the immune risk phenotype (IRP) in patients who have been admitted for pneumonia predisposes to worse long-term outcomes. In addition, the association between the detected immunological alterations and clinical, functional, nutritional or comorbidity risk factors will be evaluated. If the hypothesis is confirmed, helpful immunological markers will be identified. This will be useful in clinical practice to identify patients who can benefit from an intervention and / or to identify the best time for vaccination. Otherwise, valuable information will be obtained on the interrelation between immunological, clinical, functional and nutritional aspects.
Aging is associated with a loss of muscle mass, termed sarcopenia, that reduces mobility, decreases physical function and accelerates progression of other age-related disorders. This study is designed to determine whether increasing skeletal muscle capillarization through aerobic exercise will enhance muscular adaptations to strength training in older adults with sarcopenia.
Prostate cancer (PCa) is the most common cancer among men and is even more common in the military and veteran population. For patients with advanced prostate cancer, the most common treatment includes lowering the levels of the hormone testosterone as much as possible. This is called "androgen deprivation therapy" or "ADT". Unfortunately, ADT also causes patients to be fatigued, weak and to loose muscle. This is often referred to as "sarcopenia" and it leads to falls, poor quality of life and higher risk of death. Currently, there is no treatment for sarcopenia because the investigators do not understand the mechanisms that cause it. The mitochondria is the part of the cells responsible for providing energy to muscles but to this date the investigators do not know if it is affected in prostate cancer patients with sarcopenia due to ADT. The overall goal of this proposal is to establish if the mitochondria is responsible for sarcopenia in patients with prostate cancer receiving ADT. The investigators will measure mitochondrial function, muscle mass and strength, and feelings of fatigue and quality of life in patients with prostate cancer before starting and after 6 months of ADT.
This study will examine the influence of n3 PUFA supplementation on the rate of muscle atrophy in older women undergoing 1 week of unilateral limb immobilization. Assessments in skeletal muscle strength and skeletal muscle volume will also me made before, after and in recovery from immobilization.
This study is looking at whether older people could benefit from an online monitoring platform to support their individual ambitions to maintain or improve functional ability. It is hypothesized this will enable the individual to monitor themselves periodically, obtain feedback about their functional ability, receive recommended diet, exercise and physical activity interventions and record the adherence to any intervention. All information can be linked back to the health care professional for official support and intervene when a decline is noticed, in order to prevent frailty from developing. The aim of this study is to find out if providing more support and greater empowerment can help older people improve their functional ability by self-monitoring and personalised interventions.
The purpose of this study is to evaluate the changes of muscle, in microgravity. Which will help explain the health benefits of exercise. There are tests that can be done to tell researchers more about the human body, such as a dual energy x-ray absorptiometry (DEXA) scan, which measures body composition (fat and lean body mass). The use of muscle testing and a Handgrip test can tell us about the strength and power within an individual's muscles. A VO2 max test helps us understand the aerobic fitness level of an individual and one of the most important aspects of this study are muscle cells. A muscle biopsy allows us to obtain muscle cells from the thigh, which will be sent into space by a rocket. Researchers will study these muscle cells in a low gravity environment aboard the International Space Station. Studying the muscle cells under those conditions will potentially mimic an accelerated aging process, which will help researchers better understand muscle wasting in the elderly.
The objective of this study is to assess the feasibility and effectiveness of dedicated ambulator-assisted physical activity in lung transplant inpatients. The primary hypothesis is that an ambulator-assisted intervention for lung transplant patients will prove feasible and may result in improved frailty, hospital outcomes, including less need for inpatient rehabilitation and shorter length of stay in the hospital.
Sarcopenia is defined as loss of skeletal muscle mass. In cirrhosis, due to impaired urea genesis and decreased hepatic ammonia disposal, the skeletal muscle functions as a metabolic partner for the liver. The proportion of patients with sarcopenia is higher in those with alcoholic liver cirrhosis (80%) compared to cirrhosis due to other etiologies (31%-71%). Sarcopenia is prevalent in > 50% patients with Child C cirrhosis. Sarcopenia increases the risk for severe infections in patients with cirrhosis. Adequate amino acid supply is needed for appropriate antibody and cytokine responses, that is impaired when skeletal muscle mass. The sepsis-related mortality rates in patients with and without sarcopenia are 22% and 8%, respectively (P = 0.02). In patients with liver cirrhosis is protein-calorie malnutrition, leading to severe consequences to the general state and clinical evolution of the patient.