View clinical trials related to Sarcopenia.
Filter by:The primary research question: In critically ill patients with nutrition 'risk factors', what is the effect of providing combined EN/PN to the group prescribed a higher dose (≥2.2 grams/kg/day) of protein/amino acid administration compared to a low group prescribed ≤1.2 gram/kg/day (EN only) on patient's functional recovery as measured by 6-minute walk distance just prior to hospital discharge? The hypothesis: Compared to a control group reflective of usual care prescribing practices and an EN only approach, the administration of a higher dose protein/amino acids using EN and PN to nutritionally high-risk critically ill patients will be associated with improved functional outcome.
Sarcopenia is a loss of muscle mass and function that develops during aging. But sarcopenia is also observed in several other conditions: chronic diseases, cancers, viral infections, renal / respiratory insufficiency, immobility, obesity with low physical activity. This sarcopenia is named secondary sarcopenia to distinguish it from the age-associated primary sarcopenia. During prolonged hospitalizations in intensive care, a significant loss of muscular mass and function is also observed. This acute sarcopenia or Intensive Care Unit-Acquired Weakness (ICU-AW) may persist for several months after discharge from hospital. In addition to the loss of autonomy, the reduction of muscle mass has important metabolic implications, ranging from insulin resistance to modification of myokines production. Sarcopenia greatly increases the morbidity and mortality of patients regardless of its cause. The aim of our project is to identify the molecular mechanisms implicated in sarcopenia from different origin. We will particularly focus our work on the metabolic properties, the proliferation/ differentiation and regeneration capacities of the satellite cells (adult muscle stem cells). These satellite cells will be purified from quadriceps biopsies of human volunteers recruited at CHU Montpellier. These satellite cells will also be used to test the ability of some wild aromatic plants from south of France to improve cell survival and differentiation. This will allow us to identify the molecular mechanisms involved in sarcopenia development and identify potential therapeutic molecules.
This study will examine the association between low muscle mass (myopenia) at diagnosis and chemotherapy toxicity in older adults with newly diagnosed advanced colorectal cancer.
- Study Population- Patient with cirrhosis with any aetiology with sarcopenia visiting ILBS OPD/IPDs who are willing to visit ILBS gymnasium twice weekly for first month. - Study Design- A Prospective Randomized Controlled Trial - Study Period- Study will be conducted at ILBS from April 2019 to Oct 2019 - Sample Size:As shown by Eva Roman et al - in cirhotics with sarcopenia exercise increases mean lean appendicular mass , by 0.38 kg (14 patients, p < 0.03), and Sinclair et al has shown testosterone (22 patients, p <0.05)) to increase mean Appendicular lean mass by +1.69 kg - for 10% increase in APLM - we need to enroll 40 patients in each arm, and considering a los to follow up approx.10% , will require minimum 44 patients in each arm - We will therefore enroll and randomize 100 patients with 50 in each arm. Intervention - Testosterone Supplementation - Intramuscular Testosterone Undecanoate 1000 Mg (4 ml volume in oily base) will be injected into the upper, outer quadrant of the buttock at 0, 6, 12,16,20, 24 weeks according to manufacturer recommendations. Monitoring and assessment - On every visit patient will be inquired or evaluated for side effects like local site pain or hematoma , hypertension, headache, allergic reactions, acne, nausea , mood swings, pedal edema , breast enlargement and others.
The loss of muscle mass is one of the major diagnostic criteria for sarcopenia. Many methods are also used for the definition of sarcopenia. However there is no information about cut-off values in this respect in the literature. Therefore, the aim of this study is to determine the cut-off values of this ratio for confirming the diagnosis of sarcopenia.
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.
Using abdominal computed tomography (CT) imaging, the investigators will estimate total body muscle mass at two time points in Intensive Care Unit (ICU) by assessing cross-sectional muscle areas at the L3 vertebral body level. This allows for a determination of the rate of sarcopenia development in the ICU. With this information, the investigators propose to test if the rates of the development of sarcopenia differ in critically ill subjects with sepsis compared to a reference group of critically ill subjects with trauma (without sepsis).
This study evaluates the effect of three different exercise strategies on physical function in older adults. Participants will be randomly assigned to one of three exercise groups: resistance training, moderate-intensity continuous cycling on a stationary bicycle, and high-intensity interval training on a stationary bicycle.
Sarcopaenia is associated with poor prognoses of in-hospital mortality in splenic abscess patients. Investigators recommend its use by surgeons in the ED to rapidly risk stratify and identify patients requiring urgent and aggressive intervention, to maximise patient outcomes and survival chances.
Frailty is the term commonly utilized to describe the geriatric syndrome that exposes the elderly to increased risk of negative health-related events. The frailty phenotypes (PF: physical or CF: cognitive) have demonstrated to predict the major negative health-related outcomes in the old population and show extensive similarities with sarcopenia (for PF) or dementia (for CF). However, the role of neurophysiological and biological factors contributing to the physical and cognitive frail condition, and in particular in which way mitochondrial dysfunction, as well as the hypertrophic and atrophic pathways assessed by genes expression, metabolomics and microbiota composition are contributing to these frail conditions, are still under debate. Therefore, the aim of this trial will be to make evidence based on the behaviors and the strategies that promote healthy lifestyle and successful human aging.