View clinical trials related to Memory.
Filter by:To examine the relations between sleep (nap transitions, sleep physiology), memory, and brain development longitudinally, the researchers will assess n=180 children (in order to acquire n=152 usable data sets) who are 36-54 months of age and habitual nappers at enrollment. In each wave, the researchers will assess memory, memory change over a nap and equivalent waking interval, sleep physiology of the nap, and brain structure and function (using Magnetic Resonance Imagining or MRI). Additionally, overnight sleep physiology will be assessed in all participants. Waves will take place approximately every 6 months. For all children, three waves will be collected. With these data, the researchers will address the following aims: - Examine neural markers that predict the sleep transition (Aim 1); - Examine changes in sleep-dependent memory processing (mnemonic discrimination) over both nap and overnight sleep intervals, across the sleep transition (Aim 2); - Examine changes in sleep microstructure in both nap and overnight sleep across the sleep transition (Aim 3) - Examine interrelations among brain, memory and sleep microstructure across the sleep transition (Aim 4)
The purpose of this research study is to understand how healthy individuals self-regulate motivation by observing brain activity using magnetic resonance imaging (MRI).
This study investigates the impact of ∆9-tetrahydrocannabinol (THC) and cannabidiol (CBD) on recognition memory in healthy, regular cannabis users. Participants complete the same recognition memory task after self-administering one of three different strains of cannabis flower one day and while not intoxicated another day. Event-related potentials (ERPs) are measured via electroencephalogram (EEG) during the recognition memory task. Blood is collected to quantify THC and CBD exposure. Participants also complete self-report measures of medical history, sleep quality, subjective cognitive function, physical activity, psychological functioning, substance use, and acute drug effects.
The goal of this clinical trial is to learn about the ability of non-invasive brain stimulation during sleep to enhance people's deep sleep and its potential benefit on memory in people with mild cognitive impairment via home use sleep therapy device (SleepWISP) as well as learn about biomarkers associated with Alzheimer disease (AD). The clinical trial aims to answer the following main questions: 1. Whether the non-invasive transcranial electrical stimulation (TES) delivered by SleepWISP could provide short-term enhancement of deep sleep in a single night in the target population. 2. Whether TES delivered by SleepWISP could enhance deep sleep over multiple nights in the target population. 3. Whether enhance on deep sleep could improve memory performance in the target population. Participants will be asked to wear non-invasive and painless devices that record their brain activity during sleep along with an actigraphy watch that measures their movement throughout the day. In addition, blood samples will be collected from participants for up to five times during the study.
Autobiographical memory is diminished in patients with Alzheimer's Disease and those with behavioral variant of frontotemporal dementia, and research has focused on the hampered ability of patients in retrieving specific memories. However, this study proposes a detailed methodology to provide a qualitative analysis of autobiographical specificity.
Previous studies have shown that polyphenol-rich foods can positively affect cognitive functions, memory, and mood in humans. We hypothesize that both acute and chronic intake of muscadine wine polyphenols will improve cognitive performance and mood through regulating the HPA axis, alleviating inflammation and oxidative stress, and/or inhibiting monoamine oxidase activities
Posttraumatic stress disorder (PTSD) has devastating health consequences. Evidence-based PTSD interventions address the substantial burden of PTSD on the health of individuals and societies; however, several individuals receiving these interventions drop out and not all individuals experience improvement in PTSD symptoms. Moreover, these current PTSD interventions primarily target trauma memories. Notably, growing evidence suggests that PTSD symptoms are related to difficulties in the encoding and retrieving of positive memories as well. Thus, the proposed study will examine effects of and targets underlying a novel PTSD technique focused on narrating and detailing positive memories - Processing of Positive Memories Technique (PPMT). Methodologically, 70 individuals will be randomly assigned to PPMT vs. Supportive Counseling (SC) for this study. The aims of the proposed study include (1) examining PPMT's effects on PTSD symptom severity and stress systems' dysregulation (i.e., awakening salivary alpha amylase [sAA] and cortisol); (2) examining mechanisms underlying PPMT's effects; and (3) refining PPMT. It is hypothesized that the PPMT arm will report greater decreases in PTSD severity and sAA/cortisol ratios. Further, it is hypothesized that PPMT-related improved affect will mediate the association between study arm (PPMT vs. SC) and changes in PTSD severity. Lastly, feedback will be obtained from study participants on PPMT's feasibility, format, and content to refine PPMT. The proposed study may contribute preliminary evidence on the potential significance of targeting positive memories in PTSD interventions.
The main goal of this study is to assess the effectiveness of a cognitive remediation program based on a "serious game" on the information processing speed evolution and the process of learning via episodic memory in multiple sclerosis patients.
Our motor skills require motor memories without which our behavior is only reflexes and stereotypies. The way which these memories form in the human brain constitute therefore a major challenge for neuroscience research. Some a lot of evidence suggests that any new motor skills is acquired in the cerebellum and then persisted in the cortex. This vision seems however caricature, the formation of memories motor probably requiring complex remodeling of cortico-cerebellar networks. The MotorMemo project aspires to better understand this remodeling, by testing more specifically the hypothesis of cerebellar weakening and strengthening cortical as a substrate for the formation of motor memories. A longitudinal study using a sensorimotor adaptation protocol, fMRI as well as a developmental perspective is proposed to verify this hypothesis.
The study is investigating working memory brain states by using transcranial magnetic stimulation (TMS) in combination with functional magnetic resonance imaging (fMRI). The study uses a novel, individualized targeting approach for TMS based on each subject's individual multi-modal fMRI data. The individualized target will be stimulated in a TMS/ fMRI imaging session to investigate working memory states and optimal stimulation frequencies.