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Background: Loss of the sense of smell can seriously affect a person s quality of life. The ability to smell can be damaged by many factors, including illnesses, injuries, and exposure to toxic chemicals. The effects can vary, including complete loss of smell, partial loss, and parosomia, which is when things smell differently than they should. Objective: To study how brain function changes in people with different types of smell disorders. Also, to look at how smell loss affects quality of life over time. Eligibility: People aged 18 years or older with a disorder that affects their sense of smell. Healthy volunteers are also needed. Design: Participants will have 5 study visits over 1 year. They will have various tests and procedures: Smell tests. They will have several tests that involve smelling different items and answering questions. Questionnaires. They will answer questions about their health, mood, sense of smell, and daily habits. Magnetic resonance imaging (MRI) scans. They will lie on a bed that slides into a tube. Padding will hold their head still. They will smell different odors while in the scanner. Electrobulbogram (EBG). They will wear a soft cap with sensors that measure brain activity. They will smell different odors while wearing the cap. Nasal endoscopy. A flexible tube will be inserted into a nostril to view the inside of the nose. Biopsy. A numbing substance will be sprayed into the nose. Then a scissor-like tool will be used to collect a sample of tissue from one or both nasal passages. Samples of blood, urine, and nasal fluid will be taken.
The purpose of this study is to investigate how gut hormones and brain areas respond differently to gastric distention, tasteless calories, or palatable food and how this alters appetite.
Background: * Drugs of abuse have effects on mood, behavior, thinking, and decision making that may encourage people to continue using them and make it difficult for them to stop. Researchers who study these effects are interested in developing new tests to evaluate how drugs and drug use affect different areas of the brain. * Magnetic resonance imaging (MRI) scans allow researchers to study brain activity and changes to brain function. When specific psychological tests are performed during functional MRI (fMRI) scans, researchers can examine the effects of drug use on the brain. By developing and testing new procedures for fMRI studies, more information can be obtained on brain function and activity in drug-using and non-drug-using individuals, and this information can help develop new treatments and therapies for substance abuse. Objectives: \- To develop, assess and refine of cognitive and affective tasks and determination of their practical feasibility and efficacy for both MRI and non-MRI application. Eligibility: * Healthy volunteers between 18 and 65 years of age who are willing to undergo MRI scanning. * Both drug-using and non-drug-using individuals will be selected for this study. Design: * Before the start of the study, participants may complete as assessment of medical and psychological history, and provide information about past or current drug use. Researchers will introduce the tasks to be performed and may have participants practice the tasks. * During the study, participants will be asked to do one or more tasks selected by the researchers. The tasks may be performed on a computer in an MRI machine, and may involve receiving rewards (such as money or sips of juice) for actions, memory and reaction-time tests, or other tests that involve responding to instructions on the screen. * Participants will receive compensation for their participation in the study, including hourly compensation for individual visits.
The goal of this study is to observe the impact of suvorexant, sold as BELSOMRA, on brain activity of people who frequently use cannabis. Suvorexant is an FDA-approved medication to treat insomnia. Researchers think that suvorexant may reduce activity in certain parts of the brain associated with cannabis use. Researchers are studying if this medication does affect brain activity in these areas. For this study, participants will be asked to complete four study visits over approximately 14 days. Each study visit will include interviews, questionnaires, and collection of biological samples for laboratory testing. All participants will be asked to take suvorexant, an FDA approved medication for treatment of insomnia, for 14 days. They will complete two one-hour functional Magnetic Resonance Imaging (fMRI) scans: one before starting the study medication and one after 14 days of taking the study medication. MRI is used in typical medical settings and is considered to be safe. Participants will also be asked to complete a short daily survey for approximately 14 days.
This study aims to better understand how epilepsy alters brain function through neuroimaging of healthy people and people with epilepsy. The study investigates how changes in brain metabolism (sugar consumption, measured by positron emission tomography \[FDG-PET\], and blood flow, measured by functional magnetic resonance imaging \[fMRI\]) relate to abnormal interictal electrical activity associated with epilepsy (measured by electroencephalography \[EEG\]). The study will also compare how the three imaging modalities localize regions of abnormal function in the brain.
The goal of this clinical trial is to learn if attention and ways of thinking impact decision-making and brain processes related to decision-making in people with schizophrenia or schizoaffective disorder relative to people without either condition. It will also learn how brain functioning during decision-making relates to real-world decisions made during daily life. The main questions it aims to answer are: * Does paying attention to specific information impact decision-making and brain processes? * Does thinking in a certain way according to specific 'thinking strategies' improve brain processes related to decision-making? * Does brain functioning during decision-making relate to real-world choices to engage in activities? Researchers will compare brain functioning and decision-making on computer tasks of gambling after participants have been trained to use a positive thinking strategy. They will compare what is different in the brain and behavior when participants use this strategy and when they do not. Participants will also answer brief surveys about activities and feelings for a week in their daily lives. Participants will: * Complete several hours of clinical interviewing, cognitive tests, and surveys of about symptoms, experiences, and personality * Complete computer tasks about gambling decisions during MRI brain scanning and while having their visual attention measured using eye-tracking * Complete brief surveys about their activities and feelings 5 times a day for 1 week using a cell phone. Each survey only take several minutes.
The novel coronavirus SARS-CoV-2 infection, COVID, continues to rage throughout the world with 115,000,000 confirmed cases and over 2,500,000 deaths (as of Mar 3, 2021). This translates to millions of people surviving COVID19 infection. While the lungs are ground zero, COVID tears through organ systems from brain to blood vessels. We are now beginning to see people recover but complain of ongoing problems, including lingering cognitive problems, depression, and anxiety. We have brought together 2 laboratories with complementary techniques including psychological testing and neuroimaging methods togethers with markers in the blood that may signal damage in the brain. A close look at these problems is timely and imperative if we are to understand the pathophysiology of 'COVID brain' and prepare for downstream problems.
Although there is increasing recognition that the cerebellum is involved in cognition as well as motor function, the manner in which the cerebellum contributes to cognition is uncertain. One theory that might account for both motor and cognitive contributions of the cerebellum is that the cerebellum is involved in sequencing of relevant events or stimuli. Previous experiments have suggested that disruption of the cerebellum impairs the prediction of the next event in a sequence. The present experiment will examine the impact of cerebellar stimulation on brain activation during the performance of both sequence-demanding and non-sequence-demanding tasks.
Deficits in motivation and pleasure are common in depression, and thought to be caused by alterations in the ways in which the brain anticipates, evaluates, and adaptively uses reward-related information. However, reward processing is a complex, multi-circuit phenomenon, and the precise neural mechanisms that contribute to the absence or reduction of pleasure and motivation are not well understood. Variation in the clinical presentation of depression has long been a rule rather than an exception, including individual variation in symptoms, severity, and treatment response. This heterogeneity complicates understanding of depression and thwarts progress toward disease classification and treatment planning. Discovery of depression-specific biomarkers that account for neurobiological variation that presumably underlies distinct clinical manifestations is critical to this larger effort.
EFFEKTOR is a vanguard, multicenter, phase 2 randomized, double blinded, placebo controlled clinical trial to determine the feasibility, tolerability, safety, and efficacy of finerenone in kidney transplant recipients (KTRs). One hundred fifty (150) KTRs will be randomized in a 2:1 ratio of finerenone to placebo, with two embedded substudies: (i) a kidney biopsy substudy in 50 participants who undergo a research kidney biopsy prior to randomization and at the end of active treatment; and (ii) a functional MRI (fMRI) substudy in 50 participants who undergo fMRI prior to randomization and at the end of active treatment.