View clinical trials related to Thyroid Diseases.
Filter by:This phase II study evaluates F-18 tetrafluoroborate (18F-TFB) PET/CT scan in patients with differentiated thyroid cancer. Diagnostic imaging is necessary for planning treatment, monitoring therapy response, and identifying sites of recurrent or metastatic disease in differentiated thyroid cancer. 18F-TFB PET/CT may accurately detect recurrent and metastatic thyroid cancer lesions, with the potential to provide information for patient management that is better than the current standard of care imaging practices.
Because one cancer type may harbor various genetic aberrations, it is not enough to check only one or a few genes for a patient to choose the adequate treatment. Because the advance in multiplex genomic testing, several NGS-based cancer-associated genetic panel tests (oncopanel) have been developed and used to identify the genetic alterations, particularly the actionable genes, in each patient. Large scale checks of oncopanel have been executed in US. The study showed the genetic alterations in various cancer types and 11% of the patients had further molecular targeted therapy based on the result of the oncopanel test. Similar program was also conducted in Japan. Moreover, the oncopanel tests have been implicated in their clinical practice and the cost was reimbursed by the government of Japan and Korea recently. Precision medicine and such personalized treatment is the trend of cancer treatment. The trend of such treatment patterns is also observed in Taiwan. The genetic background for cancer treatment may also be different among different areas and races. There is short of genetic alteration data in Taiwanese cancer patients. To understand the landscape of genetic aberrations of cancer in Taiwan, large scale survey of the cancer patients is indicated. investigators propose to evaluate the landscape of genetic aberrations in cancer patients via oncopaenl test and collect the clinical data of the patients. The result of the oncopanel test will be provided to patients and their attending physicians as reference for their further treatment. In addition, investigators want to correlate the clinical outcome with the genetic aberrations of the cancer patients in Taiwan. Thyroid cancers are divided into differentiated thyroid cancer (DTC), medullary and anaplastic carcinoma. The majority of the patients are DTC. Different from other cancer type, radioactive iodine (RAI) therapy is usually the main treatment for advanced DTC. Multitargeted kinase inhibitors are indicated for advanced DTC refractory to RAI therapy and advanced medullary thyroid cancer. For anaplastic thyroid cancer, the prognosis is poor in spite of chemotherapy or radiation therapy. BRAF or NTRK targeted therapies are suggested if the patients have these genetic aberrations. Thyroid cancer patients have various genetic aberrations, including BRAF, RAS, RET, NTRK and others. Various gene specific kinase inhibitors have been developed and demonstrated the efficacy for the treatment of advanced thyroid cancer in addition to current standard therapies. Thyroid cancer is a cancer type with high percentage of driver gene aberration, however the genetic landscape of thyroid cancer is not well understood in Taiwan. In the current study, investigators want to investigate the genetic aberrations of advanced thyroid cancers by performing the NGS oncopanel.
Rationale: In patients with medullary thyroid cancer (MTC), molecular imaging is used to assess the extent of disease in the primary diagnostic process and follow-up period to determine possible therapeutic options. The currently most used tracer in clinical practice, F-18 labelled fluorodeoxyglucose (18F-FDG), does not accurately detect MTC tumors with an indolent growth rate. A new, complimentary tracer is warranted to detect different subtypes. Objective: The primary objective is to assess the feasibility of using the F-18 labelled prostate specific membrane antigen (18F-PSMA) PET/CT for (re)staging patients with medullary thyroid cancer. The secondary objective is to compare the ability to detect MTC with the 18F-PSMA PET/CT to that of the 18F-FDG PET/CT. Study design: Prospective, single-centre, feasibility study. Study population: Patients (18 years of age or older) with biochemically and cytological/histological confirmed MTC, for whom the indication of an 18F-FDG PET/CT for tumor staging has already been determined on clinical grounds. Main study parameters/endpoints: The primary outcome of this study is the performance (lesion-based//patient-based sensitivity) of the 18F-PSMA PET to detect MTC lesions in patients with cytologically/histologically confirmed disease. Secondarily, the performance of the 18F-PSMA PET will be compared to the 18F-FDG PET/CT.
Nodules in the thyroid gland are common. Patients discover these lumps either because of their visible size increase or because of local discomforts such as difficulty swallowing, difficulty breathing or voice changes. The thyroid gland is in close connection with the esophagus, trachea and the vocal nerve. Thus, a lump in the thyroid gland can cause pressure symptoms from these organs. In the event of such complaints, patients are referred for investigation. If it turns out that the patient has a lump in the thyroid gland ("goiter"), further investigation is carried out with an ultrasound examination and sampling with a needle from the lump (puncture). At present, most thyroid nodules are examined cytologically, ie the thyroid nodules are punctured with a thin needle and the cells that are obtained are analyzed by a cytologist. The material is graded according to Bethesda classification. Higher grading is associated with a higher risk that the tuber is malignant. Lower grading is associated with a lower probability that the tuber can be malignant. If these patients are operated on, it is usually with the hope that their local ailments improve. We want to investigate which patients who have a lump in the thyroid gland and experience pressure problems experience an improvement after a thyroid operation.
To evaluate the efficacy of batoclimab 680 milligrams (mg) subcutaneous (SC) once a week (QW) for 12 weeks followed by 340 mg SC QW for 12 weeks versus placebo on proptosis responder rate at Week 24.
This is a 2-cohort (observational and treatment cohort) extension study for participants completing feeder studies (IMVT-1401-3201 or IMVT-1401-3202). The observational cohort will assess the durability of proptosis response of feeder studies off treatment. The treatment cohort will evaluate the efficacy of batoclimab as assessed by proptosis responder rate.
To evaluate the efficacy of batoclimab 680 milligrams (mg) subcutaneous (SC) once a week (QW) for 12 weeks followed by 340 mg SC QW for 12 weeks versus placebo on proptosis responder rate at Week 24.
The purpose of this clinical trial is to investigate the accuracy of applying three-dimensional ultrasound on thyroid gland patients when determining a gland volume. The method will be compared to conventional b-mode ultrasound where three axis measurements (length, width, and depth) are evaluated in the ellipsoid model. The three dimensional (3D) method is utilizing optical tracking connected to the ultrasound image to form cross-sectional imaging. Patients enrolled in the study are set for complete thyroidectomies enabling a true volume of the gland by water displacement after excision. The aim is to find if this 3D method is more accurate in volume estimation than the ellipsoid model.
Thyroid cancer is the most common endocrine malignancy in the world. Generally, thyroid cancer could be divided into well-differentiated and poorly-differentiated. Well-differentiated thyroid cancers usually have two different patterns, including papillary thyroid cancer and follicular thyroid cancer. Thyroid sonography is convenient to obtain repeatedly for the images of nodular goiter. However, cytology and pathology are still the golden rules to make the final diagnosis. Under the basis of sono-guided fine needle aspiration cytology, diagnosis of papillary thyroid cancer is typically using fine needle aspiration cytology based on the presentation of typical cytologic features. On the other hand, thyroid follicular lesion cannot be interpretated via cytology because the evidence of capsular invasion or vascular permeation of capsule will not be available in fine needle aspiration cytology. Surgical intervention with pathological specimens is the only pathway to make the final diagnosis. Interestingly, both patterns of well-differentiated thyroid cancer shared the same follow-up tumor marker, i.e. serum thyroglobulin. Up to date, pre-operative diagnosis of follicular thyroid cancer is still one of the unresolved issues in endocrine oncology.
This phase II trial tests whether vudalimab works to shrink tumors in patients with anaplastic thyroid cancer or hurthle cell thyroid cancer that has spread to nearby tissue or lymph nodes (locally advanced) or has spread to other places in the body (metastatic). Immunotherapy with monoclonal antibodies, such as vudalimab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread.