View clinical trials related to Thyroid Neoplasms.
Filter by:Single intravenous administration of TAH-1005 is performed in patients with differentiated thyroid cancer (papillary cancer, follicular cancer) who cannot obtain therapeutic effect with standard treatment or who have difficulty in implementing and continuing standard treatment. The safety, pharmacokinetics, absorbed dose, and efficacy will be evaluated to determine the recommended dose for Phase II clinical trial.
The goal of this non randomized control clinical research study is to compare the cosmetic outcomes and efficiacy of retro-auricular single-site endoscopic thyroid lobectomy and central lymph node dissection against conventional resection.
This project analyzes the relationship between type 2 deiodinase gene polymorphism and the TSH inhibitory treatment efficacy in thyroid cancer patients with thyroidectomy, and explored the factors influencing TSH inhibitory treatment efficacy. It further explores whether patients with diO2-Thr92ALA genotype or DIO2 Orfa-Gly3ASP genotype should choose T4+T3 treatment, and the effect of different treatment options on the quality life of patients.
Recently, Zaborek et al. raised a Poisson regression model for levothyroxine(LT4) dosing scheme to predict individual dose of LT4 after thyroidectomy: daily LT4 dose=e[2.02+0.01(W)-0.0037(A )-0.098(F)-0.01(B)+0.007(T)+0.108(I)-0.014(M), where W is the weight of the patient (Kg), A is the age of the patient (years), and F is the gender (for women 1, male is 0), B represents the patient's body mass index (BMI), T represents the preoperative TSH level, I represents whether the patient takes iron preparations (1, if not 0), M represents whether the patient takes multivitamins/minerals (1, if not 0). We demonstrated its value with our retrospective data in our center. Therefore, we intend to carry out this randomized controlled trial in order to further evaluate the model. The clinical significance of this method can provide a basis for the future use in clinical optimization of individualized dosing.
This clinical trial evaluates deoxyribonucleic acid (DNA) methylation signatures in diagnosing and managing thyroid nodules. The purpose of this research is to develop a new test for thyroid cancer. This test will use needle biopsies (small collections of tissue with a needle) from the thyroid to determine whether the participant has a malignant (cancer) or benign (not showing cancer) thyroid tumor. The information learned from this trial may help develop a more accurate test so that patients do not have unnecessary surgeries for nodules that are thought to be suspicious but are actually benign.
Persistent organic pollutants (POPs) are a class of organic pollutants in the environment characterized by persistent, bioaccumulation, long-range transport and biological toxicity. Due to its widespread distribution in the environment and Lipophilicity, POPs can bioaccumulate along the food chain and eventually accumulate in the human body. There are many types of POPs, including dioxins, polychlorinated biphenyls (PCBs) , polybrominated diphenyl ethers (PBDEs) and organochlorine pesticides (OCPs) . POPs is ubiquitous and Lipophilic in the environment, so the potential harm of POPs to human body has aroused wide concern. A growing number of studies have found that exposure to POPs may be associated with an increased risk of endocrine disease, particularly type 2 diabetes and thyroid cancer. The aim of this study was to assess the effect of Persistent organic pollutant exposure on the development ofType 2 diabetes and thyroid cancer by analyzing serum Persistent organic pollutant concentrations in controls, and patients with Type 2 diabetes and thyroid cancer.
Thyroid surgery has always been the mainstay of treatment for thyroid cancer. Thyroid surgery carries a low risk of complications that include recurrent or superior laryngeal nerve injury leading to voice changes, hypoparathyroidism, hypothyroidism with need for thyroid hormone supplementation, and unsightly scarring. Although many patients with thyroid cancer find these risks acceptable, these risks are sometimes less acceptable to patients with benign disease. In an era when the medical field is treating thyroid diseases less aggressively, there is a pressing need to identify approaches to treat indolent malignant disease less invasively. The purpose of this observational study is to evaluate the efficacy and safety of Radiofrequency Ablation (RFA) for treatment of Papillary Thyroid Microcarcinoma (PTMC) in patients that have already agreed to RFA procedure based on treating physician recommendation. This is a data collection study in which we ask participants to give us access to information generated before and after RFA treatment of their condition. The RFA procedure uses image guidance to place an electrode through the skin into the target tumor. In RFA, high-frequency electrical currents are passed through an electrode, creating a small region of heat to treat the lesion.
This prospective, multi-centre, open label, non-randomised phase II trial aims restore radioiodine sensitivity in patients with NRAS or BRAFV600E mutant refractory thyroid cancer. Participants will be treated with Trametinib +/- Dabrafenib tyrosine kinase inhibitors for a period of 30 days, restoration of sensitivity will be monitored using 18F-FDG-PET & I-124 PET imaging.
Thyroid cancer incidence has been steadily increasing and has nearly tripled since the 1970's in the US and worldwide. Early detection of small, papillary thyroid cancers using high quality diagnostic imaging explains only about 50% of this increased incidence, suggesting that there is a true increase in the occurrence of thyroid cancer and that changes in the prevalence of environmental risk factors might play a role in thyroid cancer etiology and progression. Yet, the cascade of environmental triggers linked to thyroid cancer remains elusive. 'Exposomics' studies all health relevant chemical exposures that an individual experiences, and leverages metabolomic platforms to estimate the "internal" environment, informing both exogenous exposures and the metabolic products that lead to, or arise from, disease. Besides exposure to ionizing radiation as known modifiable risk factor, epidemiological evidence suggests that exposure to endocrine disrupting chemicals may be a potential thyroid cancer risk factor due to their known effects on thyroid function. However, these studies relied either on exposure questionnaires which are susceptible to recall bias, or used a limited set of targeted biomarkers measured after diagnosis for testing associations with case-control status, and not thyroid cancer prognosis. Further, the molecular basis for observed associations with thyroid cancer remains unclear. To address the overall hypothesis that environmental exposures alter metabolic pathways and therefore affect thyroid cancer prognosis, small amounts of blood will be collected using dried blood microsampler technology (e.g. Mitra® sampling devices), which is minimally invasive and can be used to collect repeated blood measurements at home, without the need for specialized training. These dried blood samples will be used to perform metabolomics experiments, which describe the sum of exogenous exposures, metabolic alterations, and biological response. Additional exposure assessment will be performed using an exposure questionnaire. These results will be associated with thyroid cancer prognosis, e.g. disease-specific survival, disease recurrence, and mutational profiles, thus investigating the role of environmental exposures in the development of more aggressive forms of thyroid cancer.
Thyroid hormones play an important role in the regulation of the body's metabolism. But the relationship between thyroid hormone status and the basal metabolism rate is not absolute. Because thyroid hormone function is not the only factor of control the metabolism and it can be influenced by various factors such as physical activity and diet. Weight change after thyroidectomy is one of the concerns for thyroid cancer patients. The evidence on the bodyweight changes following thyroidectomy has not been established well. Being overweight and obese can increase the risk of developing many potential health problems, such as heart disease, diabetes, high blood pressure, and malignant disease. Recently, digital health care technology has been developed and applied for medical purposes in many clinical practices. Digital Lifestyle Management is one of the strategies that can be helpful for the obese to control their body weight by lifestyle modification. It provides comprehensive, multifactorial, intensive interventions which are delivered via the digital health care mobile service Noom application. The aim of this study is to evaluate the efficacy of digital lifestyle management on body weight and quality of life after total thyroidectomy in thyroid cancer patients by using the digital health care Noom application.