View clinical trials related to Aging.
Filter by:Muscle and strength begin to noticeably decline around 50 years of age, increasing an individual's risk for disease and disability. Although changes in muscle mass ultimately depend on the balance of muscle protein synthesis (MPS) and breakdown (MPB) of muscle proteins, the latter remains relatively constant with aging. Accordingly, interventions that increase rates of MPS may combat long-term decrements in skeletal muscle mass and function. Previous research has established that an optimal diet to maintain muscle mass in elderly individuals requires relatively large amounts of high-quality protein to be consumed at each meal of the day. While this is a seemingly simple strategy, there are some barriers to increasing protein feeding in elderly individuals, particularly the cost of high-quality protein and, sometimes, difficulty with chewing/swallowing. Moreover, older adults often do not wish to consume large portions of protein in one meal. Milk is a readily accessible, affordable and nutritious source of nutrient-dense high-quality protein. Consuming milk with each meal is an easy strategy to promote the maintenance of skeletal muscle mass with aging. There is also evidence suggesting that a higher fat content of milk can have a beneficial role in stimulating the MPS response to feeding, but there are insufficient data to recommend this strategy to elderly individuals. The primary aim is to measure the rates of MPS in response to controlled diets providing whole milk, fat-free milk, or a control supplement (almond beverage - often marketed as an 'alternative' to milk) with each meal. All diets will provide equal amounts of energy, but the dairy interventions will provide more protein, reflecting the amount of protein provided by each beverage. The investigators hypothesize that rates of MPS will be highest in the whole milk group but that fat-free milk will still elicit a greater MPS than almond beverage. The investigators will conduct the comparison of beverages under habitual physical activity levels and under a brief period of increased physical activity (i.e., increased daily steps). Thus, the investigators will be able to determine whether MPS responses to the experimental beverages are increased in combination with physical activity. The results will provide evidence regarding the effectiveness of daily milk ingestion for the maintenance of muscle in the elderly, increasing the marketability of milk, and potentially whole milk.
This study aims to investigate if protein supplementation increases the benefits of exercise training in the elderly with sarcopenic obesity undergoing caloric restriction.
Chronic kidney disease (CKD) is associated with an increased cardiovascular mortality. In particular children with early-onset CKD have a lifelong increased risk to suffer from cardiovascular disease (CVD). Therefore, children with CKD deserve our attention. The immune system in children with CKD is disturbed, exhibiting pro-inflammatory features. Therefore, we aim to learn more about the characteristics of the immune system in early-onset CKD. In this project PBMC of pediatric CKD patients and age-matched healthy controls will be analysed and compared using CITE-Seq as a multimodal scRNAseq phenotyping method. All patients will be clinically characterized to integrate cardiovascular and immunological data.
Nursing home residents are in high risk of vitamin D deficiency, which negatively affects bone health. Vitamin D and calcium supplements have shown to increase bone density and reduce fracture risk and may affect daily physical functioning. Therefore, The Danish Health Authority recommends all nursing home residents a daily supplement of 20 µg vitamin D and 800-1000 mg calcium. However, adherence to the recommendation is low. The present project hypothesizes that this low adherence results in a high number of residents with a deficient or insufficient vitamin D status, and that daily physical functioning can be improved or maintained by an improved adherence to the recommendation.
PURPOSE: The purpose of the study is to determine the effects of 12-weeks of exercise training on physical reserve, as measured by aerobic capacity, strength and physical function, in patients with CLL. Further, it is our aim to assess relationships with changes in physical reserve and resilience to the patient's cancer, as measured by immune cell counts, tumor cell killing and antibacterial functions. DESIGN: Subjects will have confirmed treatment naïve CLL. Subjects will be assigned to either a 12-week control (no supervised exercise) or an intervention (HIIT) group. Before and after the 12 week program subjects will undergo several tests including: 1) a maximal treadmill test, 2) body composition, 3) muscle strength and endurance, 4) physical activity levels, 5) blood measures (e.g. immune and inflammatory functions). Subjects in the HIIT group will complete a 12-week supervised exercise training program consisting of HIIT and strength training. DATA ANALYSES & SAFETY ISSUES: This is a pilot study, with the goal of assessing whether exercise training causes a change in aerobic fitness (VO2peak), muscle function, and immunological measures. Vo2peak will be measured by a cardiopulmonary exercise test, muscle function will be measured by strength tests, and immunological functions will be measured from blood samples. For outcomes, group change differences from baseline to 12-weeks will be compared by ANCOVA. The data will be used to provide power calculations for future grant proposals. High Intensity Interval Training is a very safe exercise modality. The regular use of vigorous intensity exercise intervals have been used extensively in exercise training. In fact, the exercise intervals will start at levels lower and will be of shorter duration than were used during the maximal exercise test. They will then be carefully and slowly made to be more challenging as each subject is able to safely tolerate. HYPOTHESIS: The investigators hypothesize that HIIT will be a feasible exercise intervention for people with CLL and will result in improvements in markers of health and fitness.
Altered circulating microRNA (miRNA) after physical activity reflects exercise effects on muscle performance and cardiorespiratory fitness. The present work was designed to highlight associations between exercise-induced physical fitness miRNAs in community-indwelling elderly adults. Baseline clinical information was assessed for community-indwelling individuals, long-term followed by our community medicine research center, aged >=55 years near our hospital. Among them, participants were randomly assigned to the supervised exercise training (SET) and home exercise training (HET) groups. All included subjects were instructed to walk>=8000 steps per day (stp/d), which was recorded by wrist-worm smart watches. SET Participants underwent 24 sessions of moderate-intensity exercise training (MICT) at 70% maximum predicted heart rate for 30 min in each session. HET participants underwent walking activities as the above instruction. Movement analysis and body composition measurements were used to assess physical fitness at baseline and 8 as well as 24 weeks after recruitment. MiRNAs (miR-21, miR-126, miR-146a, and miR-222) were also examined at the above time point. SET participants took significantly more steps per day and had greater chance to walk>=8000 stp/d in the community compared to the SET participants during follow-up. Prominent beneficial effects on physical fitness, including cardiorespiratory fitness, flexibility, lower extremity muscle strength, and body composition, were noticed during and 16 weeks after stopping SET. Increased miR146a and miR-126 expressions reflecting increased anti-inflammatory response and enhanced angiogenesis, respectively after 8 weeks of SET. However, inhibited skeletal as well as cardiac muscle catabolism respectively reflecting in the increased miR-21 and miR-222 were also identified in the present work. These observations may clarify short-term SET effects on lifestyle in community inhabitants and how sensitive of miRNAs to exercise-induced physiological adaptations.
This single-blinded, randomized, controlled trial includes 60 healthy adults. The participants were randomized to four different groups. The first group performed over-ground walking without GEMS-H, the second group performed over-ground walking with GEMS-H applied resistance mode, the third group performed stair ascent with GEMS-H applied assist mode, and the fourth group were designated as the group that performed inclined gait with GEMS-H applied assist mode on a treadmill. Each group is divided in 15 participants.
The number of age-related chronic diseases (like obesity, type 2 diabetes and cardiovascular diseases) is increasing rapidly worldwide, reaching pandemic proportions. These age-related chronic diseases are associated with metabolic disturbances and mitochondrial dysfunction in humans. Nicotinamide adenosine dinucleotide (NAD) levels play an important role in energy metabolism and mitochondrial functioning and indeed it has been shown that high concentrations of NAD+ as well as a high NAD+/NADH ratio are strongly associated with metabolic and mitochondrial health. In contrast, decreased NAD+ bioavailability is reported in both ageing and obese humans as well as in diabetic mice. These findings fueled the idea of influencing NAD+ bioavailability in order to improve metabolic disturbances and mitochondrial dysfunction in humans. Supplementation with nicotinamide riboside (NR), a naturally occurring form of vitamin B3, may provide a way to boost cellular NAD+ levels. However, in contrast to animal studies, NR supplementation in humans has so far been unsuccessful in improving skeletal muscle mitochondrial function, exercise capacity or insulin sensitivity. Recently, it has been suggested that a situation where NAD+ levels become limited, is needed for NR supplementation to exert beneficial health effects. This situation could be achieved by combining exercise and NR supplementation. However, studies combining NR and exercise are lacking, which is why we would like to perform such a study here.
The goal of this study is to test the feasibility of launching a personalized digital health assessment and remediation program for the older adults in senior living communities based upon an initial characterization of these abilities. Evidence of feasibility here using these unique methodological approaches would provide empirical evidence supporting the basis for a larger-scale implementation of such digital health technologies into less controlled senior settings.
The purpose of this study is to design a companion booklet and pilot test it with a voice-controlled intelligent personal assistants (VIPA), like Google Home or Amazon Alexa, to provide homebound older adult patients with skills and tools to help manage social isolation.