
Search Clinical Trials
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Study of the Esophageal String Test (EST) for the Diagnosis of Helicobacter Pylori
National Institute of Allergy and Infectious Diseases (NIAID)
Helicobacter Pylori
Background:
Helicobacter pylori is a bacterium that infects the lining of the stomach and intestines.
It can cause peptic ulcers, cancers, and infections. Current methods of diagnosing H.
pylori infections have limitations. Researchers want to test a new method of testing for
H. pylori.
Objective1 expand
Background: Helicobacter pylori is a bacterium that infects the lining of the stomach and intestines. It can cause peptic ulcers, cancers, and infections. Current methods of diagnosing H. pylori infections have limitations. Researchers want to test a new method of testing for H. pylori. Objective: To compare the esophageal string test (EST) to standard tests for detecting H. pylori infection. Eligibility: People aged 18 years or older with persistent H. pylori infection. Design: Participants will have 3 or 4 clinic visits over 2 to 4 months. Screening visit: Participants will have a physical exam. They will provide a stool sample. Baseline visit: Participants will have blood tests. Then they will have the EST: One end of a string will be taped to the outside of their cheek; the other end will be packed into a capsule. Participants will swallow the capsule, and the string will unwind down their throat into their stomach. The string will be left in for at least 1 hour. Then researchers will gently pull out the string. The fluids soaked into the string will be studied. Some participants will be prescribed antibiotics. Follow-up visit 1: Participants whose H. pylori infection was cured by the antibiotics may leave the study. Those who are still infected will have an endoscopy: A flexible tube will be inserted down the throat and into the stomach. It will take tissue samples from the stomach lining. These participants will then receive antibiotics again. Follow-up visit 2: The physical exam, blood test, and stool sample will be repeated. ... Type: Interventional Start Date: Jun 2025 |
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Food-Specific and Component IgE Threshold Levels That Predict Food Allergy in People With Elevated1
National Institute of Allergy and Infectious Diseases (NIAID)
Milk and/or Peanut Allergy
Background:
Atopic dermatitis (AD), also called eczema, makes skin dry, red, and itchy. People with
AD are more likely to get a food allergy than people without AD. But some food allergy
tests are not always accurate in people with AD. Researchers want to study if people are
truly allergic to milk1 expand
Background: Atopic dermatitis (AD), also called eczema, makes skin dry, red, and itchy. People with AD are more likely to get a food allergy than people without AD. But some food allergy tests are not always accurate in people with AD. Researchers want to study if people are truly allergic to milk and/or peanuts. Objectives: To improve the ways doctors test for food allergy in people with AD. Eligibility: People ages 3-21 who have had AD; have a high total IgE level (an allergic antibody); might have a milk and/or peanut allergy; and are currently enrolled in another NIH study Design: Participants will be screened under another protocol. Participants will have a physical exam, blood tests, and medical history. Participants will breathe into a plastic device that measures lung strength. Participants may get a small plastic tube inserted in their arm. Participants who have not had an allergic reaction to food in the past 3 years will do 1 or more oral food challenge (OFCs) depending on their allergies. They will eat a little bit of the food they might be allergic to. They will be watched for a reaction. If they have one, they will know for sure they are allergic. They may keep eating bigger portions of the food until they either have a reaction or finish all the food. In some OFCs, participants will get a placebo food. OFCs will last a few hours or 2 days. Participants will repeat all tests at each OFC. Participation can last up to 12 months. ... Type: Interventional Start Date: Apr 2019 |
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Diagnosis and Management of Inflammatory and Infectious Diseases
National Institute of Allergy and Infectious Diseases (NIAID)
Infection
Inflammation
This protocol is being established to cover the evaluation of patients with inflammatory
and/or infectious diseases which are not covered under previously existing protocols. The
purpose of such a protocol is that frequently patients are referred to us with either
diagnosed or undiagnosed illnesses1 expand
This protocol is being established to cover the evaluation of patients with inflammatory and/or infectious diseases which are not covered under previously existing protocols. The purpose of such a protocol is that frequently patients are referred to us with either diagnosed or undiagnosed illnesses which would be of interest to our teaching program or which would serve as a source of patients to subsequently be entered into established, ongoing protocol studies. Such patients will be admitted to the protocol and handled according to accepted medical practice of diagnosis and treatment. Type: Observational Start Date: Feb 1978 |
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Lentiviral Gene Transfer for Treatment of Children Older Than Two Years of Age With X-Linked Severe1
National Institute of Allergy and Infectious Diseases (NIAID)
X-linked Severe Combined Immunodeficiency (XSCID)
This is a Phase I/II non-randomized clinical trial of ex vivo hematopoietic stem cell
(HSC) gene transfer treatment for X-linked severe combined immunodeficiency (XSCID, also
known as SCID-X1) using a self-inactivating lentiviral vector incorporating additional
features to improve safety and perfor1 expand
This is a Phase I/II non-randomized clinical trial of ex vivo hematopoietic stem cell (HSC) gene transfer treatment for X-linked severe combined immunodeficiency (XSCID, also known as SCID-X1) using a self-inactivating lentiviral vector incorporating additional features to improve safety and performance. The study will treat 35 patients with XSCID who are between 2 and 50 years of age and who have clinically significant impairment of immunity. Patients will receive a total busulfan dose of approximately 6 mg/kg/body weight (target busulfan Area Under Curve is 4500 min*micromol/L/day) delivered as 3mg/kg body weight on day 1 and dose adjusted on day 2 (if busulfan AUC result is available) to achieve the target dose, to condition their bone marrow, and this will be followed by a single infusion of autologous transduced CD34+HSC. Patients will then be followed to evaluate engraftment, expansion, and function of gene corrected lymphocytes that arise from the transplant; to evaluate improvement in laboratory measures of immune function; to evaluate any clinical benefit that accrues from the treatment; and to evaluate the safety of this treatment. The primary endpoint of the study with respect to these outcomes will be at 2 years, though data relevant to these measures will be collected at intervals throughout the study and during the longer follow-up period of at least 15 years recommended by the Food and Drug Administration (FDA) Guidance "Long Term Follow-Up After Administration of Human Gene Therapy Products" https://www.fda.gov/media/113768/download for patients participating in gene transfer clinical trials. XSCID results from defects in the IL2RGgene encoding the common gamma chain (yc) shared by receptors for Interleukin 2 (IL-2), IL-4, IL-7, IL-9, IL-15 and IL-21. At birth XSCID patients generally lack or have a severe deficiency of T-lymphocytes and NK cells, while their B- lymphocytes are normal in number but are severely deficient in function, failing to make essential antibodies. The severe deficiency form of XSCID is fatal in infancy without intervention to restore some level of immune function. The best current therapy is a T-lymphocyte-depleted bone marrow transplant from an HLA tissue typing matched sibling, and with this type of donor it is not required to administer chemotherapy or radiation conditioning of the patient's marrow to achieve excellent engraftment and immune correction of an XSCID patient. However, the great majority of patients with XSCID lack a matched sibling donor, and in these patients the standard of care is to perform a transplant of T- lymphocyte depleted bone marrow from a parent. This type of transplant is called haploidentical because in general a parent will be only half- matched by HLA tissue typing to the affected child. Whether or not any conditioning is used, haploidentical transplant for XSCID has a significantly poorer prognosis than a matched sibling donor transplant. Following haploidentical transplant, XSCID patients are observed to achieve a wide range of partial immune reconstitution and that reconstitution can wane over time in some patients. That subset of XSCID patients who either fail to engraft, fail to achieve adequate immune reconstitution, or lose immune function over time suffer from recurrent viral, bacterial and fungal infections, problems with allo- or autoimmunity, impaired pulmonary function and/or significant growth failure. We propose to offer gene transfer treatment to XSCID patients^3 >= 2 years of age who have clinically significant defects of immunity despite prior haploidentical hematopoietic stem cell transplant, and who lack an HLA-matched sibling donor. Our current gene transfer treatment protocol can be regarded as a salvage/rescue protocol. Prior successful retroviral gene transfer treatment instead of bone marrow transplant (BMT) in Paris and London for 20 infants with XSCID has provided proof of principle for efficacy. However, a major safety concern is the occurrence of 5 cases of leukemia at 3-5 years after treatment triggered in part by vector insertional mutagenesis activation of LMO2 and other DNA regulatory genes by the strong enhancer present in the long-terminal repeat (LTR) of the Moloney Leukemia Virus (MLV)- based vector. Furthermore, previous studies of gene transfer treatment of older XSCID patients with MLV- based vectors demonstrated the additional problem of failure of adequate expansion of gene corrected T- lymphocytes to the very high levels seen in infants. To reduce or eliminate this leukemia risk, and possibly enhance performance sufficiently to achieve benefit in older XSCID patients, we have generated a lentivector with improved safety and performance features. We have generated a self-inactivating (SIN) lentiviral vector that is devoid of all viral transcription elements; that contains a short form of the human elongation factor 1a (EF1a) internal promoter to expres...... Type: Interventional Start Date: Sep 2012 |
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Evaluation of Biochemical Markers and Clinical Investigation of Niemann-Pick Disease, Type C
Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)
Niemann-Pick Disease, Type 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 clinica1 expand
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. Type: Observational Start Date: Aug 2006 |
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Baricitinib in the Treatment of Kohlmeier-Degos Disease in Patients With Neurological Involvement
National Heart, Lung, and Blood Institute (NHLBI)
Kohlmeier-Degos Disease
Malignant Atrophic Papulosis
Degos Disease
Papulosis, Malignant Atrophic
Background:
Kohlmeier-Degos (KD) is a rare disease that causes inflammation and blood clots, leading
to blockages in small blood vessels. These blockages can result in K-D lesions throughout
the body, affecting the skin, lungs, heart, spinal cord, and brain. KD can be fatal. No
treatment exists fo1 expand
Background: Kohlmeier-Degos (KD) is a rare disease that causes inflammation and blood clots, leading to blockages in small blood vessels. These blockages can result in K-D lesions throughout the body, affecting the skin, lungs, heart, spinal cord, and brain. KD can be fatal. No treatment exists for this disease. Objective: To test a study drug (baricitinib) in people with brain and spine lesions caused by KD disease. Baricitinib is FDA approved to treat other disorders but has not yet been tried in people with KD. Eligibility: People aged 18 years or older with KD-related lesions in the brain and spine. Design: Participants will be screened; they will have a physical exam with blood tests. They will also have a baseline visit that may include multiple tests, such as imaging scans of the brain and spine; a lumbar puncture to collect fluid from the spinal canal; and a meeting with a neurologist. They will fill out a questionnaire about their health. They will continue to take their normal medications throughout the study. Baricitinib is a tablet taken by mouth. Participants will remain on their normal medications for 12 weeks after their baseline visit. Then they will also take the study drug once a day at home for 24 weeks. Participants will have clinic visits every few weeks for up to 40 weeks. Some visits may take 1 to 4 days. Baseline tests will be repeated 3 more times during study visits. Other visits will require only blood tests; these may be done by local labs that will send the samples to NIH; 2 visits may be done via telehealth.... Type: Interventional Start Date: Feb 2026 |
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Evaluate the Efficacy and Safety of Ruxolitinib on Hair Regrowth in Patients With Autoimmune Polyen1
National Institute of Allergy and Infectious Diseases (NIAID)
Autoimmune Polyendocrinopathy Candidiasis Ectodermal Dystrophy (Apeced)
Alopecia Areata
Background:
Autoimmune polyendocrinopathy candidiasis ectodermal dystrophy (APECED) is a problem of
the immune system. In people with APECED, the immune system makes a mistake and attacks
the body. Some people with APECED have a type of hair loss called alopecia areata (AA).
No drugs are approved1 expand
Background: Autoimmune polyendocrinopathy candidiasis ectodermal dystrophy (APECED) is a problem of the immune system. In people with APECED, the immune system makes a mistake and attacks the body. Some people with APECED have a type of hair loss called alopecia areata (AA). No drugs are approved to treat AA. Objective: To see if a study drug (ruxolitinib) can help hair regrowth in people with APECED-associated AA and if it can improve other symptoms caused by the immune system s attack to the body. Eligibility: People aged 12 to 65 years with APECED and severe AA. Design: Participants will be in this study for up to 10 months. They will have 5 in-person visits and 6 televisits, each about 4 weeks apart. One in-person visit may be up to a 10-day stay in the hospital. The first in-person visit will include screening. Participants will have a physical exam. They will have blood tests. Photographs may be taken of their skin. They will answer questions about their quality of life. Participants will begin taking the study drug during their hospital stay. They will take the pills by mouth twice a day for 8 months. Researchers may take tissue samples from participants scalp, gums, and lower lip. Participants may provide samples of urine, stool, nail clippings, and saliva. They may have an eye exam and an ultrasound exam of their abdomen. Some tests may be repeated in subsequent in-person visits. In telehealth visits, participants will answer questions about how they are feeling. They will describe and send photos of hair regrowth. They will be asked to have blood drawn and the results sent to the researchers. Type: Interventional Start Date: Jan 2023 |
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Prospective Evaluation of High Resolution Dual Energy Computed Tomographic Imaging, Noninvasive (Li1
National Cancer Institute (NCI)
Familial Cancer
BRCA1-Associated Protein-1 (BAP1) Mutations
Tumor Predisposition Syndrome (TPDS)
Mesothelioma
Background:
A germline mutation is a change to a person s genes that is carried through their DNA.
These mutations can be passed on from parents to their offspring. Germline mutations in a
gene called BAP1 are linked to the development of mesothelioma and other cancers.
Researchers want to follow1 expand
Background: A germline mutation is a change to a person s genes that is carried through their DNA. These mutations can be passed on from parents to their offspring. Germline mutations in a gene called BAP1 are linked to the development of mesothelioma and other cancers. Researchers want to follow people with these mutations to learn more. Objective: To see if researchers can improve how people who have or are suspected to have a BAP1 mutation are monitored over time. Eligibility: People age 30 and older who are suspected to have a BAP1 germline mutation. Design: Participants will be screened with a personal and family medical history. Their medical records may be reviewed. They will give a blood or saliva sample to test for a BAP1 mutation. They will get genetic counseling. To take part in this study, participants will enroll on 2 to 3 other protocols. Participants will have a physical exam. They may have a tumor biopsy. They will give blood and urine samples. They will have skin and eye exams. Some participants will have video-assisted thoracoscopy to examine the chest and lungs and diagnose suspicious areas. For this, a small camera is inserted into the chest through a small incision. Some participants will have laparoscopy to examine the organs inside the abdomen. For this, a small camera is inserted into the abdomen through a small incision. Participants will have imaging scans of the chest, abdomen, and pelvis. They may have brain scans. Participants will visit the NIH once a year for follow-up exams. Participation lasts indefinitely. Type: Observational Start Date: Mar 2021 |
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Collection and Analysis of Blood, Bone Marrow, and Buccal Mucosa Samples From Healthy Volunteers
National Heart, Lung, and Blood Institute (NHLBI)
Healthy Volunteers
The Hematology Branch of the National Heart, Lung, and Blood Institute is doing a variety
of laboratory research experiments that require blood and tissue samples from healthy
volunteers. This protocol provides a mechanism for collecting these tissue samples.
Research includes studies of normal and1 expand
The Hematology Branch of the National Heart, Lung, and Blood Institute is doing a variety of laboratory research experiments that require blood and tissue samples from healthy volunteers. This protocol provides a mechanism for collecting these tissue samples. Research includes studies of normal and abnormal formation of blood cells, viral blood diseases, the role of the immune system in marrow failure and genetic risk factors for aplastic anemia. Healthy normal volunteers 8 years of age and older may be eligible for this study. Samples are collected as follows: - Blood samples: Participants 8 years of age and older donate up to 4 tablespoons of blood, which is obtained from a needle placed in an arm vein. - Participants 8 years of age and older donate a buccal mucosa sample (cells from the inside of the cheek). The inside of the cheek is scraped gently with a nylon brush. - Participants 18 years of age and older donate a bone marrow sample. The bone marrow is obtained from the hip bone. The skin over the area is wiped clean with alcohol and iodine, and then a local anesthetic is injected under the skin and also into the bone. When the area is numb, a bone marrow aspiration needle is introduced through the bone surface into the marrow. The marrow cells are collected using a syringe connected to the needle. Type: Observational Start Date: Mar 2007 |
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Study of Skeletal Disorders
Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD)
Skeletal Disorders
Background:
There are 461 conditions that affect the bones (skeletal disorders). Many of these are
not well understood and do not have any specific treatments. Researchers want to collect
more data about these conditions.
Objective:
To gain more information about the causes of skeletal disorders1 expand
Background: There are 461 conditions that affect the bones (skeletal disorders). Many of these are not well understood and do not have any specific treatments. Researchers want to collect more data about these conditions. Objective: To gain more information about the causes of skeletal disorders and how they progress over time. Eligibility: People ages 2 months or older with known or suspected skeletal disorders or history of pregnancy affected by skeletal findings. Also, healthy family members of affected enrolled participants. Design: Participants can take part in the study either remotely or in person. Those who take part remotely may send in medical records, blood samples, photographs, and other materials. Participants medical records will be reviewed. They may give blood and/or urine samples. They will give blood, saliva, or tissue samples for genetic tests. They may have genetic counseling. Participants ages 2 years and older may have different kinds of imaging scans, such as x-rays. For these scans, they may have to lie still while machines take pictures of their bones. Participants with skeletal disorders who come to the clinic will be examined. They may be asked to stay in the hospital for a few days to take extra tests. They may have a bone or skin biopsy. Participants with skeletal disorders may be photographed to show the effects of their disorder and how it changes over time. For participants with skeletal disorders, their blood or tissue samples may be used to make a special type of stem cell. These cells can be used in the laboratory to make many other types of cells. A large supply of these cells may be created for research. Participation will last indefinitely. Type: Observational Start Date: Jan 2022 |
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Investigating New Methods to Study Movement in Children and Young Adults With Movement Disorders.
National Institutes of Health Clinical Center (CC)
Cerebral Palsy
Background:
Cerebral palsy (CP) is the most common motor disorder that affects children. People with
CP have weak muscles; they may have trouble controlling the movements of their arms and
legs. Researchers have been developing braces called robotic exoskeletons for people with
CP. These devices c1 expand
Background: Cerebral palsy (CP) is the most common motor disorder that affects children. People with CP have weak muscles; they may have trouble controlling the movements of their arms and legs. Researchers have been developing braces called robotic exoskeletons for people with CP. These devices can adapt to the person s movements and help them move better. This natural history study will explore new technologies that may tell us more about how people with CP move and improve how these exoskeletons work. Objective: To test new technologies to measure people s movements and brain function while they move with and without a robotic exoskeleton. Eligibility: People aged 5 to 25 years with CP. Healthy volunteers are also needed. Design: Participants will have 3 to 5 clinic visits in 2 months. Participants will be fitted with an exoskeleton that will be worn on one of their legs. At each visit, participants will be asked to move their wrist, ankle, and knee while the following measurements are taken: Ultrasound. A bar will be placed against the skin. It will send soundwaves into the body to take pictures of the muscles. Electroencephalography (EEG). Participants will wear a cap with sensors. Their brain waves will be recorded. Electromyography (EMG). Small metal discs will be taped to the skin. They will measure electrical activity of muscle. Participants will flex and extend each joint (wrist, ankle, or knee) on one side of their body. These movements will be done on their own and while assisted by two devices: Functional electrical stimulation (FES). Small adhesive pads will be placed on the skin and electric. Pulses will stimulate muscles to help move the limb. This will be done for the wrist, ankle and knee. Robotic Exoskeleton. A leg brace will be placed on one limb with a motor that will help move the knee. The exoskeleton can be used with or without FES. Participants will also walk on a treadmill at their own pace. Photographs and videos will record how they move. Type: Observational Start Date: Feb 2025 |
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The Beneficial Effects of Naps on Motor Learning
National Institute of Neurological Disorders and Stroke (NINDS)
Stroke
Background:
Memory consolidation is the process by which memories become stable, long-term
representations in the brain. Consolidation of a motor skill is dependent upon sleep.
Some research shows that daytime naps improve people s motor performance and memory
retention. Researchers want to find o1 expand
Background: Memory consolidation is the process by which memories become stable, long-term representations in the brain. Consolidation of a motor skill is dependent upon sleep. Some research shows that daytime naps improve people s motor performance and memory retention. Researchers want to find out how daytime naps may contribute to learning and support consolidation of motor skill memories. Objective: To learn the role of memory replay during wakeful rest and sleep (naps) in retaining a newly learned skill. Eligibility: English-speaking adults ages 18 and older with chronic stroke, or healthy, right-handed, English-speaking adults ages 18-35 and 50-80 Design: Participants will be screened with: - medical history - neurological history - medicine review - medical exam - neurological exam. Participants will have a magnetic resonance imaging (MRI) scan of the brain. For this, they will lie down in a scanner. The scanner makes loud noises, so they will wear earplugs. They will fill out an MRI screening form before each MRI. Participants will also have magnetoencephalography (MEG). MEG maps brain activity. It does this by recording the magnetic fields produced by naturally occurring electrical currents in the brain. For MEG, participants will lie down in the MEG room. Their eye movements may be recorded by a video camera. Participants will have behavior testing. They will practice typing random keys. Then they will repeatedly type a custom sequence that they see on a computer screen. Then they will take a 2-hour nap. Then they will type the same sequence again. Participants will have no more than 4 visits at the NIH over 3 months. Visits will last 2-4 hours each. Type: Observational Start Date: Mar 2021 |
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Neuropharmacologic Imaging and Biomarker Assessments of Response to Acute and Repeated-Dosed Ketami1
National Institute of Mental Health (NIMH)
Healthy Volunteer
Major Depressive Disorder
Depression
Background:
Most medications that treat depression take weeks or months to work. Researchers want to
develop fast-acting treatments. One dose of ketamine has a rapid antidepressant effect.
For most people, this lasts a week or less. Repeated doses of ketamine may help maintain
this effect.
Object1 expand
Background: Most medications that treat depression take weeks or months to work. Researchers want to develop fast-acting treatments. One dose of ketamine has a rapid antidepressant effect. For most people, this lasts a week or less. Repeated doses of ketamine may help maintain this effect. Objective: Main Study: To study the effects of ketamine in treating depression. Ketamine Metabolites Substudy: To study how ketamine effects brain chemistry. To study how ketamine effects the brain. This is done by looking at metabolites, which are created when a drug is broken down. Eligibility: Main Study: People ages 18-65 with major depressive disorder and healthy volunteers Ketamine Metabolites Substudy: Healthy volunteers ages 18-65 Design: Main Study: Participants will be screened in another study, with: - Medical and psychiatric history - Psychiatric and physical exam - Blood, urine, and heart tests Participants will be inpatients at NIH for 4 phases totaling 14-20 weeks. Phase I (2-7 weeks): - Gradually stop current medications - MRI: Participants lie and perform tasks in a machine that takes pictures of the body. - Mood and thinking tests - Blood and urine tests - Sleep test: Monitors on the skin record brain waves, breathing, heart rate, and movement during sleep. - Transcranial magnetic stimulation: A coil on the scalp gives an electrical current that affects brain activity. - Stress tests: Electrodes on the skin measure reactions to loud noises or electric shocks. Phase I tests are repeated in Phases II and III and in the final visit. Phase II (4-5 weeks): - 4 weekly IV infusions of ketamine or a placebo during an MRI or MEG. For the MEG, a cone over the head records brain activity. Phase III (optional): - 8 infusions of ketamine over 4 weeks Phase IV (optional): - Symptoms monitoring for 4 weeks - Participants will have a final visit. They will be offered standard treatment at NIH for up to 2 months. Ketamine Metabolites Substudy: Participants will be screened in another study, with: - Medical and psychiatric history - Psychiatric and physical exam - Blood, urine, and heart tests Participants will be inpatients at NIH for 4 days. Study Procedures: Mood and thinking tests Blood and urine tests 1 infusion of ketamine Spinal tap and spinal catheter: Used to get samples of cerebrospinal fluid (CSF). This is a fluid that moves around and within the brain and spinal cord. Studying CSF will help us learn how ketamine effects brain chemistry Type: Interventional Start Date: May 2017 |
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Lu-177-DOTATATE (Lutathera) in Combination With Olaparib in Inoperable Gastroenteropancreatico Neur1
National Cancer Institute (NCI)
Gastroenteropancreatico Tumors
Neuroendocrine Tumors
Neuroendocrine Neoplasms
Background:
A neuroendocrine tumor is a rare type of tumor. It comes from body cells called
neuroendocrine cells. Sometimes, these tumors develop in the gastrointestinal tract and
pancreas. Researchers want to find out if a combination of drugs can shrink these tumors.
Objective:
To learn if peo1 expand
Background: A neuroendocrine tumor is a rare type of tumor. It comes from body cells called neuroendocrine cells. Sometimes, these tumors develop in the gastrointestinal tract and pancreas. Researchers want to find out if a combination of drugs can shrink these tumors. Objective: To learn if people with certain neuroendocrine tumors can take a combination of 2 drugs, Lutathera and Olaparib, without having severe side effects, and if this treatment makes the tumors shrink. Eligibility: Adults 18 and older who have a neuroendocrine tumor in the pancreas or intestine that cannot be cured by surgery and has somatostatin receptors on the cells. Design: Eligible participants will get Lutathera through an intravenous (IV) infusion every 8 weeks for 4 cycles. One cycle is 8 weeks. Each cycle includes a follow-up visit at week 4. For the IV, a small plastic tube is put into an arm vein. Participants will also take Olaparib by mouth twice a day for 4 weeks of each cycle. They will use a medicine diary to track the doses. During the study, participants will have physical exams. They will have blood and urine tests. They will fill out questionnaires about their general well-being and function. Their heart function will be tested. They will have scans of their chest, abdomen, and pelvis. One type of scan will use an IV infusion of a radioactive tracer. Participants will have a follow-up visit about 4 weeks after treatment ends. Then they will have follow-up visits every 12 weeks for 3 years. Then they will have yearly phone calls. Type: Interventional Start Date: Oct 2022 |
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Administering Peripheral Blood Lymphocytes Transduced With a CD70-Binding Chimeric Antigen Receptor1
National Cancer Institute (NCI)
Pancreatic Cancer
Renal Cell Cancer
Breast Cancer
Melanoma
Ovarian Cancer
Background:
In a new cancer therapy, researchers take a person s blood, select a certain white blood
cell to grow in the lab, and then change the genes of these cells using a virus. The
cells are then given back to the person. This is called gene transfer. For this study,
researchers will modify t1 expand
Background: In a new cancer therapy, researchers take a person s blood, select a certain white blood cell to grow in the lab, and then change the genes of these cells using a virus. The cells are then given back to the person. This is called gene transfer. For this study, researchers will modify the person s white blood cells with anti-CD70. Objectives: To see if a gene transfer with anti-CD70 cells can safely shrink tumors and to be certain the treatment is safe. Eligibility: Adults age 18 and older diagnosed with cancer that has the CD70-expressing cancer. Design: Participants will be screened with medical history, physical exam, scans, and other tests. They may by admitted to the hospital. Leukapheresis will be performed. For this, blood is removed through a needle in the arm. A machine separates the white blood cells. The rest of the blood is returned through a needle in the other arm. Eligible participants will have an intravenous catheter placed in their upper chest. Over several days, they will get chemotherapy drugs and the anti-CD70 cells. They will recover in the hospital. Participants will take an antibiotic for 6 months after treatment. They will repeat leukapheresis. Participants will visit the clinic every 1-3 months for the first year after treatment, every 6 months for the second year, and then as determined by their physician. Follow-up visits will take 1-2 days. At each visit, participants will have lab tests, imaging studies, and a physical exam. Throughout the study, blood will be taken and participants will have many tests to determine the size and extent of their tumor and the treatment s impact. Type: Interventional Start Date: Apr 2017 |
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The NIH MINI Study: Metabolism, Infection, and Immunity in Inborn Errors of Metabolism
National Human Genome Research Institute (NHGRI)
Oxidative Phosphorylation Deficiencies
Electron Transport Chain Disorders, Mitochondrial
Mitochondrial Disorders
Leigh Disease
The Metabolism, Infection and Immunity (MINI) Study is a longitudinal natural history
study at the National Institutes of Health (NIH) that aims to define the relationship
between infection, immunity and clinical decline in individuals with mitochondrial
disease. Mitochondrial diseases are a group1 expand
The Metabolism, Infection and Immunity (MINI) Study is a longitudinal natural history study at the National Institutes of Health (NIH) that aims to define the relationship between infection, immunity and clinical decline in individuals with mitochondrial disease. Mitochondrial diseases are a group of disorders caused by problems with the cell s ability to produce energy. Infection in individuals with mitochondrial disease can lead to worsening clinical symptoms, particularly neurologic symptoms. Goals: The main goal of our study is to understand the relationship between infection and clinical decline in patients with mitochondrial disease. Mitochondrial diseases can affect many different parts of the body, including the immune system and its ability to respond to infection. Therefore, we perform a comprehensive evaluation of participants including a detailed immunologic assessment. We are not testing any new medicine or procedure to treat or cure IEM or mitochondrial diseases. However, by understanding the relationship between infection and mitochondrial disease, we hope to develop treatments in the future. At the NIH, we are interested in research. Although we do provide advice and care for people enrolled in our study, we are not able to take over the long-term care of participants. To enroll in our study, you (your child) must already have a confirmed diagnosis of a mitochondrial disease. We are not able to provide a "first time" diagnosis or regular metabolic care. What is involved? Once you contact our team members, you will be asked to provide medical records to determine eligibility. Our team will review the records and notify you if you (your child is) eligible to join the study. -Onsite participation: You (your child) will be invited to visit the National Institutes of Health in Bethesda, Maryland. This first visit will typically last 3-5 days. Depending on the level of participation, additional visits may be requested. Our team members will work with you and your child to coordinate the supports needed during your stay at NIH. Study participants may be seen in the clinic, day hospital or inpatient setting. When you (your child) arrive at the NIH we will have an informed consent discussion to confirm willingness to participate, answer questions and review the risks and benefits of the study. You (your child) will meet with a physician who will ask about medical and family history and do a physical exam (like in any doctor's office). We will ask all study participants to allow us to collect urine, draw blood, swab your (your child s) nose, and perform a detailed assessment. We may suggest additional evaluations or specialty consults for some participants based on clinical manifestations, age and level of independence. We will explain these studies to you (your child). They may include items such as- imaging studies, DEXA or MRI scan, energy expenditure or metabolic testing, developmental neuropsychological logical testing, physiatry, ophthalmology, or other consults. In some cases, we may request a skin biopsy (if one has not been done). You will receive the results of your (your child's) clinical testing and notes from any clinical consultations. -Remote participation: If you (your child) are unable to travel, you (your child) may be enrolled remotely for records review, questionnaires, and telethealth exams. Blood or other samples collection may be requested in coordination with local providers or lab testing companies Type: Observational Start Date: Dec 2012 |
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The Effects of Increasing Caloric Intake on Diet-Induced Thermogenesis and 24h Energy Expenditure
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Obesity
Normal Physiology
Healthy Volunteers
Background:
Diet-induced thermogenesis (DIT) is the amount of energy one's body uses to eat food,
absorb the nutrients from the food, and process those nutrients. Researchers would like
to understand more about how changing the balances of protein, fat, carbohydrates, and
total calories in the die1 expand
Background: Diet-induced thermogenesis (DIT) is the amount of energy one's body uses to eat food, absorb the nutrients from the food, and process those nutrients. Researchers would like to understand more about how changing the balances of protein, fat, carbohydrates, and total calories in the diet can affect DIT. Objective: To learn how different diets can change a person's DIT. Eligibility: Healthy people aged 18 to 60 years who have not intentionally lost weight in the past 6 months. Design: Participants will stay in a clinic for about 35 days. They will eat only the food provided. They will receive 8 different diets during the study, including 7 test diets. Participants will undergo multiple tests. They will be screened with blood and urine tests and a test of their heart function. During the first few days: Their waist, thigh, and neck circumference will be measured. They will have a DXA scan: They will lie on a padded table for about 20 minutes while an instrument measures the amount of fat in their body. They will be tested for diabetes. They will answer questionnaires about topics including eating behavior, hunger, and stress. Throughout the study: Their weight will be measured daily. Blood tests will be repeated. They will stay in a metabolic chamber a total of 9 times. They will remain in a closed room for 24 hours while researchers monitor the room temperature and levels of oxygen and carbon dioxide. Participants will collect all their urine for each 24-hour period. ... Type: Interventional Start Date: Jun 2023 |
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Natural History of Acquired and Inherited Bone Marrow Failure Syndromes
National Heart, Lung, and Blood Institute (NHLBI)
Severe Aplastic Anemia
Telomere Biology Disorders
Inherited Bone Marrow Failure Syndromes
Background:
Bone marrow failure diseases are rare. Much is known about the diseases at the time of
diagnosis, but long-term data about the effects of the diseases and treatments are
lacking. Researchers want to better understand long-term outcomes in people with these
diseases.
Objective:
To fol1 expand
Background: Bone marrow failure diseases are rare. Much is known about the diseases at the time of diagnosis, but long-term data about the effects of the diseases and treatments are lacking. Researchers want to better understand long-term outcomes in people with these diseases. Objective: To follow people diagnosed with acquired or inherited bone marrow failure disease and study the long-term effects of the disease and its treatments on organ function. Eligibility: People aged 2 years and older who have been diagnosed with acquired or inherited bone marrow failure or Telomere Biology Disorder. First degree family members may also be able to take part in the study. Design: Participants will be screened with a medical history, physical exam, and blood tests. They may have a bone marrow biopsy and aspiration. For this, a large needle will be inserted in the hip through a small cut. Marrow will be drawn from the bone. A small piece of bone may be removed. Participants may also be screened with some of the following: Cheek swab or hair follicle sample Skin biopsy Urine or saliva sample Evaluation by disease specialists (e.g., lung, liver, heart) Imaging scan of the chest Liver ultrasounds Six-Minute Walk Test Lung function test Participants will be put into groups based on their disease. They will have visits every 1 to 3 years. At visits, they may repeat some screening tests. They may fill out yearly surveys about their medicines, transfusions, pregnancy, bleeding, and so on. They may have other specialized procedures, such as imaging scans and ultrasounds. Participation will last for up to 20 years. Type: Observational Start Date: Oct 2021 |
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Pilot Study to Investigate Magnetic Resonance (MR) Image Guided Focal Therapy in Prostate Cancer
National Cancer Institute (NCI)
Prostate Cancer
Background:
The ability to treat early prostate cancer is still limited. Thermal ablation methods are
being tested for focal prostate cancer therapy. Researchers want to improve on these
methods.
Objective:
To understand if Transurethral UltraSound Ablation (TULSA) in combination with MRI
guidan1 expand
Background: The ability to treat early prostate cancer is still limited. Thermal ablation methods are being tested for focal prostate cancer therapy. Researchers want to improve on these methods. Objective: To understand if Transurethral UltraSound Ablation (TULSA) in combination with MRI guidance is useful to treat localized prostate cancer. Eligibility: English-speaking adults ages 18 and older with localized prostate cancer that can be seen on MRI and can be treated by thermal ablation. Design: Participants will be screened with the following: - Medical history - Physical exam - Digital rectal exam - Blood and urine tests - Electrocardiogram - Tumor biopsy - Questionnaire to assess urinary tract symptoms - MRI of the pelvis. The MRI scanner is a long, narrow tube. Participants will lie on a bed that moves in and out of the scanner. Participants may also be screened with the following: - Echocardiogram - Chest x-ray - Bone scan - Urodynamic studies to see how well the bladder, sphincters, and urethra hold and release urine - MRI of the brain - Transrectal ultrasound - Computer tomography (CT) scan of the chest, abdomen, and pelvis. A CT scan is a series of x-ray images taken of parts of the body. Some screening tests will be repeated during the study. Participants will have the TULSA procedure. They will have an MRI for guidance. A small ultrasound applicator will be placed into their urethra. It uses heat to destroy the cancer areas in the prostate. It is controlled by a robotic arm. A cooling catheter will be placed into their rectum. Participants will use a urethral catheter for 1-7 days. Participants will have follow-up visits at 3, 6, 12, 18, 24, and 36 months. Type: Interventional Start Date: Nov 2023 |
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Causes and Natural History of Dyslipidemias
National Heart, Lung, and Blood Institute (NHLBI)
Hypercholesterolemia
Atherosclerosis
This study will evaluate people with dyslipidemias - disorders that affect the fat
content in the blood. Fats, or lipids, such as cholesterol and triglycerides, are carried
in the blood in particles called lipoproteins. These particles are involved in causing
blood vessel diseases that can lead to1 expand
This study will evaluate people with dyslipidemias - disorders that affect the fat content in the blood. Fats, or lipids, such as cholesterol and triglycerides, are carried in the blood in particles called lipoproteins. These particles are involved in causing blood vessel diseases that can lead to conditions like atherosclerosis (hardening of the arteries) or heart attack. Participants will undergo accepted medical tests and procedures to evaluate their condition. Most of the test results are helpful in making a diagnosis and in guiding treatment. People with lipid disorders are eligible for this study. Representative types of patients include those with: - Plasma cholesterol levels greater than 200 mg/dl or less than 120 mg/dl - Plasma LDL-C levels greater than 130 mg/dl or less than 70 mg/dl - Plasma HDL-C levels greater than 70 mg/dl or less than 25 mg/dl - Unusual cholesterol deposits or xanthomas (nodules of lipid deposits on the skin) Children under 2 years of age are excluded from the study. Participants will undergo some or all of the following procedures: - Plasma evaluation. Apolipoproteins (plasma proteins involved in metabolism of cholesterol, triglycerides, phospholipids, and proteins in the blood) and enzymes involved in lipid metabolism are measured. Type: Observational Start Date: Oct 2003 |
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Cardamom and Topical Roseomonas in Atopic Dermatitis
National Institute of Allergy and Infectious Diseases (NIAID)
Atopic Dermatitis
Eczema
Background:
Atopic dermatitis (AD), also called eczema, is a chronic skin condition. AD can make skin
dry and itchy, and sometimes it can lead to serious health problems, such as asthma, food
allergies, eye infections, and sleep problems. No cure exists for AD. Researchers know
that people with AD1 expand
Background: Atopic dermatitis (AD), also called eczema, is a chronic skin condition. AD can make skin dry and itchy, and sometimes it can lead to serious health problems, such as asthma, food allergies, eye infections, and sleep problems. No cure exists for AD. Researchers know that people with AD have different kinds of harmless bacteria on their skin than do people without AD. They want to see if adding a harmless bacteria (Roseomonas mucosa) to the skin can help people with AD. Objective: To test a skin treatment that contains R. mucosa and ground cardamom seeds in people with AD. Eligibility: People aged 2 years and older with AD. Design: All study visits will be remote. Participants will have 5 visits over about 7 months. Participants will be screened. Researchers will review their AD and medical history. Participants will receive a study product in the mail. The product comes as a powder in single-use packets. Participants will be shown how to mix the powder with water in a single-use spray vial. They will spray the solution onto their skin 2 to 3 times per week for 14 weeks. Half of participants will receive the study powder. Half will receive a placebo; the placebo looks just like the study powder but contains no bacteria. They will not know which one they have. During 3 study visits, participants will take a skin swab. They will receive supplies in the mail to rub a cotton swab on their skin and mail it back to the researchers. Participants may opt to have pictures taken of their AD. Participants will fill out 4 online questionnaires. Type: Interventional Start Date: Oct 2024 |
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Cyclin-Dependent Kinase (CDK)4/6 Inhibitor Abemaciclib for Neurofibromatosis Type I (NF1) Related A1
National Cancer Institute (NCI)
Neurofibromatosis 1
Background:
NF1 is a genetic disease that causes tumors called atypical neurofibromas. These tumors,
which arise from nerves, can cause serious medical problems. The only treatment is
surgery. Researchers want to see if a drug called abemaciclib can help.
Objective:
To find a safe, tolerable dos1 expand
Background: NF1 is a genetic disease that causes tumors called atypical neurofibromas. These tumors, which arise from nerves, can cause serious medical problems. The only treatment is surgery. Researchers want to see if a drug called abemaciclib can help. Objective: To find a safe, tolerable dose of abemaciclib for treating atypical neurofibromas. Eligibility: People ages 12 and older who have NF1 and have one or more atypical neurofibromas that cannot or will not be removed with surgery Design: Participants will be screened with: Medical history and physical exam Blood, urine, and heart tests MRI: Participants will lie in a machine that takes pictures of the body. A padding or coil will be placed around their head. They may have a contrast agent injected into a vein. Biopsy sample: A small piece of tumor will be removed using a large needle. Participants will have frequent visits during the study. These will include repeats of the screening tests as well as the following: PET scan: Participants will lie in a machine that takes pictures of the body. They will have a contrast agent injected into their arm. Questionnaires about the effects of abemaciclib on pain and quality of life Possible photographs of tumors Participants will take abemaciclib capsules orally twice daily in 28-day cycles. They will take the drug for up to 2 years. Some may be able to take it for longer. Participants will have a follow-up visit about 30 days after their last dose of the study drug. Then they will have visits every 3 months for 1 year. Type: Interventional Start Date: Nov 2021 |
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Stargardt-like Macular Dystrophy (STDG3) Secondary to Mutations in ELOVL4
National Eye Institute (NEI)
Stargardt-Like Macular Dystrophy
Background:
STDG3 is an inherited eye disease. Currently there is no treatment for STDG3. Past
studies of STDG3 have largely looked at members of large families at a single time point.
Researchers want to learn more about the disease at an individual level.
Objective:
To understand the natural h1 expand
Background: STDG3 is an inherited eye disease. Currently there is no treatment for STDG3. Past studies of STDG3 have largely looked at members of large families at a single time point. Researchers want to learn more about the disease at an individual level. Objective: To understand the natural history of changes in the retina that occur in people with STDG3. Eligibility: People ages 10 and older with STDG3 due to a variant in the ELOVL4 gene. Design: Participants will have 6 visits. First they will have a screening visit, followed by a baseline visit. Then they will have a visit 6 months later. Then they will have a visit 1, 2, and 3 years after the first visit. Visits will last 4 to 8 hours. Visits will include the following: Medical history and physical exam. Complete eye exam. Participants' eye pressure and ability to see letters on a vision chart will be tested. Their pupils will be dilated with eye drops. Pictures will be taken of the retina and the inside of the eye. Questions about participants' family history, especially the presence of eye disease. Visual field test. Participants will be seated in front of a large dome and asked to press a button when they see a light within the dome. Electroretinogram. Participants will sit in the dark with their eyes patched for 30 minutes. Then they will wear special contact lenses and watch flashing lights. Optical coherence tomography. Cross-sectional pictures will be taken of participants' retinas. Fundus autofluorescence. Blue light will be shone into participants eyes to assess the health of the retina.... Type: Observational Start Date: Apr 2022 |
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Geospatial Analysis of Neighborhood Environmental Stress in Relation to Biological Markers of Cardi1
National Heart, Lung, and Blood Institute (NHLBI)
Cardiovascular (CV) Risk
Background:
Heart disease is a leading cause of death in the United States. Healthy diet and exercise
improve heart health. Some features of where a person lives can lead to stress and
decrease chances for exercise. Researchers want to see how these factors may increase the
risk of heart disease i1 expand
Background: Heart disease is a leading cause of death in the United States. Healthy diet and exercise improve heart health. Some features of where a person lives can lead to stress and decrease chances for exercise. Researchers want to see how these factors may increase the risk of heart disease in women. Objective: To see if there are differences in stress levels between women who live in different parts of Washington, DC. Also, to see how these women use their neighborhoods for exercise. Eligibility: Healthy white or black females ages 19-45 who live in Washington, DC, who have access to a smartphone Design: Participants may stay at the NIH Clinical Center overnight for a 2-day visit. Visit 1 will include: Physical exam Blood tests Electrocardiogram: Electrodes on the participant s skin will measure heart activity. PET/CT scan: Participants will get an injection. They will lie in a machine that takes pictures of the body. Surveys Body size measurements Nutrition consultation Blood vessel tests: This is measured with blood pressure cuffs, a device placed on the participant s fingertip, and a probe placed on the participant s neck. Resting Energy Expenditure: Participants will breathe under a clear hood for 45 minutes. Participants will be followed for about 2 weeks. They will wear a device on the wrist and carry a GPS device. Through a mobile app, they will answer short daily surveys on stress and exercise. Visit 2- Device return Nutritional consultation Type: Observational Start Date: Oct 2021 |
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A Phase 2 Trial for Metastatic Melanoma Using Adoptive Cell Therapy With Tumor Infiltrating Lymphoc1
National Cancer Institute (NCI)
Melanoma
Background:
Cell therapy is an experimental cancer therapy. It takes young tumor infiltrating
lymphocytes (Young TIL) cells from a person s tumors and grows them in a lab. Then they
are returned to the person. Researchers think adding the drug pembrolizumab might make
the therapy more effective.1 expand
Background: Cell therapy is an experimental cancer therapy. It takes young tumor infiltrating lymphocytes (Young TIL) cells from a person s tumors and grows them in a lab. Then they are returned to the person. Researchers think adding the drug pembrolizumab might make the therapy more effective. Objective: To test if adding pembrolizumab to cell therapy is safe and effective to shrink melanoma tumors. Eligibility: People ages 18-72 years with metastatic melanoma OF THE SKIN Design: Participants will be screened with: Physical exam CT, MRI, or PET scans X-rays Heart and lung function tests if indicated Blood and urine tests Before treatment, participants will have: A piece of tumor taken from a biopsy or during surgery in order to grow TIL cells Leukapheresis: Blood flows through a needle in one arm and into a machine that removes white blood cells. The rest of the blood returns through a needle in the other arm. An IV catheter placed in the chest for getting TIL cells, aldesleukin, and pembrolizumab (if assigned) Participants will stay in the hospital for treatment. This includes: Daily chemotherapy for 1 week For some participants, pembrolizumab infusion 1 day after chemotherapy TIL cell infusion 2-4 days after chemotherapy, then aldesleukin infusion every 8 hours for up to 12 doses Filgrastim injections to help restore your blood counts Recovery for 1-3 weeks After treatment, participants will: Take an antibiotic and an antiviral for at least 6 months, as applicable If assigned, have pembrolizumab treatment every 3 weeks for 3 more doses. They may have another round. Have 2-day follow-up visits every 1-3 months for 1 year and then every 6 months Type: Interventional Start Date: Dec 2015 |