View clinical trials related to Thyroid Diseases.
Filter by:The goal of this study is to help better determine the complication rates for endocrine surgery across the nation for both benign and malignant disease. It is our hypothesis that the complication rates are low overall and that malignant disease results in a higher complication rate than benign disease. This study will do a database review from all University HealthSystem Consortium (UHC).
Radioactive iodine therapy is often part of the standard treatment for Papillary Thyroid Carcinoma (PTC) patients. However, in many patients, tumors develop a resistance or no longer respond to radioactive iodine therapy (iodine-refractory). Several lines of evidence suggest that blocking the BRAF gene may help to re-sensitize the tumors to radioactive iodine. BRAF is a protein that plays a central role in the growth and survival of cancer cells in some types of PTC. The investigational drug GSK2118436 may work by blocking the BRAF protein in cancer cells lines and tumors that have a mutated BRAF gene. In this research study, the investigators are looking to see if GSK2118436 can re-sensitize iodine-refractory PTC to radioactive iodine therapy. The investigators are also looking at the safety of adding GSK2118436 to radioactive iodine therapy.
The purpose of this trial is to correlate fetal thyroid hormones from fetal cord blood with clinical (maternal antithyroid drug dose and antithyroid antibodies) and ultrasound (US) parameters of fetal thyroid function from pregnant mothers with autoimmune thyroid disease (AITD).
The purpose of this study is to determine whether prophylactic central neck dissection is beneficial for patients with papillary thyroid cancer staged preoperatively as node negative.
This phase II trial studies how well sorafenib tosylate works in treating younger patients with relapsed or refractory rhabdomyosarcoma, Wilms tumor, liver cancer, or thyroid cancer. Sorafenib tosylate may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth.
The continuous increase of the incidence of the thyroid cancer in the last years has taken this neoplasia among the first 4 frequent cancers in the cancer registry of the Institute of Oncology "Prof.Ion Chiricuţă" from Cluj-Napoca (IOCN), with a total number of over 470 new cases per year, added to the other 3700 cases already being in the evidence of the Institute. The radical treatment brings for a long term a compensated chronic drug induces mYxoedema with it's important side effects. Among these one can find the dislipidemia and the change of the high sensitive C reactive protein (hsCRP) serological value. In the last years, many epidemiological studies have confirmed the fact that the patients with a high serological value of the hsCRP present a higher risk for the coronary disease and heart attack. Prospective studies developed in european countries and in USA have provided results that are related to the predictive value of the hsCRP determinations over the cardiovascular risk. Thus, hsCRP is an indirect risk factor for the coronary disease. The risk for cardiovascular disease is 2 to 7 times higher at the people with a high level of hsCRP comparing to ones with low levels; the increase of the hsCRP serological value can be determined several years before the clinical debut of the coronary disease. The screening for this population group with a high risk can introduce in use the prevention of the cardiac pathology and change the approach to the monitoring of the patients with thyroid cancer. A selection protocol will be elaborated for the patients that will withdraw the hormone treatment by using recombinant thyroid stimulating hormone (TSH) or will have personalised monitoring algorithm, with a shortening of the hormone treatment withdrawal.
Transient hypothyroxinemia of prematurity (THOP) is a typical entity of the preterm infant, affecting the majority of preterm infants, born less than 30 weeks of gestational age. It is defined as a temporary postnatal reduction from cord values in serum levels of T4 and FT4, but with normal thyroid-stimulating hormone (TSH) levels.The etiology of THOP is complex and multifactorial. Loss of maternal T4, limited postnatal thermogenesis, hypothalamic-pituitary immaturity, limited thyroid gland reserve, persistent fetal thyroid hormone metabolism and predisposition to nonthyroidal illness syndrome are several factors that contribute in less or more intensity to THOP.The association between THOP and poor neurodevelopmental outcome is well established and several therapeutic clinical trials have been set up. However, there is currently no evidence for prophylactic or therapeutic supplementation with thyroxine (T4) for premature infants with THOP. One study of van Wassenaer et al. showed a beneficial effect of treatment of THOP in a subgroup of preterm infants with gestational age less than 28 weeks, but a reverse effect in the group with a gestational age of 29 weeks. This is an illustration of the limited comprehension of the pathophysiology of THOP. Although studies about THOP usually involves the preterm infants born at 33 weeks or earlier, one study of Paul et al. showed a decreased thyroid function in late preterm and term infants with respiratory distress syndrome as function of severity of illness. Unpublished data of our center showed also the presence of THOP, although less frequent, in the group of late preterm infants. Other data about this group of preterm infants are scarce. During the first half of pregnancy, the fetus is completely dependent of maternal thyroid hormone supply and the fetal thyroid gland starts thyroid hormone secretion from about 17-19 weeks of gestational age. Conditions of maternal (sub)clinical hypothyroidism are associated with complications like hypertension, preterm birth, low birth weight, placental abruption, and fetal death. One can wonder if there are compensating mechanisms in the placenta, providing the fetus with sufficient thyroid hormone in cases of compromised thyroid supply. One study showed that total placenta deiodinase type 3 (D3) activity in pregnancies with severely hypothyroid fetuses was not significantly lower than in euthyroid controls. Two studies showed increased monocarboxylate transporter 8 (MCT8) and decreased MCT10 expression within placentae of pregnancies complicated by IUGR. As far as we know, nothing is known about possible compensating effects in placentae of mothers with subclinical hypothyroidism and the possible influence on the development of THOP. Maternal subclinical hypothyroidism during pregnancy is a predisposition for the development of overt hypothyroidism. The influence of maternal thyroid antibodies during pregnancy towards thyroid hormone function of the fetus and consequently neurodevelopmental outcome is still not clear. One single study of Negro et al. showed that euthyroid pregnant women who are positive for thyroid peroxidase antibodies (TPOAb) develop impaired thyroid function, which is associated with an increased risk of miscarriage and premature deliveries. They also showed that substitutive treatment with levothyroxine (LT4) is able to lower the chance of miscarriage and premature delivery.A study of Pop et al. concluded that children of pregnant women who had elevated titers of TPO-Ab but normal thyroid function are at risk for impaired development.Nothing is known about the possible influence of maternal thyroid antibodies towards the development of THOP, although a theoretical link is possible. The investigators want to investigate whether there are compensatory mechanisms in placentas of premature born infants and whether the maternal thyroid hormone condition is a prediction of the development of THOP in the premature infant. The investigators want to investigate the differences between several groups of preterm infants: 24-28 weeks, 28-32 weeks and 32-36 weeks. The further aim of this study is to investigate the impact of maternal thyroid hormone condition during pregnancy on neurodevelopmental outcome of the neonate. In Belgium, 8% of the newborns are born preterm. There are about 2000 deliveries each year in the University Hospitals Leuven. Between 2 and 5% of all pregnant women are considered to have subclinical hypothyroidism and preterm birth is almost 2-fold higher in women with subclinical hypothyroidism.The incidence of THOP is 30 %. We performed a statistical power calculation with a confidence level of 95%. Given the above data and with the assumption that 50% of the premature babies born to a hypothyroid mothers will develop THOP, we need to include 320 patients who give premature birth to obtain a statistical power of 80%. Therefore, the inclusion time will be 2 years.
Background: - Thyroid hormone is produced by the thyroid gland, an organ at the base of the neck. Thyroid hormone controls the body's metabolism and the function of many organs. The thyroid gland produces two forms of thyroid hormone: T4 and T3. People who have thyroid cancer are treated with thyroid hormone therapy (synthetic T4, levothyroxine), which at times needs to be stopped to allow for cancer treatments. At these times, a different form of thyroid hormone (synthetic T3, liothyronine) is used to reduce the symptoms caused by low levels of thyroid hormone. Researchers want to know more about how changes in T3 hormone affect the body and organ function. Objectives: - To study how changes in T3 hormone levels affect the body and organ function. Eligibility: - Individuals at least 18 years of age who have had most or all of their thyroid removed to treat thyroid cancer who need to stop taking their regular thyroid hormone dose in preparation for the treatment of thyroid cancer. Design: - The study involves a screening visit and a baseline evaluation. It also includes an 11-day inpatient hospital stay. - Participants will be screened with a physical exam and medical history. They will also have blood tests and a neck ultrasound. - Participants will be evaluated with a physical exam, blood tests, and the following procedures: - Glucose tolerance test to measure blood sugar - Tests of body fat, muscle strength, and calorie burning levels - Imaging studies of the heart, liver, and thigh muscles - Quality of life questionnaires - Food preference and diet questionnaires - After 4 weeks of treatment with T3 hormone, participants will have an 11-day inpatient hospital stay to study the effect of thyroid hormone on their metabolism. The stay will involve the same tests done in the baseline evaluation.
The purpose of this study is to determine the safety and toxicity of the combination of pazopanib and GSK1120212 in patients with solid tumors and identify the maximum tolerated dose (MTD) of this combination for phase II study.
The cyclotron production model of Tc-99m pertechnetate (CPERT) has received significant validation in the independent expert review conducted by Natural Resources Canada (NRCan) in the follow up to the Chalk River crisis. The University of Alberta's Edmonton PET Centre and the Edmonton Radiopharmaceutical Centre is a cyclotron / radiopharmacy unit, providing a safe, cost effective, unsubsidized, and reliable supply of radiopharmaceuticals to hospitals and clinics in Edmonton and northern Alberta. A Phase I study is proposed to show safety of CPERT as well as comparability with generator-produced Tc-99m pertechnetate (GPERT) in subjects with well differentiated thyroid carcinoma post-thyroidectomy and prior to planned I-131 Iodide treatment.