View clinical trials related to Papillary Thyroid Cancer.
Filter by:Thyroid cancers that have spread beyond the neck are not curable. About 30,000 people worldwide die from thyroid cancer every year. Usually, thyroid cancers get worse because the cancer cells become more and more abnormal through a process that is called dedifferentiation. Radioactive iodine is a standard treatment for this type of thyroid cancer. Patients will usually receive multiple dose of radioactive iodine over the course of their cancer journey. Thyroid cancers lose sensitivity to radioactive iodine as the cancer progresses/worsens with the process of dedifferentiation. When this occurs, the radioactive iodine treatments no longer work against the cancer and the cancer grows. Radioactive iodine enters cancer cells through transporter proteins on the outside of the cancer cell. The transporter proteins that are the most important are the sodium iodide symporters. As thyroid cancers dedifferentiate, these symporters stop working as well as they once did. The radioactive iodine can therefore not get into the cancer cells to cause cancer cell death. Laboratory research has shown that in thyroid cancer, a protein on the cell called platelet derived growth factor receptor alpha (PDGFRα) is an important for tumour growth and thyroid cancer dedifferentiation. PDGFRα helps cancer progression and lowers the ability of sodium iodine symporters to move radioiodine into cells where it would normal act to kill the cancer cells. PDGFRα therefore makes thyroid cells resistant to radioactive iodine. Imatinib is an anti-cancer drug that blocks PDGFRα function. It has been used for many years to treat other cancers such as leukemia. The investigators who wrote this study believe that, base on laboratory testing, if thyroid cancer patients are given imatinib whenafter their cancers have become resistant to radioactive iodine, the imatinib will block PDGFRα. This will let the sodium iodine symporters work again and move the radioactive iodine into the cancer cells. This should shrink the tumours. Imatinib would then make the thyroid cancer cell sensitive to radioactive iodine again. This should shrink the tumours and would mean longer control of the cancer, helping people with this disease live longer.
Localized thyroid cancer is potentially curable. Before thyroid surgery, an ultrasound test is done to see if cancer has spread to the lymph nodes in the neck. Excellent for evaluation of the thyroid gland, this test has limitations in evaluating larger anatomic areas, like all groups of lymph nodes in the neck. It has a limited area of coverage making it difficult to define an area of interest, depends on the skill level of the person performing it, and is difficult to exactly reproduce on follow-up. For these reasons, CT is often performed in these patients but without intravenous (IV) contrast since iodine-based contrast agents may saturate the thyroid, limiting the usefulness of other iodine-based diagnostic and treatment options. However, contrast-CT can give more detailed information about tumor spread including spread to lymph nodes. We aim to determine if use of IV contrast agent during CT leads to earlier and more accurate detection of lymph node disease from thyroid cancer.
This is an open-label, multicenter, global Phase 2 basket study of entrectinib (RXDX-101) for the treatment of patients with solid tumors that harbor an NTRK1/2/3, ROS1, or ALK gene fusion. Patients will be assigned to different baskets according to tumor type and gene fusion.
This research study is performed to compare the accuracy of two methods of lymph node evaluation: research method versus standard method. Standard method is what is usually performed as standard of care where the radiologist evaluates the images overall and decides whether each node seen should or should not be biopsied. In the research method, a second radiologist will evaluate the ultrasound images of the lymph nodes separately, and use a small specific checklist of ultrasound appearance to determine whether each node should or should not be biopsied. Results of both the standard and research method will be used to decide which node(s), if any should be biopsied. Neck ultrasound examination, lymph node evaluation by standard method and subsequent lymph node biopsy are part of the standard clinical care. It is less likely but possible that the research method may identify additional lymph nodes for biopsy to check if that lymph node contains thyroid cancer.
Magnetic resonance imaging (MRI) is a diagnostic technique that takes pictures of organs of the body. It uses magnetic fields and radio waves that cannot be felt. Perfusion MRI uses faster imaging. It also includes a contrast material that is given by vein. This makes specific organs, blood vessels, or tumors easier to see. Diffusion MRI lets us measure the motion of water in the tumor. Perfusion and diffusion MRI give extra information which is not available with the regular MRI. A regular MRI only shows pictures of the tumor. Thyroid MRI scans are not part of the current standard of care. The purpose of this study is to see if new MRI methods can give us more information about the tumor.
Bipolar sealing and cutting devices such as EnSeal® G2 Tissue Sealer are surgical instruments that use electrical powered diathermic energy to seal and transect tissue. These devices have shown high efficiency in a wide variety of open and laparoscopic general and gynecological surgical procedures. The surgical performance of the EnSeal® has shown to be comparable to that of ultrasonic cutting devices in several studies. However, the efficacy of this instrument and in particular of new instruments such as the EnSeal® G2 Tissue Sealer has not been evaluated in thyroid surgery. Our primary aim is to verify whether the EnSeal® performance is superior to the standard surgical technique for thyroidectomy in a randomized clinical trial on 2 different institutions.
We assess the effectiveness of percutaneous ethanol ablation for the treatment of thyroid cancer.
This randomized phase II trial studies how well dabrafenib works with or without trametinib in treating patients with recurrent thyroid cancer. Dabrafenib and trametinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. It is not yet known whether dabrafenib is more effective when given with or without trametinib in treating thyroid cancer
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.