View clinical trials related to Aging Problems.
Filter by:The goal of this single-group, open-label, phase I/II clinical trial is to evaluate the safety and efficacy of the transplantation of umbilical cord mesenchymal stem cells in aging-related low-grade inflammation patients' pro-inflammatory cytokines. The main questions to answer are: - Is the transplantation of umbilical cord mesenchymal stem cells in aging-related low-grade inflammation patients safe? - Comparison of the expression levels of pro-inflammatory cytokines (IL-1α/β, TNF-α/β, IL-6, IL-11, IL-18, IFN-γ) in the patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Comparison of the expression levels of anti-inflammatory cytokines (IL-10, TGFβ, IL-1) in the patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Comparison of the inflammation balance by the ratios of pro-inflammatory cytokines to anti-inflammatory cytokines in the patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Comparison of the HbA1C index in the diabetes patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Comparision of the indices of Cholesterol, Triglyceride, LDLc, HDLc in the dislipidemia patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Comparison of the BMI in the obese patient's blood before (day 0), after 90 days, and after 180 days of cell transplantation. - Determination of adverse effect frequency in the patients before (day 0), during, after 90 days, and after 180 days of cell transplatation. Participants will receive two intravenous infusions of 100 million umbilical cord mesenchymal stem cells on days 0 and 90. The patient will be monitored for safety and measured as per the study protocol until day 180.
This project aims to address the impact of frailty on older adults, particularly its connection to cognitive impairments such as dementia. By identifying frailty in its early stages, interventions can be designed to slow down the progression of cognitive decline. To achieve this, the project plans to develop a reliable at-home monitoring system that can accurately track frailty in older adults with mild cognitive impairment or dementia. By utilizing cutting-edge technologies such as high-precision indoor positioning and home-installed sensors, referred to as zero-effort technologies (ZETs), the system will collect continuous sensor data, which will be analyzed to identify indicators of frailty.
When muscles are not contracting, the local energy demand by muscle and use of specific fuels used to produce energy by oxidative metabolism are minimal. The time people spend sitting inactive (sedentary time) typically comprises more than half of the day. This sedentary behavior is associated with elevated risk of diabetes, cardiovascular diseases, some cancers, and multiple conditions leading to poor aging. From a progressive series of experiments, the driving goal is to develop a physiological method for sustaining contractile activity via oxidative metabolism over more time than is possible by traditional exercise (hours, not minutes per day). Developing a physiological method suitable of prolonged muscular activity for ordinary people (who are often unfit) requires gaining fundamental insights about muscle biology and biomechanics. This also entails a careful appreciation of the ability to isolate specific muscles in the leg during controlled movements, such as the soleus muscle during isolated plantarflexion. This includes quantifying specific biological processes that are directly responsive to elevated skeletal muscle recruitment. The investigators will focus on movement that is safe and practical for ordinary people to do given their high amount of daily sitting time. This includes developing methods to optimally raise muscle contractile activity, in a way that is not limited by fatigue, and is feasible throughout as many minutes of the day as possible safely. This also requires development of methodologies to quantify specific muscular activity, rather than generalized body movement. There is a need to learn how much people can increase muscle metabolism by physical activity that is perceived to them as being light effort. It is important to learn if this impacts systemic metabolic processes under experimental conditions over a short term time span in order to avoid confounding influences of changes in body weight or other factors.
To investigate the effect of floorball on health and performance in healthy subjects over 65 years.