View clinical trials related to Sarcopenia.
Filter by:Age-associated loss of muscle mass, termed sarcopenia, is strongly associated with functional impairment and physical disability in the elderly. Maintenance or growth of muscle mass is mainly driven by increased muscle protein synthesis (i.e. the generation of new muscle protein) in response to exercise and feeding. However, several investigations have shown that elderly individuals have a blunted protein synthetic response following protein intake. This inability of the elderly to properly respond to growth stimuli has been termed anabolic resistance and plays a significant role in the development of sarcopenia. However, the precise mechanisms underpinning anabolic resistance are unknown. It is well established that muscle protein synthesis at the molecular level is regulated by a cellular protein complex called mTORC1. When exposed to a growth stimulus, mTORC1 has been shown to associate with lysosomes, i.e. the intracellular organelles responsible for the breakdown of cellular proteins, and subsequently moving towards the cell periphery. This movement of lysosome-associated mTORC1 within the cell is believed to be vital for the activation of protein synthesis, as inhibition of lysosomal movement blunts mTORC1 activation in response to amino acids. Thus, dysregulation of lysosomal movement in ageing muscle may represent an underlying mechanism in the development of anabolic resistance. However, this area of research is unexplored in the context of human skeletal muscle. The investigators hypothesize that dysregulation of lysosomal movement plays a central role in the development of age-associated skeletal muscle anabolic resistance.
This study evaluates the effect of different types of diets (high and normal protein) on lean and fat mass, and strength in postmenopausal women practitioners of resistance exercise. Two groups will be created: high protein (1.2 protein g/body mass/day) and normal protein (0.8 protein g/body mass/day). The same training will be performed for both groups.
The SARA-OBS is a single arm phase 2 clinical trial, with no investigational product and no therapeutic intervention that will be conducted in three European countries, (Belgium, France and Italy), and in the US. 300 community dwelling older adults (men or women≥65 years) reporting loss of physical function and at risk of mobility disability, will undergo mobility functional evaluation and Dual-energy X-ray Absorptiometry DXA scan for body composition determination twice, at six-month interval. Participants aged ≥ 65 years complaining of poor physical function will be selected to perform SPPB (Short Physical Performance Battery)tests. Those with SPPB scores ≤ 8/12 will be selected to perform body composition analysis with DXA Scan. Participants with ALM/BMI < 0.789 in men and 0.512 in women will be included. The investigational phase will comprise two main visits: the inclusion visit and the 6-month visit. Both the 6-minute walk distance test and the 400-metre walking test will be administered at the main visits. Patient Reported Outcomes (PROs) will be completed by the patients at the same visits.
Rationale: There is increasing evidence that obesity may be a risk factor for frailty in the elderly. Obesity favors a state of chronic inflammation and insulin resistance, involves a fatty infiltration of the muscle and an increased cardiovascular risk and, in addition, obese people usually perform less physical activity. All this favors the loss of mass and muscular function (sarcopenia), a key component of the fragility and the functional deterioration. Objectives: To evaluate the effectiveness of a multimodal intervention to lose weight in the prevention of frailty in obese elderly people, as well as to know the main mechanisms involved in the frailty process. Methodology: Design: Controlled, randomized, open-label clinical trial with two parallel intervention arms and 2 years follow-up. Study population: People between 65 and 75 years of age, obese (BMI ≥30), without criteria of fragility and living in the community. Study intervention: multimodal and personalized intervention with the support of a "personal trainer" that has two main axes of action: a) diet: assessment of nutritional status and nutritional requirements and establishment of personalized nutritional plan with monthly dietetic controls and b) physical exercise: a multi-component physical exercise program that will include aerobic exercise and strengthening, balance and flexibility exercises as well as a weekly group session of health education, during six months. Main outcome measures (to be evaluated annually for 2 years): Fragility (according to the L Fried criteria) and Sarcopenia (according to the criteria of the European Working Group on Sarcopenia in Older People -EWGSOP). Sarcopenia is considered if there is a decrease in gait velocity or muscle grip strength (measured with a dynamometer) and a decrease in muscle mass assessed by bioimpedance (BIA). Intermediate outcome measures (at 6, 12 and 24 months): a) weight loss, b) changes in body composition and distribution of body fat, c) glycemic control (HbA1) and insulin resistance (by HOMA index (HOmeostasis Model Assessment)), d) cardiovascular risk according to the REGICOR algorithm, e) functional capacity (according to Barthel Index and 2 Minute Walking Test), f) inflammatory markers (IL-6, CRP(C reactive protein), TNF(Tumor Necrosis Factor)-alpha and leptin) and g) anabolic hormones (IGF-1, ghrelin and testosterone).
The goal of this cross-sectional study is to evaluate the difference in cytokine profiling approach and mitochondrial function between geriatric sarcopenic patients (group 1) and geriatric non-sarcopenic patients (group 2) and healthy (group 3) geriatric participants.
The purpose of this study is to determine the prevalence of malnutrition and/or sarcopenia at admission to the hospital in older adults.
Lung cancer (LC) is usually diagnosed in advanced stages and continues to be the leading cause of cancer related deaths worldwide. Cancer cachexia are frequent among patients with LC affecting up to 80% of patients with advanced stage disease, and it has been related with higher risk of complications, length of hospital stay, and worst overall survival. During cancer cachexia, both muscle and fat mass can be wasted, however, the loss of muscle mass has been associated to higher treatment related toxicity, loss of functional status, shorter progression free survival and overall survival in different types of cancer under various treatments. Hence, preservation of muscle mass and function should be an important focus of the multidisciplinary treatment of patients with LC. Pulmonary rehabilitation (PR) has been known to improve pulmonary function, reduce fatigue and improve exercise tolerance in patients with LC undergoing curative surgery. However, few studies have focused on the efficacy of PR on patients with advanced cancer undergoing palliative care with chemotherapy or targeted therapies.
The primary objective of this study was to validate Total Psoas Area (TPA) measurement as an independent prognostic factor of overall survival in patients with pancreatic adenocarcinoma. Secondary objective was to describe the evolution of the TPA during the follow-up.
To develop an intervention specifically targeted for these clients who have the frailty syndrome. The Investigators propose to develop an exercise intervention that can reduce frailty in older adults to facilitate their ability to age-in-place. The long-term objective of this work is to develop a package of interventions that can be administered within the existing Medicaid Home and Community Based Services (HCBS) Waiver programs. The specific goal of this proposal is to develop a resistance exercise intervention to reduce frailty in older adults receiving long term care services in their home through the Illinois Community Care Program, a HCBS Waiver Program.
This study is a randomized controlled double-blinded multi-center clinical trial enrolling female hip fracture patients who are 65 and older. It will compare the effects of six months of supervised exercise training combined with daily topical testosterone gel, to six months of supervised exercise and inactive gel, and to Enhanced Usual Care. Out of nine participants, 4 will receive topical testosterone gel and a supervised exercise training program; 4 will receive topical inactive gel and a supervised exercise training program; and 1 will receive a home exercise program. All participants will receive nutritional counseling, and calcium and vitamin D supplements.