View clinical trials related to Syndrome.
Filter by:RATIONALE: Decitabine may help myelodysplasia cells develop into normal stem cells. It is not yet known if decitabine is more effective than standard supportive care in treating myelodysplastic syndrome. PURPOSE: Randomized phase III trial to compare the effectiveness of low-dose decitabine with that of standard supportive care in treating older patients who have myelodysplastic syndrome.
RATIONALE: Monoclonal antibodies such as gemtuzumab can locate tumor cells and either kill them or deliver tumor-killing substances to them without harming normal cells. PURPOSE: Randomized phase II trial to study the effectiveness of gemtuzumab in treating patients who have myelodysplastic syndrome.
This study will examine how a rare disease called Smith-Magenis syndrome (SMS) affects people and how they change over time. SMS is caused by a small chromosome 17p11.2 deletion (missing piece). The syndrome is associated with distinct physical, developmental and behavioral characteristics, but it is not fully understood. To learn more about this disease, a multidisciplinary research team will study: - The range and type of medical, behavioral, and learning problems of people with SMS - The deletion of chromosome 17p11.2 to find the gene or genes that cause SMS - Whether certain specific genetic changes cause certain specific medical problems - What signs and symptoms must be present to make a diagnosis of SMS - The impact that a child with SMS has on his or her family members. Patients of all ages with SMS may be eligible for this study. They will be evaluated by a team of medical specialists at the NIH Clinical Center over the course of several days. Parents of patients will be asked to provide copies of past medical records and tests results for review. They will provide a family medical history and information on the child s prenatal, developmental, behavioral and medical histories. The study may involve the following evaluations: physical, neurological and psychological exams; ear, nose and throat evaluation; speech, language and swallowing evaluation; hearing test; eye examination; imaging studies (e.g., X-rays, ultrasound, MRI); developmental and behavioral assessment; rehabilitation evaluation with gait (walking) analysis; urinalysis, blood, and/or skin cell studies; sleep study; other consultations as required. A tissue sample (blood or cheek swab or skin biopsy) may be taken for genetic studies. To obtain a cheek swab, a small brush is rubbed against the inside of the cheek to wipe off some cells. For a skin biopsy, a small area of skin is numbed with a local anesthetic and a small circle of skin, usually about 1/8 inch, is removed with a biopsy tool. Parents may be asked to complete questionnaires about their child s growth and development, therapies, medications, sleep, development and behavioral concerns. They also may be asked to bring their child to NIH for follow-up visits every 6 months to 3 years, depending on the child s age. The purpose of these visits is to see how the child changes over time and to conduct additional tests. Parents may also be asked to enroll their child in a SMS Research Registry and provide tissue samples for a SMS Research Core Tissue Bank. The research registry is a confidential database of individuals diagnosed with SMS. Its purpose is to facilitate SMS research initiatives and promote the development of improved treatments for SMS. Enrollment requires completing a 30-minute questionnaire. The tissue bank stores tissue cultures and cell lines created for future SMS research. About 2 teaspoons of blood are drawn from adult patients and 1 to 3 teaspoons from children, depending on their size. Tissue samples can be obtained by skin biopsy or during a scheduled surgical procedure.
To examine the possible relationship between genetic factors and the acute respiratory distress syndrome (ARDS).
This study will try to identify mutations in the genes responsible for primary immunodeficiency disorders (inherited diseases of the immune system) and evaluate the course of these diseases in patients over time to learn more about the medical problems they cause. The immune system is composed of various cells (e.g., T and B cells and phagocytes) and other substances (complement system) that protect the body from infections and cancer. Abnormalities in the gene(s) responsible for the function of these components can lead to serious infections and other immune problems. Patients with Wiskott-Aldrich syndrome, adenosine deaminase (ADA) deficiency. Participants will undergo a medical and family history, physical examination, and additional procedures and tests that may include the following: 1. Blood tests for: routine laboratory studies (i.e. cell counts, enzyme levels, electrolytes, etc.); HIV testing; immune response to various substances; genetic testing; and establishment of cell lines to maintain a supply of cells for continued study 2. Urine and saliva tests for biochemical studies 3. Skin tests to assess response to antigens such as the viruses and bacteria responsible for tetanus, candida, tuberculosis, diphtheria, chicken pox, and other diseases. 4. Skin and lymph node biopsies for tissue and DNA studies 5. Chest X-ray, CT scans, or both to look for cancer or various infections. 6. Pulmonary function test to assess lung capacity and a breath test to test for H. pylori infection. 7. Dental, skin and eye examinations. 8. Treatment with intravenous immunoglobulins or antibodies to prevent infections. 9. Apheresis for collecting white blood cells to study cell function. In this procedure, whole blood is collected through a needle placed in an arm vein. The blood circulates through a machine that separates it into its components. The white cells are then removed, and the red cells, platelets and plasma are returned to the body, either through the same needle or through a second needle placed in the other arm. 10. Bone marrow sampling to study the disease. A small amount of marrow from the hipbone is drawn (aspirated) through a needle. The procedure can be done under local anesthesia or light sedation. 11. Placental and umbilical cord blood studies, if cord blood is available, to study stem cells (cells that form blood cells). Information gained from this study may provide a better understanding of primary immunodeficiencies, leading to better diagnosis and treatment. In addition, study participants may receive medical and genetic counseling and may be found eligible for other NIH studies on these diseases.
OBJECTIVES: I. Determine the efficacy of unrelated donor hematopoietic stem cell transplantation in the treatment of patients with life threatening hemophagocytic disorders. II. Determine the rate of disease free survival, incidence of graft failure, and incidence of graft versus host disease in these patients after undergoing this treatment regimen.
OBJECTIVES: I. Determine whether Cushing's syndrome and stress-induced pseudo-Cushing's syndrome can be differentiated by evaluating endogenous corticotropin-releasing hormone activity.
OBJECTIVES: I. Identify the molecular defects responsible for primary immunodeficiency disorders. II. Explore the mutations within each syndrome to better understand the genetics of these disorders. III. Study the function of the Wiskott-Aldrich syndrome proteins (WASP). IV. Design methods to identify carriers and for prenatal diagnosis. V. Explore new avenues for therapy.
RATIONALE: Drugs used in chemotherapy use different ways to stop tumor cells from dividing so they stop growing or die. Combining more than one drug may kill more cancer cells. Chemoprotective drugs such as amifostine may protect normal cells from the side effects of chemotherapy. PURPOSE: Phase II trial to study the effectiveness of combining topotecan and cytarabine given with amifostine in treating patients who have myelodysplastic syndrome.
RATIONALE: Amifostine may improve blood counts in patients with myelodysplastic syndrome. Epoetin alfa may stimulate red blood cell production and be an effective treatment for anemia in patients with myelodysplastic syndrome. PURPOSE: Phase II trial to study the effectiveness of amifostine with or without epoetin alfa in treating patients who have myelodysplastic syndrome.