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Active clinical trials for "Pick Disease of the Brain"

Results 71-80 of 249

Neurofilament Surveillance Project (NSP)

Frontotemporal DementiaFrontotemporal Lobar Degeneration1 more

This is a biomarker study designed to collect and analyze blood specimens from individuals carrying known familial frontotemporal lobar degeneration (f-FTLD) mutations compared to a control group of individuals without known f-FTLD mutations. The NSP is an ancillary study to the ARTFL LEFFTDS Longitudinal Frontotemporal Lobar Degeneration" (ALLFTD) study, NCT04363684. More information can be found at https://www.allftd.org/.

Recruiting8 enrollment criteria

Evaluation of Biochemical Markers and Clinical Investigation of Niemann-Pick Disease, Type C

Niemann-Pick DiseaseType C

This study will evaluate clinical and laboratory tests that might be useful in determining if an investigational drug can slow the progression of Niemann-Pick Disease, Type C (NPC), a genetic disorder that results in progressive loss of nervous system function. The study will: 1) look for a clinical or biochemical marker that can be used as a measure of response to treatment, and 2) define the rate of progression of biochemical marker abnormalities in a group of NPC patients who will later be invited to enroll in a treatment trial. Patients of any age with NPC may be eligible for this study. Participants undergo the following procedures every 6 months during 4- to 5-day admissions at the NIH Clinical Center. Medical evaluation, including medical history, physical exam, neurological exam, neuropsychometric evaluation, and blood and urine tests. Lumbar puncture (spinal tap): A sample of cerebrospinal fluid (CSF), the fluid that bathes the brain and spinal cord, is obtained for study. After administration of a local anesthetic, a small needle is inserted in the space between the bones in the lower back where the CSF circulates below the spinal cord. A small amount of fluid is collected through the needle. Eye exam and eye movement study: The pupils of the eye are dilated to examine the structures of the eyes. For the eye movement study a special contact lens is placed on the eye and the patient looks at a series of target light spots moving on a screen. Hearing tests. Electroretinography (in patients who can cooperate with the test) to measure the function of the retina. Before the test, the patient's pupils are dilated and an electrode (small silver disk) is taped to the forehead. The patient sits in a dark room for 30 minutes and then a special contact lens is placed on one eye after it has been numbed with drops. The contact lens senses small electrical signals generated by the retina when lights flash. During the ERG recording, the eye is stimulated with flashes of light projected inside a hollow sphere. After the test, a full eye exam is done and photographs of the retina are taken. Magnetic resonance imaging (MRI): This test uses a magnetic field and radio waves to produce images of the brain and obtain information about brain chemicals. The patient lies on a table that can slide in and out of the scanner (a narrow cylinder), wearing earplugs to muffle loud knocking and thumping sounds that occur during the scanning process. Patients who cannot remain still in the scanner may be sedated for the test. Psychometric testing: Patients complete questionnaires. Photographs of the patient may be taken for use in teaching sessions or scientific presentations or publications, with the patient's consent. Patients may be recognizable, but are not identified by name. Pregnancy test in all female patients over 10 years of age at the beginning of each admission to the Clinical Center.

Recruiting19 enrollment criteria

Lemborexant for Insomnia in a Patient With Dementia: An N-of-1 Trial

InsomniaDementia1 more

Insomnia is a highly common, chronic disorder that is distressful for the patient but also for caregivers and can give rise to a heavy burden on the healthcare team. Sleeping aids like benzodiazepines and other sedatives (e.g., zolpidem, zopiclone) have been widely used to help treat insomnia. However, sleeping aids are also known to cause adverse drug reactions such as drowsiness and dizziness, that increases the risk of falls, driving impairment, visual impairment, cognitive impairment, and upon discontinuation may cause paradoxical rebound insomnia, delirium, and nightmares all of which exacerbate the initial insomnia. All of the negative aspects of sleeping aid use are exaggerated for older, frail adults. Some patients experience an early (young-age) onset dementia with a substantial component of insomnia. Due to the many risks associated with traditional sleeping aids they are often inappropriate in adults living with cognitive impairment and/or frailty. Lemborexant comes from a new class of medications for insomnia. Lemborexant is a dual orexin receptor antagonist that blocks the binding of wake-promoting neuropeptides orexin A and orexin B to their receptors orexin 1 receptor (OX1R) and orexin 2 receptor (OX2R), which is thought to suppress wake drive. Unlike other traditional sleeping aids, lemborexant has not shown to be significantly associated with driving impairment, rebound insomnia, or dependence/withdrawal symptoms. Also, in clinical trials it only rarely causes the types of adverse events associated with benzodiazepines and other traditional sedatives and is less often associated with discontinuations due to adverse events. While lemborexant is available on the Canadian market it is unclear how this medication will be tolerated by patients living with an early onset dementia. Understanding the effectiveness and tolerability of lemborexant will be helpful in an N of 1 trial to understand the details of effect and effectiveness in individual patients.

Not yet recruiting2 enrollment criteria

Longitudinal Cognitive Assessment by BoCA

Alzheimer DiseaseMild Cognitive Impairment5 more

The Boston Cognitive Assessment (BoCA) is a self-administered online test intended for longitudinal cognitive monitoring. BoCA uses random not-repeating tasks to minimize learning effects. BoCA was developed to evaluate the effects of treatment in longitudinal clinical trials and available gratis to individuals and professionals.

Recruiting2 enrollment criteria

Functional Near-Infrared Spectroscopy (fNIRS) Combined With Diffuse Correlation Spectroscopy (DCS)...

Juvenile Neuronal Ceroid LipofuscinosisSmith-Lemli-Opitz Syndrome2 more

Background: Neurocognitive disorders affect how the brain uses oxygen. They may affect mental development in children. These disorders can be studied with imaging scans that use radiation; however, these methods are not ideal for research on children. Two technologies-functional near-infrared spectroscopy (fNIRS) and diffuse correlation spectroscopy (DCS)-use light to detect changes in brain activity. These methods are safer, and they can be used in a more relaxed setting. In this natural history study, researchers want to find out whether fNIRS and DCS can be a good way to study people with neurocognitive disorders. Objective: To find out whether fNIRS and DCS can be useful in measuring brain activity in people with neurocognitive disorders. Eligibility: People aged 6 months or older with neurocognitive disorders. These can include Niemann-Pick disease type C1 (NPC1); creatine transporter deficiency (CTD); Smith Lemli Opitz syndrome (SLOS); juvenile neuronal ceroid lipofuscinosis (CLN3 disease); and Pheland-McDermid (PMS) syndrome. Healthy volunteers are also needed. Design: Participants will have a physical exam. They will have tests of their memory and thinking. Participants will sit in a quiet room for the fNIRS and DCS tests. A snug cap (like a cloth swim cap) will be placed on their head. The cap has lights and sensors. Another sensor will be placed on their forehead. Participants will perform tasks on a computer. This testing will take 45 to 60 minutes. The tests will be repeated within 1 to 4 weeks. Participants will be asked to return for repeat tests 1 year later....

Recruiting16 enrollment criteria

Memory and Social Interactions

Alzheimer DiseaseSemantic Dementia

Memory and social interaction are intimately linked. On the one hand, social interaction is a privileged context for learning, and on the other hand, appropriate social interactions involve remembering the partners encountered and previous exchanges. People with Alzheimer's disease classic syndrome variant (AD) have a major impairment of episodic memory, while people with the semantic variant of primary progressive aphasia (SPPA) are characterized by semantic disorders in the foreground, associated with changes in their social behavior with a tendency to egocentricity. In both cases, patients frequently have reduced social interactions. Although social interaction situations seem to constitute a privileged learning context, their effectiveness for patients with cognitive disorders must be evaluated and the conditions under which they are effective must be established. The main objective of this study is to determine whether social interaction constitutes a beneficial context for learning new information and whether the presence of social behavior disorders alters this benefit. More broadly, the goal is to better understand the mechanisms underlying the possible beneficial effect of learning in social contexts and to clarify the links between memory performance in different social contexts, cognitive disorders, social behavioral changes and personality traits. Finally, a description will be made of the brain substrates associated with memory performance obtained during learning in social contexts in order to investigate their particularities. Thirty couples each including a person with AD, 16 couples each including a person with SPPA and 46 couples of persons without cognitive complaints (HC), one of which will be matched in gender and age to one of the patients, will be included in the study. Participants will perform image location learning in a grid, in three social contexts in which both members of the couple are involved: 1) simple presence of others, 2) by observation and 3) in collaboration. A psychometric assessment including social cognition and classical tests assessing memory, and questionnaires concerning global executive functioning, social behavior and personality will be offered to all participants. Patients in the AD and SPPA groups and the matched individual in the HC group will undergo anatomical and functional brain magnetic resonance imaging (MRI).

Recruiting13 enrollment criteria

Establishment of Genomic and Phenotypic Database for Niemann-Pick Disease, Type C

Niemann-Pick DiseaseType C

Background: Niemann-Pick type C (NPC) disease is a rare, progressive neurodegenerative disease that affects mainly the brain, liver, and spleen but also other parts of the body. There is no cure for NPC, and symptoms only get worse over time. Symptoms can include seizures, difficulty moving or talking, or dementia. But symptoms can vary among different people with the disease. Some may have seizures, while others do not, for example. Some people begin showing symptoms in childhood; in others, symptoms may not appear until they are adults. Researchers want to learn more about why NPC affects people differently. This natural history study will gather data from people with NPC in order to understand more about the disease and how it affects the body. Objective: This study will create the first and largest database about NPC. Eligibility: People of any age who have NPC. Design: Participants will have blood drawn from a vein. This will happen only once. The blood will be used to analyze the participants DNA. The participants medical records will be reviewed. The study team will collect data on participants NPC diagnosis and symptoms; they will record how long participants have had each symptom. The study team will also collect data on each participants age, sex, race, height, weight, medications, and other test results. The study team will communicate with participants. They will discuss the study and answer any questions. Participants will receive up to $190.

Recruiting9 enrollment criteria

The Neurobiology of Two Distinct Types of Progressive Apraxia of Speech

Apraxia of SpeechNon-fluent Aphasia2 more

The purpose of this study is to identify and distinguish two different types of Progressive Apraxia of Speech through clinical imaging and testing.

Recruiting9 enrollment criteria

Modifiable Variables in Parkinsonism (MVP)

Parkinson's DiseaseParkinsonism7 more

We are trying to identify factors associated with improved quality of life and fewer PD symptoms. We are attempting to identify practices, beliefs, and therapies used by individuals who report excellent quality of life, few PD symptoms, and reduced rates of progression. After agreeing to participate, we will ask participants to fill our questionnaires about their experience with PD, their health in general, along with their food intake every six months for five years.

Recruiting7 enrollment criteria

Transcranial Direct Current Stimulation in the Treatment of Primary Progressive Aphasia

Primary Progressive AphasiaLogopenic Progressive Aphasia1 more

While many have strongly suggested that transcranial direct current stimulation (tDCS) may represent a beneficial intervention for patients with primary progressive aphasia (PPA), this promising technology has not yet been applied widely in clinical settings. This treatment gap is underscored by the absence of any neurally-focused standard-of-care treatments to mitigate the devastating impact of aphasia on patients' family, work, and social lives. Given that tDCS is inexpensive, easy to use (it is potentially amenable to home use by patients and caregivers), minimally invasive, and safe there is great promise to advance this intervention toward clinical use. The principal reason that tDCS has not found wide clinical application yet is that its efficacy has not been tested in large, multi-center, clinical trials. In this study, scientists in the three sites that have conducted tDCS clinical trials in North America-Johns Hopkins University and the University of Pennsylvania in the US, and the University of Toronto in Canada, will collaborate to conduct a multi-site, Phase II clinical trial of tDCS a population in dire need of better treatments.

Not yet recruiting23 enrollment criteria
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