View clinical trials related to Cognitive Decline.
Filter by:This project will investigate changes in cognitive function in the early postoperative phase (<24 hours) after minor surgery in patients of older age (≥65 years).
postoperative cognitive decline is a common and deleterious complication in aged patients.The link between inflammation and postoperative cognitive decline has also been reported.However,the link between SOD1,SOD2,Osteopontin, Kallikrein-6,and Contactin-1 and postoperative cognitive decline is unknown. In this project ,investigators examine the relationship between 5 cytokines measured at there timepoints (preoperative [PREOP], postoperative day 1 [POD1] , and postoperative day 3[POD2]) and postoperative cognitive decline among older adults undergoing orthopedic surgery.
WHO: 40 participants with a confirmed diagnosis of Multiple Sclerosis (MS) able to engage in moderate physical activity. WHY: The purpose of this study is to evaluate two computerized brain training tools, which include light physical activity, to see if they can help improve cognitive functions, such as memory and attention, for patients with MS. WHAT: Complete a set of tests (physical and cognitive) at baseline, wear a Fitbit Flex device at home for the duration of the study, 3 supervised sessions for 4 weeks at UCSF, one visit for physical and cognitive tests at one week after the final supervised session, and one final visit 6 months after the final supervised session. WHERE: 20 participants at the UCSF Weill Institute for Neurosciences (675 Nelson Rising Lane, San Francisco, CA); 20 participants at Lausanne University Hospital (Rue du Bugnon 46, 1005 Lausanne, Switzerland)
This ancillary study will determine if early administration of a single high-dose (540,000 IU) oral vitamin D3 (cholecalciferol) treatment improves 12-month global cognition and executive function as determined by comprehensive neuropsychological testing in 140 critically ill patients with Vitamin D deficiency at enrollment.
This research study is developed on an experimental design with randomized controlled intervention were participated 135 subjects with AD including 45 of the control group. It lasted 6 months with pre-post tests (T0-T1) executed before and after six months of treatment. By having in focus the evaluation of GPR therapy effects on cognitive, proprioceptive, depressive, autonomy, gait and life quality of the above mentioned subjects.
In the present study, the investigators aim to elucidate the role of T-cells on cognitive decline in younger stroke patients, using repeated cognitive testing, brain imaging, and immunological analyses in the first 6 month after stroke. The examiners will investigate (i) the extent and duration of stroke-induced changes in T cell function within the peripheral blood of patients; and (ii) post-stroke cognitive functions.
A Randomized Pivotal Study of RenewTM NCP-5 for the Treatment of Mild Cognitive Impairment due to Alzheimer's Disease or Mild Dementia of the Alzheimer's Type is a pivotal, single blind, parallel design, multi-site study intends to examine the efficacy and safety of RenewTM NCP-5 therapy in the treatment of Cognitive Impairment due to Alzheimer's Disease or Mild Dementia of the Alzheimer's Type. Subjects will be prospectively randomized to treatment or sham (in a 1:1 ratio) using stratification for Cognitive Impairment due to Alzheimer's Disease or Mild Dementia of the Alzheimer's Type, and Cardiovascular Risk (CVR) score at multiple sites. Subjects, ages 55-85, will be consented for 13 months and will receive thirty-five 60-minute RenewTM NCP-5 treatment sessions during a 7-to-12-week initial treatment period, and then transition to a lower frequency maintenance period (twice a week) for a total treatment period of 24 weeks.
The Healthy Patterns Study intervention is a home-based activity intervention designed to improve symptoms of circadian rhythm disorders (CRD) and quality of life (QOL) in home-dwelling persons with dementia. We will use a randomized two-group parallel design of 200 people with dementia and their caregivers assigned to intervention or attention control groups.
Tremendous progress has been made in characterizing the interactions between the central nervous system and the gastrointestinal tract. This concept of a gut-brain axis suggests that influencing bacteria in the gut is a promising approach for developing new ways of benefiting brain function. This is particularly relevant for an ageing population for which cognitive decline is a common symptom and can be an indicator for the development of neurodegenerative conditions such as dementia. There is good evidence already that nutrition can delay the development of cognitive decline in ageing, in particular for ageing-sensitive brain regions such as the medial temporal lobe, however this has been little explored for cranberry intake. Cranberries are high in plant-derived nutrients called polyphenols, which have been suggested to promote brain function and protect against disease-causing mechanisms. In the proposed project we will pioneer work to investigate the impact of cranberry intake on gut bacteria and how it relates to cognitive performance in ageing and associated regions in the brain. This study is being conducted by Chief Investigators Dr David Vauzour and Prof Michael Hornberger at the University of East Anglia. Sixty participants (i.e. n=30 control and treatment groups) aged 50-80 years old, with no memory complaints will be recruited for this 12-week double-blind placebo-controlled parallel intervention of cranberry flavonoids. Freeze-dried cranberry or a matched placebo will be taken twice daily for the duration of the trial. Blood, urine and faecal samples will be collected for microbiome, DNA, biochemical and nutritional analysis. Participants will also undergo cognitive testing, as well as MRI scanning to detect changes in brain physiology.
Presently, the role of either genetic factors or biological sex in the development of postoperative cognitive dysfunction (POCD) is unknown. There is a critical need to determine which individuals are at high-risk for developing POCD by virtue of biological sex or genetic predisposition. The knowledge gained in the described research has the potential to shed light on mechanistic pathways, a necessary next step in order to ultimately identify therapeutic strategies.