View clinical trials related to Healthy Aging.
Filter by:This study will focus on acute effects of added sugars on brain health in a specific age group (30-64 years old). We will provide participants two meals (one meal containing 16 g of added sugars and the other containing 61 g of added sugars) and examine blood vessel function and brain structure using a MRI.
Generation Victoria (GenV) is a longitudinal, population-based study of Victorian children and their parents that will bring together data on a wide range of conditions, exposures and outcomes. GenV blends study-collected, study-enhanced and linked data. It will be multi-purpose, supporting observational, interventional, health services and policy research within the same cohort. It is designed to address physical, mental and social issues experienced during childhood, as well as the antecedents of a wide range of diseases of ageing. It seeks to generate translatable evidence (prediction, prevention, treatments, services) to improve future wellbeing and reduce the future disease burden of children and adults. The GenV Cohort 2020s is open to all babies born over a two-year period, and their parents, residing in the state of Victoria Australia. The GenV Cohort 2020s is preceded by an Advance Cohort of babies born between 5 Dec 2020 and 3 October 2021, and their parents. This comprises all families recruited at GenV's Vanguard hospital (Joan Kirner Women's and Children's) and at birthing hospitals throughout Victoria as GenV scaled up to commence recruiting for the GenV Cohort 2020s. The Advance Cohort have ongoing and full participation in GenV for their lifetime unless they withdraw but may have less complete data and biosamples.
This experiment tests young (ages 18-35) and older adult (ages 60-80) participants. Participants will watch a brief video, will complete a memory task, and will complete measures about their beliefs.
Twenty percent of the US population will be age 65 or older by 2050, a surge from 8 percent in 1950 and 12 percent in 2000. The proportion of low-income older adults is also growing. Approximately 70 percent of people 65 and older are expected to need some level of long-term care, which may burden the nation's health and caregiver systems. While there are many models to care for chronically ill older adults, there is less agreement on how to support healthier, low-income older adults to stay independent in their communities. This study will compare the effectiveness of an in-home preventive healthcare program delivered by nurses to on-site health and wellness classes for older adults living in low-income independent housing. We also want to understand adherence and preferences of older adults for these two options. The three-year study will take place in up to 18 low-income independent older adult apartment buildings in Los Angeles. Half of buildings will be randomized to offer the health and wellness classes, and the other half will offer the in-home preventive healthcare program. All study activities will be provided on-site at the building locations, and individuals living in the buildings will be invited to participate. A total of 480 participants will be recruited to participate, 240 in each group. Residents from participating buildings will meet with the research team to provide feedback throughout the study. Other stakeholders, including doctors, housing services, social agencies, hospital leaders, professional societies, advocacy groups, and city policymakers will also meet with the team as an advisory group to share input and concerns. This project seeks to compare how each option maintains or improves health and functional independence in low-income older adults, with the goal of limiting dependency, moves to nursing homes, and the use of costly health services, while improving health behaviors and promoting the use of preventive health and appropriate community services.
This study aims to establish the Senior Driving Simulation Training (SDST) for Subjective Cognitive Decline (SCD) and Mild Cognitive Impairment (MCI), and explore the effectiveness of Senior Driving Simulation Training (SDST) on the executive function, cognitive function and EEG.
A good quantity, and quality, of sleep is crucial for well-being. Evidence strongly indicates that poor sleep quality and quantity is causally involved in the development of dementia; therefore, techniques which can improve sleep in older adults are very likely to prevent or slow down the disease process in dementia. This project aims to manipulate a specific aspect of sleep in healthy older adults. This: 1) has the potential to prevent the pre-dementia stage of mild cognitive impairment in healthy older adults, and 2) has a direct clinical application to dementia. The overall aim of this project is to investigate if a non-invasive brain stimulation technique called transcranial direct current stimulation (tDCS) can enhance specific brain activity patterns during overnight sleep in healthy older adults. These brain activity patterns during sleep (called 'sleep spindles') are mechanistically linked to both the physiological restorative and the cognitive function of sleep. Sleep spindles can only be assessed by measuring overnight brain activity during sleep. Sleep spindles are very strongly associated with attention, and memory performance, which are severely affected by dementia. A decrease in sleep spindles is associated with cognitive decline, and predict dementia development. Therefore, enhancing sleep spindle activity in sleep is likely to boost cognition. Whilst previous research studies have demonstrated that in a sleep laboratory environment, tDCS can manipulate sleep spindles when individuals are in a specific brain state in a nap situation, we are specifically interested in testing tDCS in a home environment. This is because the use of tDCS in a home environment has have a number of advantages over sleep laboratory studies. Specifically, by conducting this study in a home environment, this will maximise the inclusivity of studies involving older adults, and DLB patients, since they will not be required to travel to a sleep laboratory to participate in studies. The aim of this proof-of-principle study is to investigate if tDCS can manipulate sleep spindles in healthy older adults. It is expected that relative to a placebo stimulation, active stimulation (which exerts an effect upon the brain) will increase sleep spindle activity in healthy older adults.
With regards to the increase in the aging population globally, how to build up a successfully aging society has become the main issue in health care and socioeconomic. In addition, living with high physical function is one of the main goals and solutions, and exercising regularly is a direct and obvious way to achieve this goal. However, being elderly, it might not be easy for them to practice or do exercise every day due to some of their limitations such as learning difficulty and lack of motivation. Nowadays, there are many different types of exercise supporting tools, which are in terms of visual or auditory cues, including two-dimensional (2D) or three-dimensional (3D) cues. Accordingly, several studies mentioned the positive outcomes of using a 3D visual cue compared with using the 2D one. Also, a study found that combining visual and auditory cues together resulted in a better perception than using either one alone. Coupled with a coming of a small flyable robot so-called "drone", which can be programmed to fly autonomously in a 3D space, a few research teams applied it in many interactive applications with humans such as sports education relating for example dancing and boxing. Moreover, there was a research team that explored the interaction between a human and a drone in a close-range design by controlling the drone using both hands movement, which was inspired by Tai Chi martial art exercise. As a result, they found important findings of the calming and focusing experience of the participants due to the low level of constant propeller noise of the drone. Regarding this, the investigators assumed that applying a drone, which can be recognized as a 3D visual cue, to a kind of exercise may provide some benefits in terms of physical health. In addition, the investigators applied it to a simple Chinese martial art exercise called "Baduanjin Qigong" since it was recommended for everyone, especially for the elderly because of its low requirement for physical and cognitive abilities. However, based on our findings, there is no published information about the effects of the drone as a visual cue or exercise guiding tool in terms of biomechanical effects of human motion. Therefore, these effects would be observed throughout this study. Besides, the investigators hypothesized that exercising with the drone, which is a 3D visual cue in this study, could provide a significant difference in biomechanics effects such as the center of pressure (COP) and smoothness of the arm when compared with using a 2D visual cue like video, or no visual cue like the audio illustration. Also, resulting in a positive direction as an exercise guiding tool for the elderly such as increasing their motivation during exercise.
To prove the effectiveness of complex wellness programs in terms of maintaining active longevity, including motivational counseling, high-intensity training, intermittent fasting, hypoxic training, as well as practices for achieving healthy sleep and mental well-being. Clinical-instrumental, single-centre, prospective, open-label, non-randomized, sequential enrollment study with blinded endpoint analysis
This study will investigate the extent to which singing affects balance and breathing. Singing therapy has potential as an adjunct or component of falls prevention programmes and in the treatment of breathing hypervigilance. Reducing fall risk, and levels of hypervigilance and anxiety could have widespread benefits on participants participation and quality of life. Investigators will aim to recruit both singers and non singers from older and younger adult age groups. Investigators will then be able to determine the balance response in untrained healthy young adults to understand the affects of singing training and aging on balance. The participants' balance will be measured via a force plate as they perform a series of speaking and singing tasks. Other outcomes will include breathing specific anxiety and attention to breathing, and balance specific anxiety and attention to balance.
data collection based on this study will allow us to collect and calibrate neurophysiological and cognitive data collected from in-ear EEG recordings of the initial baseline/reference population in Swiss healthy individuals that can be used as reference to data collected in other populations, for instance, to be compared with any other similar dataset in the future (e.g., Alzheimer patient cohorts).