View clinical trials related to Cognitive Impairment.
Filter by:Alzheimer's disease and related dementias (ADRD) are serious, life limiting illnesses with no known cure. Dementia is the fifth-leading cause of death in older adults and the majority of people with advanced dementia die in nursing homes (NHs). Miller et al reported that 40% of U.S. NH residents dying with advanced dementia received Skilled Nursing Facility (SNF) care in the last 90 days of life, and receipt of this care was associated significantly with poorer end-of-life outcomes, including a higher risk of dying in a hospital, compared to decedents with no SNF care. SNF care is a Medicare post-acute rehabilitation service delivered in NHs focused on intense rehabilitation and/or aggressive, disease-modifying therapies. Regardless of life expectancy, use of SNF care precludes access to Hospice services. Palliative care (PC) offers an evidence-based alternative.
Traumatic brain injury (TBI) is an important global health concern. Recently, advances in neurocritical care have led to an increase in the number of recovering TBI patients, and concomittantly in the incidence of complications of TBI. One of the most important sequalae of TBI is cognitive deficit, for which multimodal rehabilitation approach is indicated. Transcranial direct current stimulation (tDCS) is a promising treatment strategy for post-TBI cognitive deficits. However, a standardized tailored tDCS protocol is yet to be established for TBI patients. Therefore, this trial aims to 1) the efficacy of tDCS on post-TBI cognitive deficits, and 2) and optimized protocol of tDCS on post-TBI cognitive deficits via a three-arm double-blind, randomized controlled trial.
This implementation study will be conducted to test a Socially-Assistive Robot (SAR) system for residents in an Assisted Living environment. The goal of the SAR system is to enhance social engagement and connectedness. The system engages residents via robot-facilitated activities such as trivia and reminder and is integrated with the SimpleC Wellness Platform.
SARS-COV-2 (severe acute respiratory syndrome- corona virus - 2) infection reframed medical knowledge in many aspects, yet there is still a lot to be discovered. Coronavirus disease 19 (COVID-19) can cause neuropsychiatric, psychological and psychosocial impairments. Literature regarding cognitive impact of COVID-19 is still limited. Objective: evaluation of cognitive function, anxiety and depression among patients with Coronavirus disease 19.
In this study, a more specific and systematic Home-Based Cognitive Rehabilitation Program Driven by a Tablet Application is developed and the purpose of the program is to check whether cognitive function is improved when the program is applied to patients with MCI.
Of the 1,900,000 Canadians who have been infected by COVID-19, 8 to 15% will continue to experience COVID-19 related symptoms well after 12 weeks. The persistence of such symptoms is now defined as "long COVID" syndrome. Current evidence does not provide a clear understanding of the physical and cognitive impairments and functional limitations that persons with long COVID present. The objectives of this project are to describe the physical and cognitive impairments and functional limitations experienced by people with long COVID and compare the evolution over 6 months of people from three separate groups: a group of people with long COVID (long COVID Group), another group of people who contracted COVID-19 but did not experience persistent symptoms (acute COVID Group), and a group of people who did not contract COVID-19 (Control Group). One hundred and twenty adults in each of the three groups will be recruited and will take part in three evaluations within 6 months (baseline and 3 and 6 months after baseline). At baseline, all participants will complete questionnaires on sociodemographics, COVID symptomatology and comorbidity, and self-reported questionnaires on quality of life, functional status, sleep, pain-related disabilities, anxiety, depression, fatigue and cognitive function. Then, physical and cognitive tests will be performed in a laboratory to provide complementary results on impairments and functional limitations. Finally, participants will wear a fitness tracker watch to monitor their activity and sleep for 7 days. The participants will complete the same measures (questionnaires, lab measures, fitness tracker watch) at 3 and 6 months after baseline evaluations. This project will lead to a better understanding of the impairments/limitations experienced following COVID-19. Hence, these results will allow to identify the interventions needed by the population and ensure these are offered through effective healthcare pathways.
There is lack of attention to preoperative cognitive function and delirium in elderly who underwent surgery. The investigators are investigating different tools that can help to screen for cognitive dysfunction and delirium in the future.
This study will investigate if the performance on the Montreal Cognitive Assessment (MoCA) is associated or predictive of the outcomes in voice, swallowing or upper airway therapy in the older laryngology treatment seeking patients. The relationship between the scores of MoCA and parameters in therapy will be analyzed. The outcomes of this study could potentially impact how investigators determine candidacy for therapy and develop patient treatment plans to meet their needs. This is a collaborative study with Emory Voice Center and the NYU Voice Center.
This project contains three studies. This study will use a pilot randomized controlled trial to examine the effect of Paro (social robot) intervention on oxytocin, dopamine, and HRV variations and mental well-being for specific attachment older adults with dementia. A randomized controlled trial, single-blind, two parallel groups, and repeated measures design were used to examine the effects of Paro intervention on neurobiologically changes and mental well-being for specific attachment older adults with dementia before, during, and after the intervention.
Patients with chronic kidney disease (CKD) with criteria for renal replacement therapy (RRT) including uremic syndrome, have a stable state of hyperosmolarity due to urea despite not being an osmotically inactive ion. Also, these patients have alterations in urea transporters in the central nervous system (CNS) conferring a risk of neurological involvement due to an abrupt decrease in serum urea causing manifestations of the post-dialytic syndrome. Hemodialysis results in rapid removal of urea from the blood, much faster than the equilibrium rate between the brain and the bloodstream through the blood-brain barrier, resulting in an osmotic gradient that favors movement from water to the brain, causing cerebral edema, intracranial hypertension and dialysis-associated imbalance syndrome. Conventional hemodialysis (HD) uses diffusion and primarily decreases small solutes, while hemofiltration (HF) is based on convection that provides clearance mainly of medium-size molecules and small solutes with a slower rate of reduction.