Trail Evaluating Apatinib With IMRT for Inoperable or Iodine Refractory Thyroid Cancer
Thyroid CancerTo determine the efficacy and safety of intensity modulated radiation therapy combined with apatinib for inoperable or iodine refractory thyroid cancer.
Impact of Dissection Area on the Clinical Outcome of Endoscopic Thyroidectomy
Thyroid TumorThe purpose of this study is to investigate whether reduced subcutaneous dissection area could offer patients more clinical benefits.
Feasibility of Endoscopic Thyroidectomy for Thyroid Carcinoma
Thyroid CarcinomaEndoscopic thyroidectomy has been used to treat thyroid diseases in China. However, whether this technique is rational to treat thyroid carcinoma is still in controversy. The diagnosis of thyroid carcinoma is predominantly made according to intra-operative frozen section pathological examination in China. In this research, the investigators want to compare clinical index (blood loss, operation duration, number of lymph nodes dissected, complication rates, etc) between patients underwent endoscopic thyroidectomy ( total thyroidectomy) and those underwent conversion to open procedure. The investigators want to evaluate the technical feasibility of endoscopic thyroidectomy for treating thyroid carcinoma.
rAd-p53 Gene Therapy for Advanced Malignant Thyroid Tumors
Advanced Malignant Thyroid TumorsThis is multicenter, open-label, randomized, active-controled, phase IV study of local direct intra-tumor injection of rAd-p53 monotherapy, with concurrent radioactive iodine , or combination with surgery for treatment of advanced malignant thyroid tumors.
The Dose of Radioactive Iodine Needed to Ablate the Thyroid Remnant Left Behind After Thyroidectomy...
Thyroid NeoplasmsThe thyroid cells take up iodine, and radioactive iodine is commonly used to irradiate residual thyroid tissue and thyroid cancer following surgical removal of the thyroid gland (thyroidectomy). A whole body radioactive iodine scanning is usually carried out after thyroidectomy to assess the amount of thyroid tissue left behind at surgery (that might still contain cancer), and to evaluate the presence of iodine avid lesions elsewhere in the body (that might be cancer metastases). A large dose of radioactive iodine is often given, still the optimal iodine dose to ablate the thyroid remnant after surgery is not known. In this study, two radioactive iodine doses are compared in the ablation of the thyroid remnant, a smaller (1110 MBq) dose and a larger (3700 MBq) dose. The study participants are randomly allocated using a 1:1 ratio to receive either the smaller or the larger radioactive iodine dose. These treatments are compared for safety, adverse effects, and the need for subsequent repeat treatments. The individual absorbed radiation doses are measured. The study hypothesis is that fewer repeat radioiodine treatments might be needed after the larger dose, but the larger dose might be associated with a higher frequency of adverse events.
An Imaging Study in Patients With Thyroid Cancer or Head and Neck Cancer With Pertechnetate Made...
Thyroid NeoplasmsHead and Neck NeoplasmsDoctors at the Cross Cancer Institute have developed a new method of producing 99mTc Pertechnetate in a cyclotron unit. A study done at the Cross Cancer Institute in 2011 with ten patients using this imaging agent showed that it was safe and produced images with the same pattern as generator produced Pertechnetate. This study is now being done in larger numbers of patients to again show that the imaging pattern of both agents is the same, and to again demonstrate its safety.
Study of Anlotinib in Patients With Differentiated Thyroid Cancer(ALTER01032)
Differentiated Thyroid CancerThe purpose of this study is to compare the effects and safety of Anlotinib with placebo in patients with Differentiated Thyroid Cancer.
Comparison Between Robotic, Endoscopic and Traditional Open Surgery in Thyroidectomy
EndoscopyRobotics2 moreComparison of endoscopic thyroidectomy, robotic thyroidectomy and conventional open surgery, the safety of the operation, the timing of the operation and the complications.
Phase 2 Trial of Apatinib Mesylate in Locally Advanced/Metastatic Differentiated Thyroid Carcinoma...
Differentiated Thyroid CarcinomaThis is a non-randomized, phase II, open label study of Apatinib Mesylate in patients with with locally advanced or metastatic differentiated thyroid carcinoma (DTC). The purpose of this study is to evaluate the efficacy and safety of apatinib in patients with locally advanced or metastatic differentiated thyroid carcinoma.
A Clinical Study of Apatinib in Patients With Local Progressive/Metastatic Refractory Thyroid Cancer...
Refractory CancerThis is a single-center, open-label, single arm,exploratory clinical trial evaluating the efficacy and safety of Apatinib in patients with local progressive/metastatic refractory thyroid cancer.