View clinical trials related to Thyroid Neoplasms.
Filter by:The present clinical trial is a dose comparison of a multi-component active immunotherapy designed to stimulate an immune reaction to specific tumor associated antigens which are highly expressed on a large number of solid cancers.
To determine a safe and effective doses of two biologic drugs, erlotinib and bevacizumab when used with chemotherapy and radiation therapy in advanced head and neck cancer
Thyroidectomy is an operation that is commonly performed. After an operation a pressure dressing by Hypafix is usually used due to the belief that it will help to reduce complications such as post-operative bleeding or haematoma. However, the practice is uncomfortable to patients and makes it hard to detect early haematomas. We carried out a prospective randomised study to study the role of pressure dressing after thyroid surgery by evaluating the amount of fluids collected in the operative bed by ultrasonography compared with normal dressing.
This phase II trial studies how well sorafenib tosylate works in treating patients with medullary thyroid cancer that has spread to other parts of the body (metastatic), spread to the tissue surrounding the thyroid (locally advanced), or has returned after a period of improvement (recurrent). Sorafenib tosylate may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth and by blocking blood flow to the tumor.
The primary purpose is to determine how effective AG-013736 is in shrinking thyroid cancer that is resistant to radioactive iodine
This will be a Phase II, open label study to establish the effect of once-daily oral doses of ZD6474 100mg in subjects with locally advanced or metastatic hereditary medullary thyroid cancer in whom no standard therapeutic option is available.
This study will investigate the possible relationship between infection with hepatitis C virus (HCV) and the development of certain hematologic cancers (Non-Hodgkin's lymphoma, Hodgkin's lymphoma, chronic lymphocytic leukemia, multiple myeloma) and thyroid cancer. HCV causes chronic hepatitis, cirrhosis, and liver cancer. It is transmitted primarily through injection drug use and transfusion of infected blood. Studies have shown that HCV may also be linked to hematologic cancers and thyroid cancer. This retrospective study will examine medical records from veterans with and without HCV infection who previously received treatment in the Veterans Administration medical system. Data collected on each subject will include the subject's race, sex, age and era of military service, presence of liver disease or thyroiditis at their baseline clinic visit, number of inpatient visits in the past 5 years and outpatient visits in the past year, and the presence of various specified cancers. The prevalence of cancer and other conditions among HCV-infected subjects and non-HCV infected subjects at baseline and the subsequent development of the cancers of interest in these two groups will be compared and analyzed for a possible causal relationship.
Flight attendants may be at an increased risk of breast and other cancers due to work-place exposures including cosmic radiation and circadian rhythm disruption form traveling across multiple time zones. This cancer incidence study will determine whether female flight attendants are at increased risk of breast and other cancers and whether the risk is dose-related. The study will include a cohort of approximately 10,000 women who were employed as flight attendants for one or more years. Breast cancer cases will be identified from telephone interviews of living subjects and next-of-kin of deceased subjects, as well as from death certificates. The interview will also provide information about non-occupational risk factors for breast cancer such as parity. Both internal and external comparisons will be made. The primary analysis will evaluate the risk associated with occupational exposure within the cohort, controlling for non-occupational risk factors by stratification or modeling. The secondary analysis will compare the incidence of breast cancer in the cohort to that in the general population, with adjustment for factors such as lower parity which might increase breast cancer risk in the cohort independent of occupational exposure to cosmic radiation and circadian rhythm disruption. The risk of other ionizing radiation-related cancers, such as leukemia, lung cancer, and thyroid cancer, among flight attendants will also be evaluated. The results of the study will apply to female flight crew and frequent fliers.
We propose to study the prevalence of thyroid nodules and cancer in relation to radiation dose, in a defined cohort of Kazakhstan residents exposed as children to radioactive fallout from atomic bomb tests at the neighboring Semipalatinsk Test Site (STS). The population near the STS is believed to have received radiation doses from fallout that were much higher than that experienced by any population of comparable size in the US. The study population is a defined cohort of 20,000 residents, half of whom, in 1960, resided in heavily-exposed villages; the other half lived in lightly-exposed villages. The population is rural, with a diet that was and is heavily dependent upon fresh milk from household or local cows and therefore likely to have led to ingestion of radioactive iodine from fallout. The study is two parts. The first part involves a cytogenetic assay for radiation biodosimetry purposes of peripheral lymphocytes obtained from blood samples donated by 40 cohort members with individuals radiation dose estimates. Blood samples will be collected from 25 putative high-dose and 15 low-dose cohort members and processed or cytogenetic assay using fluorescent in situ hybridization (FISH) for stable chromosome aberrations in peripheral lymphocytes. This biodosimetric validation assay, will be carried out by Nailya Chaizhunusova, chief of cytogenetics at the Scientific research Institute for Radiation Medicine and Ecology, in collaboration with Dr. Tracy Yang at the NASA Johnson Space Center in Houston, Texas. It should be possible to detect gamma radiation doses as low as 150 mGy. The second part will involve thyroid screening by ultrasound in selected villages. The population to be screened will comprise 100-1500 members of the study cohort exposed as young children to high fallout levels, and equal numbers of comparable ages exposed to little or no fallout. Fine needle aspiration biopsy will be performed, under separate informed consent, if the palpation and ultrasound results suggest presence of a tumor. Presence and malignancy of tumor will be determined by cytopathology. Subjects with evidence of thyroid disease will be referred to thyroid specialists at the Semipalatinsk State Medical Academy. Finger stick blood samples will be obtained to assess thyroid function using RIA methods with coated tube technology for T4 and TSH. The most sensitive statistical comparisons are expected to be dose-response analyses with respect to prevalence of thyroid nodules, which are common and known to be associated with radiation dose. Comparisons in terms of thyroid cancer, and benign and malignant neoplasms combined, are likely to be less sensitive but of acceptable power if risks associated with chronic radiation in this population are similar to those associated with acute exposure to X-ray or gamma radiation in other populations.
The nuclear power plant accident at Chornobyl released large quantities of Iodine-131 and other radioisotopes of iodine in the atmosphere, contaminating thousands of square kilometers and exposing millions of people. For this study, a well-defined subset of Ukrainian children aged 0-18 years or in utero at the time of the accident are being identified and examined by well-trained specialists for thyroid disease every two years for at least three cycles. The study is a collaborative effort of research in Ukraine and the United States. The cohort will include approximately 13,000 persons who were children in 1986, all or most of whom have had their thyroids measured for radioactivity during the weeks immediately following the accident (or whose mothers had measurements taken while the child was in utero). Under a rigid research protocol these subjects will receive diagnostic thyroid examinations, including palpation, ultrasound scanning, thyroid hormone and other laboratory tests, and, if indicated, fine-needle aspiration biopsy. Interview information regarding residential, health, diet and lifestyle history will also be collected. All subjects will be followed for thyroid cancer morbidity and mortality. Thyroid cancers will be confirmed by expert pathology examination of tissue. In addition to the analysis of thyroid radiation measurements made in May-June, 1986, efforts will be made to reconstruct each person's exposure and to estimate the radiation dose to the thyroid. This will involve the reconstruction of deposition patterns and environmental pathways of the radioiodines, and of the location, dietary characteristics, and lifestyle of each person throughout the exposure period. The aim of the study is to carry out valid and credible assessments of the early and late morphologic and functional changes in the thyroid glands of persons exposed to radiation from radioactive materials released as a consequence of the Chornobyl nuclear power plant accident. The emphasis is on dose- and time-specific changes. In the course of the study other possible risk factors will be examined including dietary iodine intake during and after 1986, and the ingestion of potassium iodide for thyroid protection shortly after the accident.