View clinical trials related to Thyroid Diseases.
Filter by:The Collar Therapy Indicator (CoTI) (A device that is placed in collar around the neck resembling a turtle neck sweater collar with a wire and recording box) has been shown in a single small previously published experience to provide data regarding radioiodine exposure that correlates with conventional methods of measuring I-123 and I-131 uptakes after diagnostic dose administration and/or therapy for thyroid disorders. We hypothesize that the device's continuous measurement capability will permit more accurate estimates of radiation exposure to thyroid tissue than conventionally employed methods assessing fractional uptake at one or a few time points. It may also provide information about the extent of variability in the absorbed radiation dose among patients with thyroid cancer and hyperthyroidism. By providing more complete information about individual patient's exposures, it will facilitate more accurate estimation of the administered I-131 dose requirements for control of hyperthyroidism and thyroid remnant ablation while reducing the need for repeated visits to the clinic for dosimetry measurements. The aims of our project include the following: (1)To compare quantitative imaging-derived thyroid time activity curve to that obtained using the CoTI and to determine the extent to which there is variability in radiation dose predicted using conventional methods to that predicted from measurement of the full Time-Activity Curve (TAC).(2) Evaluate the uptake and clearance kinetics across the 5 patients in each category as proof of principle for a potential larger trial to investigate use of this device in optimizing the administered doses of radioactive iodine to achieve therapeutic goals while minimizing risks of comorbidities, such a post-radioiodine hypothyroidism in patients with Graves' disease.(3)Evaluate patient experience, convenience, and discomfort in using the CoTI device with a survey instrument.
Thyroid nodules are a very common clinical problem with prevalence of up to 68% in adults on high-resolution ultrasound .Ultrasound used in order to differentiate between benign and malignant lesion in the thyroid has shown sensitivity of 93.8% and specificity of 66% and US guided ( Fine needle aspiration ) FNA is known to be the test of choice in order to determine the nodules nature . Four to 6.5 % of all nodules are malignant .There are several guidelines that were suggested to help predict the risk stratification of thyroid nodules by ultrasound . The American Thyroid Association (ATA) is widely used as evaluation, clinical and ultrasound criteria for fine-needle aspiration biopsy and management of thyroid nodules. The recent ACR TIRADS is a reporting system for thyroid nodules on ultrasound proposed by the American College of Radiology (ACR) published april 2017 that uses a slightly different scoring system for recommendation for FNA of thyroid. The aim of this study is to validate TIRADS ACR 2017 risk stratification in the patient population in comparison to ATA risk stratification
The aim of this study is to complete the identification of genetic factors predisposing to thyroid associated ophthalmopathy (TAO) by constituting a cohort of 400 Grave's patients with or without ocular signs.
To study the protective effect of suture parathyroid marker method on the function of parathyroid gland in thyroid cancer surgery
The main objective of the study is to show that the addition of ultrasonography to the dual tracer scintigraphy MIBI-Tc99m/Iodine-123 will increase (at least +5%) the negative predictive value compared to the dual tracer scintigraphy alone in detection of malignancy in thyroid nodules ≥15 mm classified as Bethesda III-IV on cytology.
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.
In accordance with the current guidelines,papillary thyroid microcarcinoma such as turmo invasive nerve or trachea, requires total thyroidectomy for follow-up iodine-131 treatment.In the course of clinical work, if the patient can achieve R0 resection, most of the patients do not need iodine-131 treatment,Therefore, there is no need to continue total thyroidectomy.To evaluate the practicable, thoroughness and Clinical value of bilateral central compartment dissection while preserve contrary thyroid glands.
This is a single center prospective clinical trial with regard to efficacy and safety of radiofrequency ablation of papillary thyroid microcarcinoma.
This phase I trial studies the side effects and best dose of cord blood-derived expanded allogeneic natural killer cells (donor natural killer [NK] cells) and how well they work when given together with cyclophosphamide and etoposide in treating children and young adults with solid tumors that have come back (relapsed) or that do not respond to treatment (refractory). NK cells, white blood cells important to the immune system, are donated/collected from cord blood collected at birth from healthy babies and grown in the lab. Drugs used in chemotherapy, such as cyclophosphamide and etoposide, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving NK cells together with cyclophosphamide and etoposide may work better in treating children and young adults with solid tumors.
Since 2017, a revolution began in the departments of nuclear medicine, with the routine use of gamma-cameras with semiconductor. These gamma-cameras (which obtained the CE-marking in 2016), offer a technological breakthrough by providing an additional information. They allow "to quantify" for the 1st time in clinical routine conditions, the quantity of radioactivity, by means of a "SUVspect", in a volume of interest, while respecting the recommendations of best practice of the learned societies of French nuclear medicine (SFMN), European (EANM) and American (SNM), without injection of tracer nor acquisition or additional irradiation. The SUVspect is therefore an indicator of the quantity of tracer in a given volume of acquisition. Until now, the interpretation criteria of scintigraphies are based on the homogeneity of distribution of a tracer in the explored organ (for single organs such as the heart or the thyroid, for example) or in the asymmetry of distribution of the tracer (for the double organs, such as the kidney or the joints). This new gamma-camera allows to study the distribution of the radio-tracers in "list" mode, allowing to retrospectively reconstruct the images in various ways (for example, by modifying the size of the matrix of acquisition, the energy windows, the time of acquisition). Therefore, we can simulate and propose modifications in current procedures. Every patient referred to our department of nuclear medicine to undergo a scintigraphy with a tracer of nuclear medicine (with a marketing authorization) can, while benefiting from an examination by this gamma-camera, to be the object of this study, and to profit from this additional information. So, without changing the diagnosis or the usual care, we wish to take advantage of this additional information to improve the criteria of interpretation of our examinations. This possibility being new, there is no available bibliography (our department is the 5th department of nuclear medicine in Europe to equip itself with this large field-of-view gamma-camera CZT, the DNM 670, made by General Electric), while 2961 articles speak about the SUVmax (in PET) in Pubmed.