View clinical trials related to Cachexia.
Filter by:The goal of this observational study is to to look for changes within the brain, and changes in body-to-brain signals in people with cancer and people who do not have cancer. The main questions it aims to answer are: 1. Are there differences in areas of the brain known to be related to appetite control, food reward and motivation, between participants with cancer related weight loss and healthy volunteers 2. Do responses to questionnaires and computer based tasks suggest participants with cancer related weight loss have reduced appetite and reduced motivation to eat compared to healthy volunteers, and if so, do questionnaires suggest that this is associated with any other symptoms? Researchers will compare the structure and blood flow in relevant areas of the brain using MRI images between participants with cancer related weight loss and healthy volunteers. Participants will complete questionnaires and computer based tasks to allow researchers to assess areas of the brain which become more active in response to different stimuli. Some computer based tasks will be performed during the MRI scan. This is called functional MRI. A further objective is to obtain an archive of blood samples which will be stored securely for future analysis if relevant hormones or analytes are identified that may be relevant to metabolism or body composition
The goal of this clinical trial is to compare the quality of mesoangioblasts isolated from various patient groups suffering from muscle atrophy. This study includes cancer cachexia and muscle-impaired elderly and a control group of the same age. The quality will be defined on these following outcomes: - The number and distribution of the mesoangioblasts in a muscle biopsy to define if there are sufficient mesoangioblasts to start a culture. - The proliferation capacity to define if we can culture them the numbers required for systemic treatment. - The myogenic capacity to define if the mesoangioblasts are sufficiently capable to generate muscle fibres. Participants will: - Undergo a muscle biopsy (needle biopsy or rest material from surgery, ~50mg) - Donate blood (~20 ml) - Fill in SARC-F questionnaire (evaluate sarcopenia score) - Fill in SQUASH questionnaire (evaluate physical activity of previous week) Researchers will compare groups (muscle-impaired elderly vs control; cancer cachexia vs control) to see if there is a difference regarding quality. These results will define the potential of autologous mesoangioblast therapy within these groups.
This study evaluates cancer-related weight and muscle mass loss, symptoms, and physical function (cachexia) in patients undergoing treatment for colorectal, lung, or pancreatic cancer that cannot be removed by surgery (unresectable). Patients with these cancer types are at risk for developing cancer cachexia (CC), which is defined as weight loss, muscle loss, and fat loss due to cancer. CC has been associated with reduced physical performance, impaired quality of life, and poorer survival. Many studies that have evaluated treatments for cancer-related weight and muscle loss have aimed to treat all patients with weight loss exactly the same and, unfortunately, have not been successful. Like different cancer types, weight and muscle loss related to cancer may have different causes in different individuals and the best treatment strategy for this condition may not be a one-size-fits-all approach. Information gathered from this study may help researchers develop new diagnostic criteria for CC and design better treatments and clinical trials for cancer-related weight and muscle loss in the future to improve the quality of life in patients with advanced colorectal, lung, or pancreatic cancer.
The aim of this early phase two-part study was to compare the bioavailability (BA) pharmacokinetics (PK) and pharmacodynamics (PD) of racemic pindolol with the benzoate salt of the S-enantiomer of pindolol (ACM-001.1) and provide safety information. A total of 51 healthy male and female subjects were enrolled, and 48 healthy subjects completed the study. Part 1 consisted of two Groups to compare BA and PK, Group 1 received two treatment sequences of a single dose of ACM-001.1 versus racemic pindolol; Group 2 ran in parallel with Group 1 and assessed the PK of a single dose of racemic pindolol in a single period. Part 2 consisted of four groups, to evaluate the steady state PK and PD of ACM-001.1 with multiple ascending doses over 4 days.
The aim of the study is to evaluate the impact of Benazir Nashonuma Program (BNP) on prevalence of stunting among under-five children in low income setting of Pakistan. The research question that the study aims to answer is: Is there any change in the prevalence of stunting among under-five children in districts where Benazir Nashonuma Program (BNP) is established compared to districts where BNP is not established? Districts where BNP is functional, and women and children are receiving the intervention will be compared at baseline and end line with control districts where conventional reproductive care services are given. Prevalence of stunting among under-five children will be compared along with other nutritional and growth status indicators over a period of 4 years.
Cachexia is a syndrome frequently associated with digestive cancers and more particularly with esophageal and gastroesophageal adenocarcinoma. Its pathophysiology remains poorly understood, multi-factorial, but strongly correlated to the prognosis of patients. It's a consequence of the imbalance of energy balance linked to tumoral process, to dysphagia and to anorexia, frequently present in these cancers. At the center of this imbalance, adipose tissue plays a major role. Recent studies showing that the mobilization of lipid substrates and the hypermetabolism of adipocytes are involving in its development, even before loss of muscle. As part of the management, neoadjuvant chemotherapy is usually administered with the main objective to reduce tumor extension and dissemination through actions on DNA and mitosis. These treatments will also alter the mitochondrial function of cells in other tissues, probably including that of adipocytes. A paradoxical effect on the cachectic process could thus be envisaged, as a decrease in mitochondrial activity and associated hypermetabolism, and therefore a preservation of fat mass, and by extension of muscle mass. Primary endpoint: identify the adipocyte factors involved in the energy imbalance associated with the cachectic process in patients managed for esophageal or gastroesophageal adenocarcinoma. Secondary endpoint: compare the results obtained before and after chemotherapy treatment according to the cachectic state and the anatomical location of the adipose sample (subcutaneous versus visceral) to evaluate the resting energy expenditure.
The goal of this clinical trial is evaluate the effect of pioglitazone compared with placebo on skeletal muscle insulin sensitivity in subjects with cancer and cachexia.
The goal of the clinical trial is to evaluate the feasibility and efficacy of physical training for elderly cancer patients at risk of cancer cachexia. The main questions it aims to answer are: - Whether a physical training program is feasible in elderly cancer patients with cachexia? - What is the efficacy of a physical training program in reducing the severity of cancer cachexia in elderly cancer patients? Participants will receive a 12-week supervised patient-tailored intensity-modulated physical training and being assessed for the severity of cancer cachexia before and after the training.
This prospective observational study aims to investigate the relationship between cancer cachexia, stress levels, and metabolic changes in 150 lung cancer patients. Cancer cachexia, characterized by weight loss and muscle wasting, significantly impacts patient outcomes. Psychological stress is thought to contribute to cachexia development. Assessments will include medical history, physical examinations, laboratory tests, and imaging. Cancer cachexia will be diagnosed based on weight loss, reduced food intake, and inflammation markers. Psychological stress will be evaluated using questionnaires and biomarkers. Metabolic changes will be assessed using positron emission tomography-computed tomography (PET-CT) scans. The primary objective is to determine differences in metabolic activity between cachectic and non-cachectic patients. Secondary objectives include evaluating changes in brain activity and exploring the relationship between stress, inflammation, and metabolism.
Rationale: One of the greatest challenges in the field of cancer treatment is cachexia, a multifactorial syndrome characterized by substantial loss of body weight (muscle and fat mass), leading to progressive functional impairment. Cancer cachexia significantly impairs quality of life and survival as well as treatment outcome. Despite its considerable relevance for the prognosis of cancer patients, the diagnosis of cachexia is problematic. The current consensus definition of cancer cachexia is based on weight loss over the last six months. In practice, this is assessed by subjective reporting by the patient, which is subject to error and bias. Novel technologies enable accurate, standardized, and objective assessment of body weight and physical activity by newly diagnosed cancer patients in the home situation. Because of the increasing implementation of neo-adjuvant treatment strategies that offer an extended time-window for the collection of these data, there is a great opportunity to use this information in risk analyses by treating physicians, optimization of pre-habilitation programs, and in the shared-decision making process with the patient. Objective: The primary objective of this study is to obtain accurate data regarding physical activity, body composition, and body weight loss over time in patients with gastric, esophageal, rectal, pancreatic, or ovarian cancer in relation to treatment outcome, adverse events (chemotoxicity and/or surgical complications), and survival. Study design: Explorative pilot study Study population: Patients between 18 and 80 years old undergoing surgical resection or neo-adjuvant chemotherapy for the treatment of gastric, esophageal, rectal, ovarian, or pancreatic cancer. Main study parameters/endpoints: Objective data acquisition on activity (three axis acceleromotion using a wrist-worn accelerometer), body weight (at home measurement with memory integrated weight scale), and body composition in relation to treatment outcome, evaluated using RECIST, adverse events, assessed via chemotoxicity and surgical complications using the Clavien-Dindo classification, and length of hospital stay in gastric, esophageal, rectal, pancreatic, and ovarian cancer patients. Secondary endpoints: To assess body weight changes and physical activity in relation to survival.