View clinical trials related to Cognitive Decline.
Filter by:Transcranial magnetic stimulation (TMS) is a noninvasive brain stimulation technique that is increasingly used for a growing number of research and clinical applications.Typically, this transient magnetic field is focally applied with a figure-of-eight coil that is carefully placed on the surface of the scalp over a targeted stimulation site. Patterned repetitive TMS (rTMS), such as theta burst stimulation (TBS) can produce long-lasting effects on neural activity and behavior beyond the stimulation period (Chou et al., 2015a; Fitzgerald et al., 2006). In general, high frequency (> 5 Hz) rTMS and its newer version, intermittent theta burst stimulation (iTBS), facilitate cortical excitability, whereas low frequency (about 1 Hz) rTMS and continuous theta burst stimulation contribute to opposite effects (Pascual-Leone et al., 2000; Huang et al., 2005; Wassermann and Zimmermann, 2012).Careful manipulation of the parameters comprising these patterned rTMS pulse trains can induce neuroplastic changes that resemble either long-term potentiation (LTP) or depression (Chen et al., 1997; Pascual-Leone et al., 1994). Early studies targeting the motor cortex helped elucidate which rTMS parameters promote particular responses and their neurophysiological underpinnings (Klomjai et al., 2015). In recent years, rTMS has been closely investigated to evaluate its potential to modulate cognitive functions in Alzheimer'sdisease (AD) and mild cognitive impairment (MCI). As compared to conventional excitatory rTMS protocols, iTBS leads to comparable effects with similar number of pulses but considerable shorter duration and lower intensity of stimulation (Bakker et al., 2015; Rossi, Hallett, Rossini, Pascual-Leone, & Safety, 2009). Recent literature also suggest that TBS has lower rates of reported adverse event (AE) compared to rTMS (Najib & Horvath, 2014). Therefore, iTBS is assumed to modulate cognitive function in people with cognitive impairments.
This trial investigates the effect of a chicken extract supplement and a peptide supplement on cognitive function and potential mechanisms of action of cognitive decline during ageing, among non-demented elderly adults using a three-arm, randomized, placebo-controlled clinical trial design.
The objective of this trial is to demonstrate early proof-of-concept for My Healthy Brain, an 8-week group program that directly targets multiple lifestyle factors associated with brain health and prevention of cognitive decline. The investigators will explore the feasibility, acceptability, and effect sizes of improvement in primary lifestyle outcomes as well as secondary outcomes of self-determination and subjective well-being.
This study investigated the effect of acute multiple joint, structural barbell resistance exercise on information processing speed and conflict-related neural activity in older adults via a crossover, sham control, randomized control trial.
Understanding how to delay age-related physical and mental declines is an issue for aging research. It has been shown that isolated aerobic, coordination and cognitive training improve brain functions and cognitive performances. Moreover, the combination of them leads to greater effects. Different combination modalities are possible: training programs demanding cognitive resources within the activity performed in a natural environment like Nordic Walking (or Tai chi, Dance...); or as in a conceptually-grounded circuit training where training components are systematically combined and their intensity controlled. The aim of this study is to compare three training programs: a Nordic walking one (NW), and two conceptual grounded, circuits training (CT-c; CT-fit). CT-c implemented by dual-task (DT) exercises, while CT-fit characterized by cognitive charge embodied in the movements through the use of technology. An improvement in physical, motor, and cognitive functions is expected by all three groups. However, our primary hypothesis is that the CT-fit will impact executive functions more. 45 healthy independent living community dwellers participants aged 65 to 80 will be recruited. Participants will be included after a general medical examination (geriatric screening and cycle-ergometer maximal effort test). The main exclusion criteria are signs of cognitive impairment, (MMSE <26/30), and physical impairments. Participants will be randomly divided into the 3 groups (NW, CT-c, CT-fit): The training program will last 8 weeks, 1 hour 3 times a week. Pre and post-tests will include cognitive assessment (MoCA; TMT; Stroop task, Happy Neuron™ working memory test, Rey Complex Figure copy task and dual-task capacities through the DT-OTMT); motor fitness assessment (Bipedal upright standing, Unipedal balance test, walking speed and size of the base of support, Timed Up & Go, Chair sit and reach test and Four square stepping test) and physical assessment (10 m incremental shuttle walking test, maximal handgrip force, 30s chair rise stand). Improving cognitive functions by adding new technology embodied in a systematically combined training (exergame), would result to be the best solution to optimize training for aging people.
It is an interventional study in which 60 women estimated to enroll according to random allocation and divided into two groups. The study group will receive aerobic exercise in addition to diet restriction while the control group will receive diet recommendations. the aerobic exercise in form of treadmill training intensity of exercise moderate intensity, target heart rate (THR) will be 50-60% of heart maximum (HR MAX), time of session 40 min initial 10 min warm up exercise on treadmill in low intensity and active phase 20- 30 min intensity will increase until patient reach to THR then intensity decrease until session will be ended by cooling down phase for 10 min . The volunteers will perform exercise 3 times per week for 12 weeks .different functions and markers will be measured and sex hormones (estradiol ,testosterone. sex hormone binding globin ) pre and post
Due to demographic changes that have resulted in an aging population, the role of caregiver of an older adult has become very important in recent years. While numerous programs have been designed to lighten the caregiver's physical and emotional burden, fewer programs train caregivers to improve skills and level of independence in the person they care for. The objectives of this research study were to assess the benefits of a caregiver training program on the cognitive and functional status of older adults, as well as to compare the effects of this program according to type of caregiver (professional caregiver vs. family caregiver). Methods: The sample was composed of 160 older adults: a) 100 received care from caregivers who had taken the training program (treatment group), of which 60 were professional caregivers and 40 were family caregivers; and b) 60 received care from caregivers who had not taken the program (control group). In order to evaluate program effects on cognitive and functional status, we used both direct measures (MMSE, CAPE and EuroQol) and caregiver reports (Barthel and RMPBC).
Aging-related cognitive decline may be affected by brain cholesterol and the health of cell membranes. Certain nutritional supplements have been proposed to support membrane health, and there is increasing interest in plasmalogens and Omega-3 derived oil supplements to support brain health among older adults. The product being investigated in this study is the ProdromeNeuro Omega 3 oil nutritional supplement. This product contains naturally occurring fatty acids in higher concentrations than similar products that are commercially available. The purpose of this research study is to better understand the effects of ProdromeNeuro Omega-3 nutritional supplementation among subjects with age-related cognitive decline.
The multi-domain programme was adapted from a larger international multi-domain interventional study for the Singapore community of older adults at risk of cognitive impairment. This programme comprises nutritional, physical and cognitive components delivered by implementation partners in the community. A dementia risk screening tool developed from the Singapore Longitudinal Ageing Study (SLAS) data was used to screen potential participants. The nutritional component includes nutrition guidance via a nutritional app, while cognition component involves computerised training on a touch screen device and physical aspects involves dual-task exercises.
The aim of the intervention proposed in the present study is to assess the effect of a cognitive stimulation (CS) intervention program in an individual and long-term format, for non-institutionalized elderly people with neurocognitive disorders and in a situation of social vulnerability. Specifically, to test the effectiveness of CS on the global cognitive state, on mood state, on quality of life and on functional state. The program will be composed by 50 sessions, including three of assessment sessions (pre, intra and post-intervention). Each session will have a duration of 45 minutes with a weekly frequency. Control group participants will maintain their treatment as usual.