View clinical trials related to Cognition Disorders.
Filter by:Inattentiveness and impulsivity in healthy adults and individuals with attention deficit hyperactivity disorder (ADHD) diminish these individuals' quality of life. Cortical hypometabolism has been hypothesized to contribute to inattentiveness in ADHD. Transcranial photobiomodulation (tPBM) is a safe and non-invasive modality for activation of the prefrontal cortex. tPBM in healthy adults has been shown to augment brain oxygenation, cognition, and mood. The cognition-enhancing effect of tPBM on sustained attention in adults with ADHD remains unstudied. The investigators will evaluate whether tPBM administration to adults with and without ADHD can improve their attention. Each participant will be screened for eighteen criteria based on the Diagnostic and Statistical Manual (DSM-IV, text revised), using the validated instrument Adult ADHD Self-Report Scale (ASRS-v1.1). Blinded participants will be randomized into (I) Active-tPBM or (II) Sham-tPBM groups. After undergoing an 8-minute administration of Sham or 1064 nm tPBM to the lateral and medial right prefrontal cortex, each participant will complete a 14-minute, computer-based Conner's continuous performance task-3 (CPT-3). The investigators will examine whether adults with and without ADHD who receive Active-tPBM improve in measures of inattention, impulsivity, sustained attention, or vigilance compared to the Sham-tPBM group. Cognitive assessments of attention like the CPT-3 may evaluate the efficacy of tPBM to increase cortical metabolism in healthy adults and individuals with conditions like ADHD. The investigators anticipate their investigation will be a starting point for more sophisticated studies that focus on the implications of tPBM on cognition.
The goal of this observational study is to determine the impact of the combined use of cardiac rhythm recording devices, biomarkers, echocardiogram, and Magnetic Resonance Imaging (MRI) on the early detection of AF, silent stroke, and cognitive impairment in subjects older than 65 years at high risk. The main questions it aims to answer are: - The early detection of AF, allowing the establishment of preventive measures, will avoid its main complications, especially strokes and cognitive impairment or dementia, in patients at high risk? - Will cardiac rhythm monitoring devices be useful in the early detection of AF in patients at high risk? Participants will undertake an initial evaluation through an echocardiogram (to detect atrial dysfunction), cranial MRI (to detect silent strokes), plasma/serum collection to determine biomarkers, and a complete clinical assessment (including electrocardiogram, and scales for measurement of cognitive and functional status). The clinical evaluation will be repeated every 6 months and will allow the recording of the date of occurrence of the study events. In addition, annually, patients will be subjected to cardiac rhythm monitoring by electronic devices with the aim of improving AF detection.
The prevalence of Attention Deficit/ Hyperactivity (ADHD) varies between 3 and 10% depending on the studies. Comorbidities are frequently associated, in particular anxiety disorders. School, social and family consequences of ADHD can be major, especially in the presence of a comorbidity. The study goal is to evaluate, through questionnaires, the effect of self-hypnosis via a smartphone application, on the symptoms of inattention and anxiety in children with ADHD in addition to their treatment by methylphenidate. Parents and children complete the study questionnaires four times. - T0: at inclusion - T1 (T0+6 weeks): after 6 weeks of using the self-hypnosis application 5 days out of 7 for group 1 in parallel with the usual treatment / after 6 weeks of usual treatment for the group 2 - T2 (T0+8 weeks): after a wash-out period of 2 weeks (usual treatment only) for both groups - T3 (T0+14 weeks): after 6 weeks of use of the self-hypnosis application 5 days out of 7 for group 2 in parallel with the usual treatment / after 8 weeks of usual treatment for the group 1, following the 6 weeks of use of the application.
Stroke is the leading cause of long-term disability with an increasing incidence, especially in young adults. Among the cognitive difficulties following brain damage, deficits in attention are frequent and pervasive, affecting between 46% and 92% of stroke survivors. The current project targets patients with acquired brain injury, including stroke, traumatic brain injury, and brain tumor. The main objective of this study is to evaluate the use and the efficacy of a training program targeting attention and executive function difficulties, using gamified and digitized versions in virtual reality of standard cognitive exercises for patients with brain lesions.
Attention Deficit Hyperactivity Disorder (ADHD) is a very common neurodevelopmental disorder in childhood characterized by short attention span, impulsivity and hyperactivity. It is also known that sensory integration problems are seen together with the basic symptoms of ADHD. Studies indicate that children with ADHD have difficulties in perceiving and processing sensory stimuli, and in relation to this, they have difficulty in producing appropriate sensory responses at school, at home and in social environments. However, it was observed that the interventions related to ADHD did not focus on the sensory-motor dimension enough, and focused more on cognitive or social skills. Although current research indicates the presence of sensory integration disorder in children with ADHD, there are no studies showing the effectiveness of sensory integration intervention. Our study was planned to examine the effect of Ayres Sensory Integration intervention on sensory-motor, cognitive, behavioral skills and social participation in children with ADHD. Materials and Methods: After the evaluation, 90 children with ADHD will be included in the study by dividing them into intervention (n=45) and control (n=45) groups by simple randomization method. Ayres Sensory Integration Therapy intervention will be applied to the intervention group for 10 weeks, 3 times a week, with a session duration of 1 hour, while the control group will continue the drug treatment and after a waiting period of 10 weeks, Ayres Sensory Integration Therapy will be applied after the second evaluation. Participants, Sensory Profile (SP), Sensory Integration and Praxis Test (SIPT), Emotion Regulation Checklist (ERC), Stroop Test TBAG Form (Stroop TBAG), Childhood Executive Functions Inventory (CHEXI), Participation and Environment Scale for Children and Adolescents (PEM-CY), Conners Teacher Rating Scale (CTRS), Conners Parent Rating Scale (CPRS), Bruininks-Oseretsky Motor Proficiency Test-2 (BOT-2) and Goal Achievement Scale (GAS) both before and before intervention. and post-group change as well as between-group differences will be evaluated.
Insomnia is a common sleep disorder. In recent years, the incidence of insomnia is increasing worldwide. Studies point out that insomnia plays an important role in the pathogenesis of cognitive impairment. Although sleep and cognitive scales are the main methods to detect sleep quality and cognitive changes, there are problems such as strong subjectivity and poor repetition. There is an urgent need to use non-invasive and objective detection methods to assess the potential mechanisms of cognitive impairment caused by sleep disorders. Previous studies have shown that different brain states may show different neurovascular coupling (NVC) characteristics. However, after prolonged sleep deprivation, the evoked hemodynamics response was attenuated despite an increased electroencephalogram (EEG) signal response, suggesting that sustained neural activity may reduce vascular compliance. It is suggested that sleep disorder may lead to NVC disorder. However, whether sleep disorders regulate the mechanism of cognitive impairment in the brain through NVC disorders has not been demonstrated in vivo. Currently, functional magnetic resonance imaging (fMRI) can be used to study brain function and blood flow changes non-invasively. In our previous research, we combined cerebral blood flow (CBF) with mean amplitude of low-frequency fluctuation (mALFF), mean regional homogeneity (mReHo) and degree-centrality (DC), the early warning effect of fMRI features based on neurovascular uncoupling on early cognitive impairment was confirmed, providing a basis for further selection of functional imaging indicators. In conclusion, the present study proposes the scientific hypothesis that neurovascular decoupling-based MRI features are more appropriate for exploring the neural mechanisms underlying sleep disorders-induced brain cognitive impairment. The aim of this study is to establish an early warning and monitoring system for early non-invasive diagnosis and intervention of sleep-related cognitive impairment.
The goal of this clinical trial is to investigate the possibility of rehabilitation of mild cognitive deficits in people with metabolic syndrome. We aim to implement a cognitive training program on patients with metabolic syndrome and cognitive deficits, and examine its effectiveness both post-intervention (3 months) and after 12 months. Researchers will compare two groups, the experimental group that will receive the computerized cognitive training and the control group that will receive no training.
This clinical trial aims to explore the effectiveness and safety of cognitive function improvement of Neuclare, a science medical device, for patients with mild cognitive impairment and early Alzheimer's disease. Through methods such as Trail Making Test Black & White, Attention Questionnaire Scale(AQS), Neuropsychiatric Inventory (NPI), etc, cognitive function improvement before and after using Neuclare will be evaluated.
Background: Creatine transporter deficiency (CTD) is a genetic disorder that mainly affects the brain in males. CTD causes intellectual disability that can be mild to severe. People with CTD may have seizures and behavioral issues. They may have slow growth and tire easily. CTD may sometimes be confused with autism or other disorders. Better diagnostics are needed. The study team in an NIH study noted that the faces of children with CTD can look similar. For this natural history study, an expert will examine photos of children with CTD. Any shared traits found might help to diagnose CTD. Objective: To look for shared facial features of children with CTD. Eligibility: Males aged 2 to 40 years old with CTD who were in study 17-CH-0020. Design: Some participants in study 17-CH-0020 had pictures taken of their faces. The NIH study team wants to share these photos with a colleague in Canada. This person is an expert at evaluating how genetic disorders affect people s bodies. Participant data collected during the study may also be sent to this expert. This data may include diagnostic images and results from lab tests. Some children did not have their pictures taken during study 17-CH-0020. Parents are asked to take pictures of these children and send them to the study team. These photos can be sent to a secure portal. The photos can also be taken in-person during a clinic visit. The photos may be printed in clinical study journals. But this is not required. Parents will be asked to sign a separate consent before the photos are published.
Negative symptoms and cognition decline are major challenges in clinical management of schizophrenia. Dorsomedial prefrontal cortex (DLPFC) has been highly involved in the mechanisms of negative symptoms and cognitive symptoms of schizophrenia. However, the effect of repetitive transcranial magnetic stimulation (rTMS) over left or bilateral DLPFC has not yet been well studied. The aim of this study is to describe how the effectiveness of rTMS over different targets for cognitive deficits and negative symptoms in schizophrenia will be evaluated. The study will provide evidence to determine whether a bilateral DLPFC rTMS and is more effective than a left DLPFC rTMS alone to optimize treatment protocol in schizophrenia.