44 Clinical Trials for Various Conditions
This study is being done to identify and differentiate thyroid nodules by acoustic imaging and viscoelastic parameters.
This study evaluates radioiodine planar and SPECT/CT imaging with iodine-123 in patients with follicular thyroid nodules prior to surgery. Because biopsy alone is not sufficient to distinguish between malignant follicular thyroid nodules and benign follicular thyroid nodules, patients with follicular thyroid lesions are referred for surgery for further evaluation. A non-invasive imaging method that can accurately determine malignancy in follicular thyroid nodules would be valuable in patient management and could potentially spare patients unnecessary surgery. Planar imagine uses a gamma camera to obtain 2D images and SPECT/CT imaging is a special type of CT scan in which a small amount of a radioactive drug is injected into a vein and a scanner is used to make detailed images of areas inside the body where the radioactive material is taken up by the tumor cells. Radioiodine planar and SPECT/CT imaging may be more accurate in distinguishing between benign follicular thyroid nodules and malignant follicular thyroid nodules to help reduce the need for surgery.
Patients with small favorable malignant or indeterminate thyroid nodules will receive information about management of thyroid nodules. Participants will be asked to complete brief surveys at the time of enrollment, shortly after the consultation appointment with the surgeon, and a few months after either the consultation or the surgery, to assess their satisfaction with their decision and decision making process. All participants will receive routine care and counseling by their endocrinologist and surgeon.
This clinical trial evaluates deoxyribonucleic acid (DNA) methylation signatures in diagnosing and managing thyroid nodules. The purpose of this research is to develop a new test for thyroid cancer. This test will use needle biopsies (small collections of tissue with a needle) from the thyroid to determine whether the participant has a malignant (cancer) or benign (not showing cancer) thyroid tumor. The information learned from this trial may help develop a more accurate test so that patients do not have unnecessary surgeries for nodules that are thought to be suspicious but are actually benign.
The purpose of this observational chart review study is to evaluate the efficacy and safety of Radiofrequency Ablation (RFA) for treatment of indeterminate thyroid nodules before and after RFA procedure. This is a data collection study in which the investigators ask patients to give access to information generated before and after RFA treatment of their condition. The RFA procedure uses image guidance to place an electrode through the skin into the target area. In RFA, high-frequency electrical currents are passed through an electrode, creating a small region of heat to treat the lesion.
The purpose of this observational research is to evaluate and compare clinical outcomes after treatment for symptomatic benign multinodular goiter (MNG) patients. This is a data collection study in which we ask participants to give access to information generated before and after treatment of their condition.
This phase IV trial studies the effect of radiofrequency ablation in treating patients with benign or low risk thyroid nodule. Radiofrequency ablation uses a needle to deliver a high-frequency electric current to kill tumor cells by heating them. The goal of this research study is to learn if ultrasound guided radiofrequency ablation can provide the same treatment result as standard surgical removal of the thyroid nodule, small primary thyroid, or thyroid cancers that have come back. Researchers also want to learn if the procedure can be less invasive and perhaps provide a better recovery response than surgery.
This study is being done to help researchers learn more about and successfully diagnose cancer using blood samples and tissue samples from surgeries in patients with suspicious thyroid nodules or thyroid cancer. Diagnosing cancer in this way, as opposed to biopsies, may be less invasive to the patient. Analyzing blood and tissues samples may also help researchers to differentiate non-cancerous tumors from thyroid cancer and detect high-risk mutations to guide treatment.
This is a prospective trial to evaluate the effects of laser ablation on symptomatic benign thyroid nodules. The study is designed to assess the clinical efficacy, safety, tolerability and impact on symptoms of single ultrasound guided laser ablation treatment of symptomatic benign thyroid nodules. Approximately 20 subjects will undergo laser ablation of symptomatic benign nodules.
A clinical trial is proposed, to clinically validate, in a US population, the diagnostic performance of a new genetic test (ThyroidPrint). It will determine the nature of thyroid nodules that have been informed as indeterminate by cytology through a fine needle aspiration (FNA). The Genetic Classifier for Indeterminate Thyroid Nodules is a test that determines the expression of a panel of 10 biomarkers (CXCR3, CCR3, CXCl10, CK19, TIMP1, CLDN1, CAR, XB130, HO-1 and CCR7). Gene expression data is analyzed through an algorithm that generates a composite score that predicts the risk of malignancy. It´s intended use is for patients with thyroid cytology as indeterminate (Bethesda III and IV, according to The Bethesda System for Reporting Thyroid Cytopathology). This test uses a fine needle aspiration (FNA) sample.
This clinical trial studies how well ultrasound elastography works in assessing the cancer status of potentially malignant thyroid nodules.
Thyroid Feasibility Study
The objective of this project is to evaluate a treatment decision aid for patients with low risk thyroid cancer.
When the DNA inside of human cells undergoes certain alterations (mutations), the cells may develop into a cancer. The cancer cells may shed this DNA into the blood stream. This circulating tumor DNA (ctDNA) can be detected by very sensitive, specialized laboratory tests. Measurement of ctDNA has been shown to be useful for following patients with known cancer. The purpose of this study is to examine blood specimens for the presence of ctDNA in individuals without known cancer who are scheduled to undergo a fine needle aspiration biopsy of the thyroid gland because of one or more thyroid nodules in order to see if the ctDNA test can detect a cancer at a very early stage. The results of this study should help define the role of ctDNA in the detection of early stage thyroid cancer and to define how sensitive it is (i.e. how well it picks up cancer when it is present) and how specific it is (i.e. how often is ctDNA found in patients with benign thyroid nodules).
The purpose of this study is to compare the performance of Afirma GSC and ThyroSeq v.3 in indeterminate thyroid nodules to determine which test can allow more patients to avoid unnecessary surgery and preserve quality of life. In the initial phase of this study, the performance of Afirma GEC and ThyroSeq v.2 were compared.
Recently, targeted next generation sequencing (NGS) platforms have been introduced that allow inexpensive testing for hundreds of mutational hotspots at the same time. A number of additional mutational markers in thyroid cancer have been identified. Highly promising markers associated with tumor prognosis have also been found. This multi-institutional study aims to validate the diagnostic use of mutational markers in thyroid nodules with indeterminate cytology. The proposed hypothesis is that a broad NGS-based genotyping of thyroid nodules using a large panel of mutational markers applied to thyroid FNA samples can provide an accurate cancer risk stratification in thyroid nodules. The performance of the panel will be tested in a multi-institutional double-blind prospective study of FNA samples from thyroid nodules with indeterminate cytology and available surgical outcome
Shear wave ultrasound elastography is a new technique of finding the softness or hardness in tissue by applying a "push" generated by the machine. This technique will help in diagnosing malignancy in the thyroid gland without biopsy and avoiding biopsy in noncancerous nodules.
This study will investigate the usefulness of an optical probe in the differentiation of thyroid cancer from normal thyroid tissue in a thyroidectomy specimen. This is the next step in the research that this team has conducted through our prior Institutional Review Board (IRB)H-28135, in which the investigators successfully demonstrated that use of the optical probe readings on thyroid specimens ex vivo could successfully discriminate benign from malignant disease. The Elastic Scattering Spectroscopy (ESS) probe has also been IRB approved and a clinical trial conducted in vivo at Boston University/Boston Medical Center by Dr. Satish Singh and Dr. Irving Bigio. The investigators intend to now bring this project to the clinical setting of thyroid disease. The optical real-time readings will be compared to the histological analysis from the same area. Subjects already undergoing thyroid biopsy for thyroid disease including thyroid nodules, thyroid cancer and thyroid goiter with nodules will be eligible to participate. During the already scheduled thyroid procedure using a fine needle aspiration biopsy needle, optical readings will be taken from the thyroid gland and these same areas will then be analyzed in the usual standard fashion. The reading will then be correlated with the histological results. In addition, if lymph nodes are biopsied as part of the evaluation they will also be tested prior to histological standard processing. All specimens and data will be de-identified once data collection and analysis is complete. Our goal is to use optical real-time readings to improve the differential diagnosis of benign from malignant thyroid nodules and avoid surgery for the purpose of diagnosis alone.
This study will evaluate thyroid nodules using specialized ultrasound imaging methods.
Patients over the age of 18 with thyroid nodules scheduled for surgery will undergo EIS scan. Each node will be scanned and graded form 1-5 (1=benign, 5=malignant). Results will be compared with final histopathology.
The main purpose of this study is to see how well FDG-PET scans can determine the malignancy of thyroid nodules that have already been tested (and come back positive) by fine needle aspiration.
RATIONALE: Finding genetic markers for thyroid cancer in a biopsy specimen may help doctors diagnose thyroid cancer. PURPOSE: This clinical trial is studying how well genetic analysis works in diagnosing thyroid cancer in patients with thyroid nodules.
Benign thyroid nodules can still create cosmetic, compressive, or hormonal issues for patients. In the past, surgery was typically used to treat thyroid nodules causing the above issues through partial or complete thyroidectomy. More recently, minimally-invasive techniques have been developed to treat these issues. This study is investigating the use of one of these techniques, radiofrequency ablation, in Latinx patients with benign symptomatic thyroid nodules. This procedure is of interest because it avoids the risks of surgery and can be done outside an operating room. The study hypothesis is that the use of RFA is an effective and safe therapeutic option for LatinX patients with a symptomatic benign nodule wishing to avoid surgery.
Our overall hypothesis is that Contrast-enhanced ultrasound (CEUS) and Shear Wave Elastography (SWE) will allow for high diagnostic accuracy of benign and malignant thyroid nodules, which will correlate with and complement the ACR TI-RADS classification system, allowing for more accurate diagnosis of benign and malignant thyroid nodules.
There is an epidemic of thyroid cancer that is harmful to patients and the medical system. The study hypothesizes that the use of an electronic conversation aid during clinical visits can help patients and clinicians collaborate when deciding the next step in management for a thyroid nodule. The study aims to update a conversation aid prototype that was developed to support shared decision making in the diagnosis of thyroid cancer. This entry (Aim 1) has an associated study (Aim 2) registered under NCT04463719
There is an epidemic of thyroid cancer that is harmful to patients and the medical system. The study hypothesizes that the use of an electronic conversation aid during clinical visits can help patients and clinicians collaborate. The study aims to update a conversation aid prototype that was developed to support shared decision making in the diagnosis of thyroid cancer and conduct a pilot clinical trial to evaluate the feasibility of conducting a larger efficacy study.
The purpose of this registry is to collect uniform genomics-centered data on patients with nodular thyroid disease and cancer in a prospective fashion. After initial clinical evaluation patients with thyroid nodules will undergo standard ultrasonographic evaluation and a needle biopsy of the thyroid (fine needle aspiration (FNA) or core biopsy) as clinically indicated. Biopsy samples will be evaluated cyto-pathologically. A molecular/genomic profiling will be obtained using Thyroseq v2 test. Surgical treatment will be performed as per clinically determined indications. Standard surgical pathology will be processed and reported per the institutional policy and procedures. A molecular/genomic profiling will be obtained using Thyroseq v2 on the surgical specimen. All patients undergoing thyroid nodule work-up may be enrolled. The registry will collect patient demographic and clinical data, cytopathology reports, and surgical pathology reports and slides (if/when a review is required).
As many as 70-85% subjects diagnosed with a follicular lesion on biopsy and undergoing surgery will have benign lesions verified by histopathology after surgery. Currently there is no method of pre-operatively diagnosing benign follicular lesions, as a result these subjects will have had surgery for diagnosis of a benign lesion. The aim of this study is to see whether shear-wave elastography, a new ultrasound technology can help pre-operatively diagnose benign follicular lesions. If successful, a lot of patients will not need surgery for the diagnosis of a benign lesion. The main goal of this study will be to evaluate the diagnostic accuracy of a new ultrasound technology, shear-wave elastography (SWE), for the diagnosis of malignancy in follicular lesions. Participants who have been diagnosed with a follicular lesion on thyroid biopsy and are scheduled for thyroid surgery will be eligible to participate. All participants will undergo a detailed ultrasound examination prior to their surgery. The results of the ultrasound will be compared with histopathology after surgery to test the diagnostic accuracy of SWE.
One of the major side effects of surgery to remove the thyroid gland is transient (lasting for a short time) low calcium levels in the blood, or "hypocalcemia." Low calcium levels can cause symptoms such as numbness around the mouth, tingling or cramping in the hands and feet, severe muscle spasms, inability to breathe, or heart rhythm (heart beat) abnormalities. Severe symptoms are life threatening, so it is important to start the management of these symptoms in the hospital. Treating low calcium levels sometimes require patients to spend a few extra days in the hospital. The human body needs vitamin D to function and stay healthy. Vitamin D helps the body get the calcium needed to make strong bones and teeth. The purpose of this study is to determine if taking vitamin D before surgery to remove the thyroid gland affects whether or not you may have low calcium levels after your surgery and to test the hypothesis that those who are given the Vitamin D before surgery will have decreased hypocalcemia and a shortened hospital stay.
This study will investigate the usefulness of an optical probe in the differentiation of thyroid cancer from normal thyroid tissue in a thyroidectomy specimen.