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To track the outcomes of patients who have been treated with RFA and its long-term effectiveness, and to learn more about the quality of life of patients who have received RFA in this study.
Persons diagnosed with thyroid cancer are often treated initially with a thyroidectomy, which is followed by ablation using Iodine-131, a therapy which has been shown to be effective and safe. Imaging of metastatic thyroid cancer has been performed with whole body I-131 and Iodine 123 (I-123) imaging for many decades and use I-123 for staging studies. Iodine 124 (I-124) is a radioisotope of iodine which emits a positron and is imaged using PET (positron emission tomography). This is a single arm prospective trial that evaluates the ability of Iodine-124 (I-124) to detect metastatic thyroid cancer compared to non-interventional, usual care I-123 and I-131 images.
This phase II trial tests how well XL092 works for the treatment of patients with differentiated thyroid cancer that has not responded to previous treatment with radioiodine (radioiodine refractory) and that has spread to nearby tissue or lymph nodes (locally advanced) or that has spread from where it first started (primary site) to other places in the body (metastatic). XL092 is in a class of medications called tyrosine kinase inhibitors. It works by blocking the action of an abnormal protein that signals cancer cells to multiply, which may help keep cancer cells from growing.
To look at the effectiveness of zanzalintinib, followed by surgery, in treating advanced thyroid cancer. The safety of this treatment will also be studied.
This multicenter study examines the safety and feasibility of the combination of neoadjuvant XL092 and cemiplimab prior to surgical resection in participants with wild-type (WT) anaplastic thyroid cancer (ATC) that has a BRAF mutation (BRAF V600E).
The goal of this clinical research study is to learn about the barriers in the real world to accessing treatments for ATC. And to learn about how patients with ATC tolerate and respond to the commercially available medications for treatment of this disease, outside of a clinical study.
This phase III trial compares the effect of cabozantinib versus combination dabrafenib and trametinib for the treatment of patients with differentiated thyroid cancer that does not respond to treatment (refractory) and which expresses a BRAF V600E mutation. Cabozantinib is in a class of medications called receptor tyrosine kinase inhibitors. It binds to and blocks the action of several enzymes which are often over-expressed in a variety of tumor cell types. This may help stop or slow the growth of tumor cells and blood vessels the tumor needs to survive. Dabrafenib is an enzyme inhibitor that binds to and inhibits the activity of a protein called B-raf, which may inhibit the proliferation of tumor cells which contain a mutated BRAF gene. Trametinib is also an enzyme inhibitor. It binds to and inhibits the activity of proteins called MEK 1 and 2, which play a key role in activating pathways that regulate cell growth. This may inhibit the growth of tumor cells mediated by these pathways. The usual approach for patients with thyroid cancer is targeted therapy with dabrafenib and trametinib. This trial may help researchers decide which treatment option (cabozantinib alone or dabrafenib in combination with trametinib) is safer and/or more effective in treating patients with refractory BRAF V600E-mutated differentiated thyroid cancer.
Papillary thyroid cancer (PTC) is the most common form of differentiated thyroid cancer (DTC). The traditional first line treatment for patients with advanced DTC after surgical resection is radioactive iodine (RAI) therapy. However, less than a quarter of patients with lung metastases will achieve a complete response to RAI therapy, and this therapy carries the risk of pulmonary fibrosis and an increasingly recognized risk of secondary malignancies.
The objective of this study is to demonstrate the clinical utility of I-124 PET/CT imaging and dosimetry in patients with thyroid cancer including 1) Evaluation of extent (volume and pattern) of remnant tissue in post total thyroidectomy setting and distinction of nodal metastases vs remnant tissue for determination of indication for RAI ablation, 2) Evaluation of response to RAI remnant ablation, 3) Evaluation for suspected occult recurrent/metastatic disease, 4) Evaluation of extent of disease in patients with known metastatic disease and 5) Evaluation of RAI avidity of recurrent/metastatic thyroid cancer and response to treatment with thyroid kinase inhibitors (TKI). Patients who underwent total thyroidectomy for thyroid cancers are studied. Patients who are newly diagnosed, as well as those who have known or suspected to have recurrent or metastatic disease are eligible. Patients receiving TKI treatment are eligible for evaluation prior to and after the treatment. The patients who are considered for TKI/MAPK treatments undergo pre and post treatment with clinically determined oncoprotein/TKR therapeutic agent(s), including multi-TKI, selective BRAF, MEK, PI3K or ERK inhibitors or combination treatments.
Ideal surgical extent for differentiated thyroid cancer remains unclear. Routine use of molecular analysis in biopsy-proven thyroid cancer could provide important prognostic information to help guide extent of surgery - thyroid lobectomy versus total thyroidectomy. This is a pilot feasibility study for the use of routine molecular analysis in Bethesda V and VI thyroid cancers, with randomization of the intermediate-molecular risk subgroup to thyroid lobectomy and total thyroidectomy. The investigators hypothesize that patients will 1) agree to preoperative molecular analysis, and 2) 50% of intermediate-risk patients will agree to and follow through with randomization. This will be a pilot study for a future randomized controlled trial (RTC) to compare between the two surgical approaches in intermediate-molecular risk thyroid cancer.