View clinical trials related to Cognitive Dysfunction.
Filter by: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.
The main objective of the study is to evaluate the efficacy of a combined training program of physical exercise and multisensory stimulation (Physiocognitive Integration) in people with mild/moderate cognitive impairment.
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.
The purpose of the study is to better understand the biological mechanisms of carbon dioxide (CO2)-induced cognitive impairments.
The aging of the population has led to an increase in the prevalence of disabling and high-cost diseases, such as dementia and Mild Cognitive Impairment (MCI). The latter can be considered a prodromal phase of some dementias and a critical stage for interventions to postpone the impairment of functionality and thus maintain a better quality of life. A cognitive function to intervene in working memory (WM) since it represents the fundamental component of executive functions and is the gateway to maintaining long-term memory. This project proposes an intervention to enhance WM in these users, combining cognitive training with non-invasive brain stimulation, specifically transcranial electrical stimulation of alternating current (tACS). This proposal arises from recent evidence showing that it is possible to increase the capacity of WM in users with MCI through cognitive training. Along with this, tACS has been proposed as a specific neuronal plasticity inducer for the oscillatory pattern required for each mental process. WM is a process particularly susceptible to being enhanced by this technique, as the underlying electrophysiological oscillatory patterns of this process are well described. Thus, tACS would act as a potentiator of the residual capacity of WM in patients with neurodegenerative diseases. This study is a phase II randomized, double-blind clinical trial with a 3-month follow-up. The study will be of 62 participants diagnosed with MCI over 60 years from Valparaíso, Chile. Participants will receive intervention that will combine 12 cognitive training sessions with non-invasive brain stimulation, specifically tACS. Depending on the intervention group to which they will be assigned, in 8 of these sessions, participants will receive either tACS or sham stimulation. Sessions will last approximately 1 hour and take place twice a week, over six weeks. The primary outcomes will be the electroencephalographic measurements, and the secondary effects will be cognitive assessments of WM. The outcomes will be performed before, immediately after, and three months after the end of the intervention. The outcomes of this trial will add evidence about the benefits and feasibility of an intervention that combines cognitive training with non-invasive brain stimulation. The objective is to contribute tools for optimal cognitive treatment in patients with MCI. To enhance WM capacity, postpone the impairment of functionality, and obtain a better quality of life.
Older adults, especially those with frailty, have a higher risk for complications, functional and cognitive decline after urgent surgery. These patients have their functional and physiological reserve reduced which makes them more vulnerable to the effects of being bedridden. The consequences are at multiple levels emphasizing the functional loss or cognitive impairment, longer stays, mortality and institutionalization, delirium, poor quality of life and increased use of resources related to health. Exercise training can prevent functional and cognitive decline and modify even the posterior trajectory
Time restricted eating (TRE) is currently the most popular form of intermittent fasting which involves confining the eating window to 8-10 hours (h) and fasting for the remaining hours of the day. TRE is unique in that during the eating window, individuals are not required to count calories or monitor food intake in any way, resulting in high adherence. Accumulating evidence suggests that TRE produces a natural energy deficit of ~350-500 kcal/d. Physical activity in combination with a healthy diet pattern is recommended for older adults. While aerobic type exercise is the most commonly recommended, retention of lean mass via resistance training, especially in older adults, may be more effective at improving mobility, neurological and psychological function, executive and cognitive functioning, and processing speed. TRE combined with physical activity has not been examined in older adults or in people with overweight or obesity. This study holds the potential to 1) decrease body weight 2) improve lean mass 3) improve insulin sensitivity, and 4) improve attention, executive functioning, and processing speed in older adults. The aims of this study will examine the effect of TRE combined with either resistance training or aerobic training on body weight, body composition, metabolic disease risk, and cognition in adults over age 50. It is hypothesized that the TRE combined with resistance training group will see the most significant improvements in body composition, insulin sensitivity and cognition due to lean mass accretion.
This study is designed as a prospective, double-blind, placebo-controlled, randomized parallel-group study that will be completed at the clinical research facility at St. James' Hospital and at Trinity College Dublin, Ireland. A total of 100 amnestic mild cognitive impairment (aMCI) patients will receive a (real or control) non-invasive transcutaneous electrical stimulation procedure. Patients will be assigned to one of four groups. One group will receive active stimulation, while the three groups will be control groups. One groups will be receive sham stimulation (inactive control), while a second group will receive active stimulation and local anesthesia and a third group will stimulate a different nerve (active control; same sensation different nerve). The investigators will include three control groups to verify that the effect is real and location specific and cannot be associated to a sensation effect. The investigators have opted to use a parallel-group design as it is unclear what the carry-over effect and/or wash-out period will be for stimulation. To eliminate subjective bias, all patients and the investigator testing the endpoint measures will be blinded to the type of intervention. The primary outcome, i.e. memory recall, will be determined by a word association task recorded immediately after stimulation, 7 days after stimulation, and 28 days after stimulation. The secondary outcomes is neurophysiological changes determined by resting state EEG, which will be assessed immediately before and after stimulation in the first session. The investigators will conduct this study as follows: 1. Screening aMCI patients. 2. Randomly assigning aMCI patients to one of the four groups. 3. Administering one session active stimulation (n = 25) or control (n = 25 in each of three control group) stimulation paired with a word-association task; administered by research assistant. 4. Behavioral assessments after each of the three blocks of studying the word associations and neural measures immediately after the last session of Behavioral assessments (T0). 5. Behavioral assessments at seven (T1) and 28 (T2) days after stimulation.
Background: Cognitive impairment appears frequently in cancer survivors, negatively affecting the quality of life and emotional well-being of patients. This study compares the effectiveness of a well-established treatment (cognitive rehabilitation) with the Unified Protocol for Transdiagnostic Treatment of Emotional Disorders (UP) to alleviate these cognitive deficits and evaluate its effect on anxiety-depressive symptoms and the quality of life of survivors. Methods: A three-arm randomized superiority clinical trial, with a pre-post and follow-up repeated measures and intergroup design with a 1:1:1 allocation ratio will be carried out. A hundred and twenty-three breast cancer survivors with mild to moderate cognitive impairment will be randomly assigned to one of the interventions of the study: cognitive rehabilitation intervention group, an intervention group with UP intervention, or a control group on the waiting list. The primary outcome is to observe a significant improvement in cognitive function and quality of life in both intervention groups and a significant decrease in emotional impairments in comparison with the waitlist group. These results will be maintained at six months of follow-up. Discussion: The aim of this work is to test the efficacy of the Unified Barlow Protocol in reducing cognitive deficits in breast cancer survivors. The results of this trial may be useful in reducing the presence of cognitive problems in survivors and improving their emotional state and quality of life.
Prospective study, 40 patients ASA 2-3, 30-75 years old who were planned for laparoscopic hysterectomy operation will be included.One day before the operation and postoperative 1.3.7. A mini mental assessment test will be performed on these days.Standard monitoring and Near-Infrared Spectroscopy monitoring to measure cerebral oxygen saturation will be performed on the patients.NIRS sensors will be placed on the right and left sides of the forehead, 2 cm above the eyebrow, before induction of anesthesia. Before the induction of anesthesia, the measurement will begin and the FiO2 (fraction of inspiration oxygen) will be kept at 60%.General anesthesia induction will be made with propofol 2mg/kg, remifentanil 0.5 µg/kg and rocuronium 0.6mg/kg, and maintenance will be provided with 2% sevoflurane.The patient will be intubated and ventilation support will be provided so that the tidal volume is 6-8 ml/kg and the end tidal CO2 is 30-40 mmHg. PEEP (Positive end expiratory pressure) will not be applied to any patient. Intra-abdominal pressure will be maintained at 15 mmHg. All patients will be given 1gr paracetamol and 100mg tramadol for postoperative analgesia.During the measurement of optic nerve diameter, a layer of sterile water-soluble gel will be applied on the closed eyelid with a linear 10-5 MHz ultrasound probe. In our study, ONSDs of all patients will be measured by the same experienced anesthetist. Measurements will be made at 5 different times. 5 minutes after induction of anesthesia in the supine position (T0), 5 minutes after the onset of pneumoperitoneum (T1), 5 minutes after the upright trendelenburg position (T2), at the 2nd hour of the trendelenburg position (T3) and 5 minutes after returning to the supine position at the end of the surgery (T4) .ONSD measurements of the patients measured at 5 different times, peroperative NIRS values, peroperative SpO2, mean blood pressure, peak heart rate, anesthesia time, surgery time, time to stay in the trendelenburg position, partial oxygen saturation (PaO2), PCO2, end-tidal carbon dioxide (ETCO2) and peak airway pressure (pPEAK) will be recorded.