Clinical Trials Logo

Follicular Thyroid Cancer clinical trials

View clinical trials related to Follicular Thyroid Cancer.

Filter by:

NCT ID: NCT06437873 Completed - Clinical trials for Follicular Thyroid Cancer

Long-term Survival Outcomes of Total Thyroidectomy and Radioactive Iodine Therapy in Unilateral T3/T4 FTC

Start date: January 1, 2000
Phase:
Study type: Observational

This study aims to thoroughly examine survival disparities in patients with T3 or T4 stage follicular thyroid carcinoma (FTC) as classified by the AJCC staging system. It compares outcomes between those who underwent total thyroidectomy (TT) and those who did not, and assesses the influence of radioactive iodine therapy (RAIT) on the survival of patients without TT. Utilizing the SEER database, a retrospective study identified patients diagnosed with T3 or T4 FTC, categorizing them into two cohorts: those treated with TT and those who were not (No-TT). The No-TT group was further analyzed to determine the impact of RAIT on patient survival. Propensity score matching (PSM) was applied to adjust for confounding variables. Survival analysis, including Kaplan-Meier survival curves and Landmark analysis, was conducted to evaluate the effects of surgical intervention and RAIT on overall survival (OS) and cancer-specific survival (CSS).

NCT ID: NCT05668962 Recruiting - Thyroid Cancer Clinical Trials

Restor. I-131 Upt. + Selpercatinib in RET F-P RAI-R TC

Start date: March 1, 2023
Phase: Phase 2
Study type: Interventional

This research is being done to determine the efficacy of selpercatinib to restore radioactive iodine (I-131) uptake and allow for I-131 treatment in people with RET fusion-positive radioiodine-refractory thyroid cancer. This research study involves the study drug selpercatinib in combination with standard of care treatments, I-131 and thyrotropin alfa (rhTSH).

NCT ID: NCT05463107 Recruiting - Thyroid Cancer Clinical Trials

Correlation Between Various Urinary Exosomal Protein Biomarkers and Pathological Manifestation in Thyroid Follicular Neoplasm: Early and Pre-operative Diagnosis of Follicular Thyroid Cancer

Start date: August 1, 2022
Phase:
Study type: Observational

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.

NCT ID: NCT05052359 Completed - Clinical trials for Follicular Thyroid Cancer

Aberrant Helix Pomatia Agglutinin Binding Glycan Expression in Follicular Thyroid Tumours

Start date: January 1, 2018
Phase:
Study type: Observational

Aberration of glycosylation is a hallmark of cancer cells, and plays an important role in oncogenesis and cancer progression, including metastasis. One of the markers of aberrant glycosylation (O-linked) is the binding of the lectin Helix pomatia agglutinin (HPA), which has been demonstrated in a wide range of human cancers, especially in tumours with a more aggressive phenotype. Data on the role of HPA within follicular neoplasms of the thyroid gland are currently lacking, therefore we sought to investigate possible changes in cell surface glycosylation associated with this type of neoplasms.

NCT ID: NCT04948437 Recruiting - Thyroid Cancer Clinical Trials

Urinary Exosomal Biomarkers of Thyroglobulin and Galectin-3 for Prognosis and Follow-up in Patients of Thyroid Cancer

Start date: August 19, 2021
Phase:
Study type: Observational

Now, the investigators carried out a prospective study enrolling patients with thyroid cancer, who had received ablative thyroidectomy and /or radioactive iodine therapy for two more years. The investigators' study already enrolled seventy-three patients with thyroid cancer, and the investigators plan to enroll 30 new patients in this consecutive research study. All patients received total thyroidectomy under clinically surgical judgement in initial therapeutic option. The investigators also further found some difference between papillary thyroid cancer and follicular thyroid cancer, and the investigators will continue annually to closely monitor the change of U-Ex Tg and urinary exosomal galectin-3 between differently cellular types of thyroid cancers.

NCT ID: NCT04544111 Active, not recruiting - Thyroid Cancer Clinical Trials

PDR001 Combination Therapy for Radioiodine-Refractory Thyroid Cancer

Start date: September 2, 2020
Phase: Phase 2
Study type: Interventional

The purpose of this study is to find out whether a drug called PDR001, combined with either trametinib or dabrafenib, is a safe and effective treatment for thyroid cancer.

NCT ID: NCT03639662 Not yet recruiting - Clinical trials for Follicular Thyroid Cancer

Psychological Impact of a Sophrological Accompaniment During the Announcement of Thyroid Cancer

Start date: September 2018
Phase: N/A
Study type: Interventional

Follicular thyroid cancers are excellent prognoses. However, there is a very clear negative impact of the diagnosis on patients' quality of life, partly because of initial care. The therapeutic sequence is often the following: surgery and complementary administration of radioactive iodine 131. This treatment will destroy all thyroid cells remaining and thus minimize the risk of recurrence and facilitate future controls. Radioactive iodine uptake is optimized by stimulating thyroid cells that fix iodine better when the level of TSH is high. For this purpose, hypothyroidism is induced by weaning in hormone replacement therapy or injected with recombinant TSH. Then, a full-body scintigraphy extension is performed followed by a medical consultation. This scintigraphy shows the tissues that fixed the iodine 131, the residual tissues after surgery and / or possible distant metastases. It is recognized that when a patient learns that he has thyroid cancer, he is subject to increasing anxiety between the time of diagnosis and post-treatment scintigraphy. These patients and their loved ones are often distraught and anticipate their future in a negative way, while long-term survival is excellent. How to get these patients to consider their pathology more objectively and thus reduce their anxiety? Sophrology is a psychocorporal method aimed at balancing our emotions, thoughts and behaviors. We suppose that if these patients could benefit from a sophrological accompaniment between the announcement of the diagnosis and the scintigraphy, they could apprehend their pathology with more serenity and reality. No studies providing sophrological support to patients with thyroid cancer have been performed. The anxiety of these patients being largely linked to a feeling of isolation and excessive danger, we think that this care will have an immediate favorable effect on their anxiety, or even in the longer term on their quality of life. The aim is to offer patients a sophrological support provided by each of the 3 participating centers. These group sessions will allow them to understand the place of their future hospitalization, to share with other patients, to obtain answers to their questions, to be listened to with neutrality and empathy, and to learn management techniques. their anxiety in order to reproduce them at home. They will be followed and will not feel abandoned in the face of their distress.

NCT ID: NCT03630120 Terminated - Thyroid Cancer Clinical Trials

Adaptive Tyrosine Kinase Inhibitor (TKI) Therapy In Patients With Thyroid Cancer

Start date: August 6, 2018
Phase: Phase 2
Study type: Interventional

Participants will have been diagnosed with advanced progressive thyroid cancer and are about to start treatment with a tyrosine kinase inhibitor (TKI). The purpose of this study is to evaluate the efficacy and tolerability of tyrosine kinase inhibitor therapy (Lenvatinib or Sorafenib for differentiated thyroid cancer [which includes papillary thyroid cancer, follicular thyroid cancer, and poorly differentiated thyroid cancer]; and Cabozantinib or Vandetanib for medullary thyroid cancer) through adaptive (intermittent) versus conventional (continuous) regimen.

NCT ID: NCT01723202 Active, not recruiting - Clinical trials for Papillary Thyroid Cancer

Dabrafenib With or Without Trametinib in Treating Patients With Recurrent Thyroid Cancer

Start date: November 7, 2012
Phase: Phase 2
Study type: Interventional

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

NCT ID: NCT01441154 Completed - Clinical trials for Papillary Thyroid Cancer

Metabolic Effects of Synthetic Thyroid Hormone for Thyroid Cancer Treatment

Start date: September 20, 2011
Phase:
Study type: Observational

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.