View clinical trials related to Carcinoid Tumor.
Filter by:Background: - Zollinger-Ellison syndrome (ZES) is a rare condition in which one or more tumors (gastrinomas), usually in the small intestine or pancreas, produce high levels of the hormone gastrin. High levels of gastrin can cause several problems: (1) excessive growth of stomach cells; (2) excessive production of stomach acid, which can cause stomach or intestinal ulcers; and (3) growth of an unusual type of stomach tumor called a type II gastric (i.e., stomach) carcinoid. Patients with ZES suffer mainly from the effects of severe ulcer disease, but gastrinomas and gastric carcinoids both have the potential to spread throughout the body. Gastric surgery is the usual treatment for problematic carcinoids. YF476, an experimental medication, may block the effects of gastrin, which may reduce the need for surgery as well as provide better control of stomach acid in patients with ZES. Researchers are interested in studying YF476 in individuals with ZES who also have or may develop type II gastric carcinoids. Objectives: - To evaluate the safety and effectiveness of YF476 in reducing the size, number, or significance of type II gastric carcinoids or their precancerous cells. - To study the effects of YF476 on stomach acid production. Eligibility: - Individuals at least 18 years of age who have been diagnosed with Zollinger-Ellison syndrome and type II gastric carcinoids or their precancerous cells. Design: - This study will involve a screening visit and five study visits. - Participants will be screened with a physical examination and medical history, as well as blood tests. - At the first study visit, participants will have an initial measurement of stomach acid production (gastric acid analysis) and an upper endoscopy to collect biopsies of esophagus, stomach, and small intestine tissue. Participants will receive YF476 to take by mouth once per day with food, and will be asked to keep a diary of medication doses, changes in symptoms, and any possible new symptoms or problems. - After 3 weeks, participants will have another study visit with a physical examination, blood and urine tests, and questions about current condition and any side effects. - After another 3 weeks (6 weeks after starting YF476), participants will have another gastric acid analysis and an upper endoscopy with biopsies. Participants may be eligible to receive a higher dose of YF476 if the endoscopy and biopsies show no significant change (decreased size and/or number of carcinoids or precancerous cells). If the stomach is completely normal at this visit on endoscopy and biopsy, participants will stop taking the study drug. - After another 6 weeks (12 weeks after starting YF476), participants will have another physical examination, blood and urine tests, and an upper endoscopy with biopsies. YF476 will be stopped. Participants who show improvement after treatment will have a final followup visit. Participants who do not show improvement will not have the followup visit, but may be asked to return for additional clinic visits to check for side effects from YF476. - The final visit will be a followup visit 12 weeks after the end of treatment with YF476. Participants who responded to YF476 will have blood tests and an upper endoscopy with biopsies.
Well differentiated neuroendocrine (NE) carcinomas have low proliferative activity and conventional chemotherapy is not recommended. Metronomic chemotherapy, i.e. the frequent administration of cytotoxic drugs at low doses, has demonstrated antiangiogenetic properties. Since well differentiated NE carcinomas are highly vascular, there is a rationale for testing metronomic chemotherapy and antiangiogenetic drugs. This is a national, multicenter, phase II study.
The purpose of this study is to show the tumor free long term survival of patients with isolated non-resectable liver metastases of neuroendocrine tumors after neo-adjuvant radio receptor treatment and following liver transplantation.
Gastroentero-pancreatic neuroendocrine tumours (GEP-NETs) are regarded as a fairly rare disease. They are derived from the neuroendocrine system of the gastrointestinal tract and the pancreas and share common clinical features. So far, there is still uncertainty about the cell biology and mechanistic regulation of these tumours. Therefore targeted treatment is limited and management challenging. Treatment options include surgery, medical and ablative therapy, and more recently peptide-receptor radionuclide therapy. In order to better understand the characteristics of GEP-NETs and to evaluate treatment strategies, the SwissNET registry aims at the collection of data from patients presenting with a GEP-NET in Switzerland. Data will be entered prospectively and anonymized in a specifically designed database after the patient has given informed consent. All hospitals and general practitioners are invited to report on patients with a GEP-NET diagnosis and to participate to the registry. Data will be evaluated within regular time frames, focussing on types of GEP-NETs, treatment modalities and patient outcomes (e.g. mortality, hospitalisation rate), thereby contributing to the better understanding of these tumours.
The purpose of this study is to determine whether monitoring of levels of Serological Markers ProGRP, CgA, NSE and Pyruvate Kinase M2 are effective in the Evaluation of Diagnosis, Monitoring Therapeutic Effects and Predicting response to somatostatin analogues in Patients with Malignant Neuroendocrine Tumors.
F18-FDG is the widely used PET tracer in the routine practice of oncologic disease imaging using the technology of PET-CT. However, FDG-avidity is a characteristic of the individual tumor. There are various types of human malignancies, which are not taking FDG in access. In these cases FDG is not a sensitive tracer of imaging. In search for other tumor PET tracers, C11-Acetate has been shown recently in a few early studies to have a potential value in imaging of non-FDG-avid tumors. The purpose of the current study is to assess the role of 11C-acetate PET in various tumors, which often are not detected by 18F-FDG and were not widely assessed until now.
There is a high incidence among the first degree relatives of the carcinoid patients, indicating the involvement of genetic components in its initiation and pathogenesis.
This proposed pilot study is to conduct detailed interviews into the medical, environmental, and family histories The second phase of this study project is to and to collect blood specimen to obtain DNA. The Blood specimen and DNA will be processed by the Rutgers University Cell and DNA Repository (RUCDR) and stored for a second phase of this pilot. The purpose is to rule out Familial Multiple Endocrine Neoplasia (MEN 1), and succinate dehydrogenase complex, subunit D (SDHD), gene inactivation thought to be associated with different types of carcinoid cancer.
This study will evaluate members in families with a history of small bowel carcinoid cancer to study the natural history of those family members that have the disease, determine ways to improve early detection by performing surveillance on those at risk but without disease and to identify the gene(s) that may cause the tumors. Familial carcinoid tumors usually originate in hormone-producing cells that line the small intestine or other cells of the digestive tract. The tumors are slow-growing and usually take many years before they cause symptoms. It is known that these tumors occur more often in some families and are then passed from one generation to the next by inherited genes. Members of families, including all siblings and offspring in which two or more immediate blood relatives have had small bowel carcinoid tumors are eligible for this study. In some cases unaffected spouses of family members diagnosed with carcinoid cancer are also requested to participate by donating a sample of blood only. Participants undergo a medical evaluation every 3 years during a 3- to 5-day hospital stay at the NIH Clinical Center. All participants have a personal and family medical history obtained and undergo a physical examination, blood and urine tests. People who already have a small bowel carcinoid tumor or are at risk of developing a carcinoid tumor have some or all of the following procedures to determine the presence of carcinoid tumor and its (omit next two words- location or) spread to other areas of the body: - Video Capsule Endoscopy: Visualization of the gastrointestinal tract by ingesting a disposable, "vitamin-pill sized" video capsule that has its own camera and light source. - CT of the chest abdomen and pelvis with oral and IV contrast : X-ray examination of the chest, abdominal and pelvis organs. - 18 FDOPA Positron emission tomography (PET) with CT for localization: Nuclear imaging scan to look at tumor activity. - MRI Liver with contrast - to determine if disease has spread to liver - Gallium 68 PET/CT-limited to individuals that have residual tumor. - Clinical and research blood work Should mid gut carcinoid tumors be found every participant will be assisted in determine what the best course of treatment will be for them.
Imaging of neuroendocrine tumors (NETs) relies on conventional morphological methods and on somatostatin receptor scintigraphy (SRS). SRS is effective for carcinoid tumors, and for most pancreatic islet-cell tumors, but may fail to detect some tumors. Furthermore, this technique may require repeated imaging over 24-48 hours. Introduction of newer somatostatin analogs such as DOTANOC improves lesion detection. In addition, labeling with Ga68 and use of PET/CT improves the pharmacokinetics of the tracer resulting in better tumor visualization, and an easier procedure with imaging over only 1-2 hours. In this study, we propose to use Ga68-DOTANOC PET for imaging of various NETs, comparing the imaging data to those of anatomical and other functional modalities, and to histopathology, when available.