View clinical trials related to Cognitive Impairment.
Filter by:This study will assess two options to help patients better manage the cognitive fog and emotional distress that may be associated with having Long-COVID. Long-COVID is post-COVID conditions or symptoms lasting more than four weeks after infection. Clinicians from the UPMC Long-COVID Clinic leading this study are evaluating the utility of computer-based evaluation of COVID-related cognitive fog and the helpfulness of two intervention strategies to treat moderate cognitive impairment using a randomized trial. The two intervention strategies include 1) a standardized dosing of amphetamine/dextroamphetamine medication that has been used to improve cognitive fog; and 2) a digital behavioral tool with an embedded health coach that is used on a mobile phone.
Cognitive impairment is a common complication in diabetes for various reasons. Although glycemic control improves cognitive impairment, different antidiabetic medications' effects on cognitive functions are still being investigated. Brain-derived neurotrophic factor (BDNF) is a neuroinflammatory marker and a member of the neurotrophin family with growth factor properties. BDNF levels have been shown to decrease in mild cognitive dysfunction or in late-onset Alzheimer's disease. Our aim is to examine the effect of SGLT2 inhibitor use on cognitive functions and BDNF levels.
The purpose of the study is to examine the properties of the Automatic Story Recall Test (ASRT) and its parallel variants, as well as letter fluency and category fluency cognitive tests. Tests will be completed in crowdsourced populations, to derive normative data, and examine test properties in demographically diverse and cognitively impaired participants recruited and tested online.
The goal of this longitudinal and observational study is to better understand the psychiatric consequences of COVID-19 over time. Psychiatric outcomes like mood, anxiety, stress, and cognitive symptoms in patients who underwent inpatient hospitalization at NewYork-Presbyterian Hospital/Weill Cornell Medicine for COVID-19 will be assessed at 6 months or later post-discharge.
Many residents from establishments for dependent elderly people (EHPAD) have memory disorders with behavioural problems such as agitation, aggression and anxiety, which make it difficult to assist them on a daily basis. Studies have proven the beneficial effect of the therapeutic seal robot PARO® in behavioural disorders. The present project aims to complement these data with a medico-economic study. At present, the only study of this type has been carried out in Australia, and is not transposable to France.
ACCOMPAGNE study proposes to evaluate an educational program for the patient / caregiver dyad, intended to accompany the patient towards the implementation of self-regulation strategies in the driving activity. The program, based on group workshops with the presence of the patient and the caregiver, is led by an interdisciplinary team. It follows all the intervention recommendations described in the literature: to make the patient a decision-maker, to allow advanced planning of discussions between the family member and the caregiver, to give information on the consequences of TNCs and sensory disorders. This program provides psychological support in the management of the problems and the mourning of a future cessation of the driving activity, an awareness of the risky and avoidable situations, information on alternative solutions and available resources in the event of reduced driving. The program is created to support the implementation of self-regulation strategies for safe driving and a gradual reduction of driving activity. This study may be included in Measure 5 of the Neuro-Degenerative Diseases Plan (PMND) 2014-2019. This plan recommends to strengthen the self-management of patients and their relatives in the disease.
Growing evidence suggests that dopamine contributes to key cognitive, emotional, and motor functions across the lifespan. In Late-Life Depression (LLD), dysfunction in these areas is common, predicts poor outcomes, and manifests as difficulties in motivation and effort along with cognitive and gait impairment. While studies of dopamine function in early and midlife depression primarily focus on individuals' ability to feel pleasure and respond to rewards, they often exclude the cognitive and physical function domains relevant for older adults despite a recognized decline in dopamine function with normal aging. The objectives of this collaborative R01 proposal between Columbia University/New York State Psychiatric Institute and Vanderbilt University Medical Center are to: 1) characterize dopaminergic dysfunction in LLD across cognitive, emotional, and motor domains at several levels of analysis (cellular Positron Emission Tomography [PET], circuit Magnetic Resonance Imaging [MRI], and behavioral / self-report); and 2) examine the responsivity of dopamine-related circuits and behavior to stimulation with carbidopa/levodopa (L-DOPA).
Age-related vision impairment and dementia both become more prevalent with increasing age. Research into the mechanisms of these conditions has proposed that some of their causes (e.g., macular degeneration/glaucoma and Alzheimer's disease) could be symptoms of an underlying common cause, or may be equally linked to a multifactorial context in frailty and aging. Research into sensory-cognitive aging has provided preliminary data that sensory decline may be linked to the progression of dementia through the concept of sensory deprivation. Preliminary data in hearing loss rehabilitation support the idea that improved hearing may have a beneficial effect on cognitive functioning; however, there are to date no data available to examine whether low vision rehabilitation, specifically for reading, could have an equally protective or beneficial effect on cognitive health. The present proposal aims to fill this gap.
This study will measure the oral bioavailability and pharmacokinetics of known bioactive compounds from a standardized Centella asiatica water extract product (CAP) in mildly demented elders on cholinesterase inhibitor therapy. Compound levels will be measured in human plasma and urine over 10 hours after acute oral administration of two doses of the botanical extract product. The dose giving maximum plasma levels (Cmax)closest to those observed in the investigator's mouse studies, the area under the curve (AUC0-12), as well as the rate of clearance (t ½) of the known compounds and time of maximum concentration (tmax), will be identified. These data will be used to inform decisions on the dosage and dosing frequency for future clinical trials.
About the research There are currently 850,000 people living with dementia in the United Kingdom. It is now understand that Alzheimer's disease (AzD) can result from damaged blood vessels in the brain. Brain blood flow can be measured using ultrasound, known as transcranial Doppler ultrasonography (or TCD). Brain training (BT) uses exercises or brain-teasers to try to make the brain work faster and more accurately. In recent years, BT has been used to try to improve memory, mood, learning, quality of life, and ability to carry out every-day activities in people with dementia. Aims 1. To find out how acceptable and manageable this BT program is for people with dementia to undertake larger studies of BT in the future. 2. To look for any benefits for people with dementia, such as, improvements in quality of life, ability to carry out everyday tasks, mood, and brain blood flow. How will the research be carried out? - Forty patients with AzD, or mild cognitive impairment (MCI), and twenty healthy older adults will be recruited from memory and geriatric clinics, Join Dementia Research, general practice surgeries and community groups. - Participants will be randomly assigned to brain training or control. The control group will be offered the program at the end of the study. - First visit: Participants will complete questionnaires on quality of life, mood, everyday abilities, memory and an assessment of brain blood flow - Brain training program: Participants will complete 15-30 minute sessions, 3-5 times per week - Follow-up: participants will repeat the questionnaires and assessment of brain blood flow - Interviews and feedback: to discuss how participants felt the program went, and find out if there are any ways it could be improved.