View clinical trials related to Malnutrition.
Filter by:Frail2Fit will explore the feasibility of training volunteers to deliver online nutrition, exercise, and behaviour change (supported self-management) to improve the health of older people after discharge from hospital. The study also aims to explore if the supported self-management is acceptable to older people, their family members and/or carers, and the volunteers. Between 30-60% of older people in hospital lose muscle strength and function (deconditioning) and around 14% of older adults in hospital are frail. Reduced muscle function and frailty increase risk of poor health outcomes, including reduced quality of life, increased risk of hospital readmission and increased risk of mortality. Therefore, intervening to prevent functional decline is a high-priority patient-centred outcome. Current evidence suggest that physical activity (PA) and nutrition interventions are key to maintaining independence and improving frailty status. In response to the COVID-19 restrictions, healthcare and rehabilitation have increasingly turned to virtual modes of delivery, such as telehealth methods. The increasing use of technology in the daily lives of many allows PA and nutrition interventions to be delivered online. For instance, the investigators have developed and evaluated a programme using online clinics to successfully support over 600 cancer patients living at home to stay active and eat well with provision of emotional support (SafeFit study). With many older people now using the internet for social connection, the team have an opportunity to investigate whether a similar model can improve the health of older people. This study aims to explore the feasibility and acceptability of implementing volunteer-led online exercise and nutrition support to frail older people discharged from hospital. The investigators aim to develop and evaluate a training programme for volunteers, determine the acceptability of the intervention through qualitative methods and identify facilitators and barriers to its implementation. The investigators will also explore the impact of the intervention on health outcomes for older people to inform future trial.
The purpose of this study is to determine whether multimodal nutrition therapy (primary nutrition intervention + adjuvant nutrition therapy) will support patients to optimize their total caloric intake during cancer treatment by measuring the difference in mean cumulative energy intake between the intervention and control group over the duration of cancer treatment.
The purpose of this study is to evaluate the single-dose pharmacokinetic (PK) and bioequivalence of Darunavir (DRV) in the presence of Cobicistat (COBI) when administered as a DRV/COBI fixed dose combination (FDC) tablet dispersed in water compared to the co-administration of the separate available formulations (DRV suspension and COBI tablet) under fed conditions in healthy participants.
Whilst there is an increasing prevalence of overweight and obesity worldwide, malnutrition remains common. In addition, malnutrition, overweight, and infections often interact. The consequences of malnutrition after birth are little studied. Severe acute malnutrition in childhood remains common in Africa and Asia and many adult patients with tuberculosis or HIV, diseases which are common in Africa and Asia, may become malnourished. We are interested in diabetes, which in Africa and Asia affects people at younger age and lower weight than in Europe. There is evidence that severe postnatal malnutrition increases the risk of later diabetes but the evidence is piecemeal and there is little information as to the mechanisms involved. It is thus difficult to determine what treatments or preventative strategies are appropriate. We wish to focus on the pancreas which is a key organ in digestion and metabolic processes, especially in relation to diabetes. We will investigate pancreas size, microscopic structure, hormone and digestive enzyme production, and the body's response to these hormones among groups of people in Tanzania, Zambia, India and the Philippines. These groups have participated in the research team's previous studies of malnutrition and were malnourished before birth, as children, or as adults. They now live in places with a wide range of access to foods high in fat and sugar which could affect their risk of diabetes. We will compare their pancreas function to that of never-malnourished controls at each site. We will use advanced statistical methods to understand the links between early malnutrition and later diabetes, taking into account the factors often associated with diabetes such as age, current overweight and infection. Even if we find no important link between early malnutrition and later diabetes, the research will lead to improved understanding of the long-term consequences of malnutrition and the presentation and underlying metabolism of diabetes in Africa and Asia. Thus, the project will lead to improved health care for both malnourished and diabetic people.
A Study to Evaluate the Pharmacokinetic Profiles and Safety of CKD-393(2) in Healthy Volunteers Under Fed Conditions
We hypothesize that the antioxidant and cytoprotective functions of vitamin E combined with the cortisol-lowering effect of chocolate polyphenols and physical activity may help prevent the age-dependent decline of mitochondrial function and nutrient metabolism in skeletal muscle, key underpinning events in protein-energy malnutrition (PEM) and muscle wasting in the elderly. To test this hypothesis, a vitamin E functionalized dark chocolate rich in polyphenols will be developed with the collaboration of Nestlè Company, and its effects will be investigated combined with physical activity in a 6-month randomized case-control trial on pre-dementia elderly patients, a well-defined population of subjects at risk of undernutrition and frailty. Subjects stabilized on a protein-rich diet (0.9-1.0 g protein/Kg ideal body weight/day) and physical exercise program (High Intensity Interval Training specifically developed for these subjects), will be randomized in 3 groups (n = 34 each): controls (Group A) will maintain the baseline diet and cases will receive either 30 g/day of dark chocolate containing 500 mg total polyphenols (corresponding to 60 mg epicatechin) and 100 mg vitamin E (as RRR-alpha-tocopherol) (Group B) or the high polyphenol chocolate without additional vitamin E (Group C). Diet will be isocaloric and with the same intake of polyphenols and vitamin E in the 3 groups. Muscle mass will be the primary endpoint and other clinical endpoints will include neurocognitive status and previously identified biomolecular indices of frailty in pre-dementia patients. Muscle biopsies will be collected to assess myocyte contraction and mitochondrial metabolism. Laboratory endpoints will include the nutritional compliance to the proposed intervention (blood polyphenols and vitamin E status and metabolism), 24-h salivary cortisol, steroid hormones and IGF-1, and molecular indices of inflammation, oxidant stress, cell death and autophagy. These parameters will be investigated in muscle and blood cells by state-of-the-art omics techniques. Molecular and nutritional findings will also be confirmed in vitro using skeletal myotubes, blood leukocytes and neural cell lines. Clinical and laboratory results will be processed by a dedicated bioinformatics platform (developed with the external collaboration of the omics company Molecular Horizon Srl) to interpret the molecular response to the nutritional intervention and to personalize its application.
To evaluate and compare the relative bioavailability and therefore the bioequivalence of fixed dose combination of Metformin and Vildagliptin Tablets 850/50 mg manufactured by Oman Pharmaceuticals Products Co. LLC, Sultanate of Oman, with EUCREAS® 50/850mg tablets manufactured by Novartis Pharma GmbH, Germany, in Normal, Healthy, Adult, Male Human Subjects under Fed Conditions.
To evaluate and compare the relative bioavailability and therefore the bioequivalence of fixed dose combination of Metformin and Vildagliptin Tablets 1000/50 mg manufactured by Oman Pharmaceuticals Products Co. LLC, Sultanate of Oman, with EUCREAS® 50/1000 mg tablets manufactured by Novartis Pharma GmbH, Germany, in Normal, Healthy, Adult, Male Human Subjects under Fed Conditions.
The objective of this study is to investigate the feasibility of a combined nutritional and home-based exercise intervention in elderly, malnourished, frail patients after hospital discharge. Adherence to exercise program, adherence to oral nutrition supplement, potential inhibiting factors to follow exercise program, changes in nutritional status, muscle mass and function, quality of life are outcome factors. The intervention consists of 12 weeks with a physical exercise program (vivifrail) and oral nutritional supplementation (Moltein Plus). The investigators hypothesize that 12 weeks of a combined nutritional and home-based multicomponent exercise program is feasible for frail elderly patients after hospital discharge, meaning that ≥70% of the exercise sessions will be completed and oral supplements will be consumed by the participants.
Aging is associated with an increased inflammation named "inflammageing" and with an altered immune response. Different mechanisms have been proposed to explain the phenomenon of inflammageing and increased oxidative stress: deficiencies in essential amino acids, and some micronutrients have an important impact and may induce immune cell dysregulation. Mitochondrial dysfunction may explain the complex relationship between malnutrition sarcopenia, immune dysfunction and aging. Therefore, a personalized nutritional strategy aiming to improve mitochondrial function, decrease oxidative stress, down-regulate inflammation and restore immunity appears to be a logical approach in order to treat malnutrition and its biological and clinical consequences. MIMOSA will investigate the role of nutritional supplements in rescuing altered mitochondrial function and redox state imbalance.