Active clinical trials for "Adrenal Gland Neoplasms"

The main drawbacks of conventional 2D laparoscopy are limited depth perception and loss of spatial orientation. High-quality 3D laparoscopy systems might improve surgical outcomes for adrenalectomy.

The adrenal cancer research network "COMETE" is federating French research on rare adrenal cancers. COMETE achieved major breakthroughs in the molecular characterization of adrenocortical carcinomas (ACC) and malignant pheochromocytomas/paragangliomas (MPP). Recently, COMETE successfully derived potential biomarkers for prognosis, theranostic and follow-up. Those biomarkers have been retrospectively validated. However the benefit for patients in real life conditions is not yet established. Main objective : to implement COMETE biomarkers as a routine standard of care for adrenal cancer. The primary end point is double : Proportion of biomarkers results provided within 3 months after surgery, The proportion of "informative" biomarkers, corresponding to markers passing quality controls and returning a value that is not in the grey zone of the measure. Secondary objective : to estimate the impact of COMETE biomarkers on patients management. Secondary endpoints : Proportion of patients with discrepant clinical and molecular markers ; for discrepancies, proportion of decisions impacted by biomarkers results Proportion of high risk patients for whom an actionable molecular target was identified Predictive value (positive and negative) of biomarkers to detect recurrences Molecular signatures of "extraordinary responders" to treatments (corresponding to the exceptional RECIST complete response, or to the >80% tumor reduction sutained for >6months)

Background: Endocrine neoplasms (tumors) are among the fastest growing tumors in incidence in the United States. Furthermore, it is often difficult to distinguish between benign or malignant tumors in cancers of the thyroid, parathyroid, adrenal gland, and pancreas. More research is needed to improve detection and treatment options for patients who develop these kinds of cancer. Researchers are interested in studying the molecular changes that are involved in endocrine cancer development and growth. To collect a sample of tumor specimens and healthy tissue for further study, researchers are specifically looking for samples from patients who are scheduled for surgery or biopsy on endocrine tumors. Objectives: - To collect samples of precancerous, cancerous, and healthy tissue from individuals who are scheduled for surgery or biopsy of endocrine system tumors. Eligibility: - Individuals who have a tumor in or around their thyroid, parathyroid, adrenal gland, pancreas, or any neuroendocrine tissue, and are scheduled for surgery at the National Institutes of Health Clinical Center. Design: Participants in this study will provide blood and urine samples prior to surgery. During the surgery or biopsy, pieces of the tumor or precancerous growth and pieces of normal tissue near to the tumor will be removed for ongoing and future research. The rest of the tumor or growth will be sent for analysis. After surgery, participants will receive routine care until discharge, and doctors will discuss possible treatment options. If there is an appropriate NIH protocol, participants may choose to be treated at the NIH. After discharge, participants will return to the clinic for a routine postoperative check about 6 weeks following the operation, and then may be followed yearly at the Clinical Center or by phone....

The pathogenesis of adrenal tumors is still not fully elucidated and the treatment options for malignant tumors are poor. The current study investigates different aspects of the pathogenesis of adrenal tumors and evaluates different therapeutic options in patients with adrenocortical carcinoma.

The adrenal gland is an important organ that produces life hormones. There are many types of adrenal tumors, which tend to occur in young adults and affect the whole body. It has the dual threat: hormone secretion and tumor metastasis. At present, there are four major dilemmas in the clinical diagnosis and treatment of adrenal tumors: 1) Pulse secretion of the hormones, which are affected by many factors; and the diagnostic value of single hormone is limited; 2) Traditional imaging cannot accurately reflect the characteristics of hormone secretion. The prognosis cannot be accurately predicted; 3) The molecular characteristics of tumor cells and the microenvironment are unclear, making it difficult to implement early diagnosis and precise treatment; 4) Traditional pathology cannot determine the nature and long-term prognosis of the tumor, which makes the treatment delay, and the disease prognosis is extremely poor. It threatens the lives of patients. Starting from solving the above-mentioned key problems in the early stage, the research team has systematically established new clinical diagnostic technologies, hormone dynamic tests to accurately assess hormone secretion and segmented blood collection hormone determination technologies to accurately locate adrenal tumors; A series of important research results have been published in Science, Lancet Diabetes & Endocrinology, Cell Research, etc To sum up, the goal of this research is improving the early diagnosis rate of complicated adrenal tumors especially in malignant tumors, developing the optimal treatment plan, avoiding unnecessary surgical treatment, improving the quality of life of patients, reducing mortality. This project will further integrate the adrenal cortex and medulla hormone mass spectrometry detection and the molecular markers of adrenal tumors through phenotypic, functional imaging, and molecular pathological evaluations, and built a sensitive drug screening platform that integrates visual drug response and molecular characteristics, thereby achieving precise diagnosis and treatment of complicated adrenal tumors.

The goal of this multicenter, observational, analytic, randomized clinical trial is to analyze the laparoscopic and robot-assisted method in the surgical treatment of patients with adrenal diseases. The main question it aims to answer are: to find the superiority of one the the surgical method mentioned above to compare the quality of life in patients with adrenal mass before surgery and after laparoscopic or robotic-assisted adrenalectomy.

Background: - Adrenal tumors are a common kind of tumor. Some of these secrete extra cortisol into the body, which can lead to diabetes, obesity, and other diseases. Some people with extra cortisol will show symptoms like bruising and muscle weakness. Others will show no signs. This is called subclinical hypercortisolism. Some of these adrenal tumors become malignant. Researchers want to know the best way to treat people with subclinical hypercortisolism. They want to know if removing the tumor by surgery reduces the long-term effects of the disease. Objectives: - To see if removing an adrenal tumor by surgery improves blood pressure, diabetes, obesity, osteoporosis, or cholesterol, and cancer detection. Eligibility: - Adults 18 and older with an adrenal tumor and high cortisol levels. Design: Participants will be screened with medical history, blood tests, and a computed tomography (CT) scan. Participants will have a baseline visit. They will have blood and urine tests and 7 scans. For most scans, a substance is injected through a tube in the arm. Participants will lie still on a table in a machine that takes images. Participants will have surgery to remove their tumor. Some will have surgery right away. Some will have surgery 6 months later, after 2 follow-up appointments. Participants will have 4 follow-up visits in the first year after surgery. They will have 2 visits the second year, then yearly visits for 3 years. At each follow-up visit, they will have scans and blood tests.

This study will evaluate the clinical response and safety of cone beam computed-tomography guided percutaneous cryoablation in bone metastases from thyroid, adrenal and neuroendocrine tumors in 30 patients.

One-arm clinical trial was adopted in this study. The surgeons performed remote urological surgery for patients through domestically produced "MicroHand" surgical robot system (Shandong Weigao Co., Ltd). The "MicroHand" surgical robot system consists of two physically separated subsystems named the "surgeon console" and "patient side cart". The surgeon console includes a stereo image viewer, two master manipulators, a control panel and several foot pedals. The patient side cart includes a passive arm that can slide in the up-down direction and be adjusted forward and backward, a swivel head that can rotate around the vertical axis, and three slave arms (one for the endoscopic camera and the other two for surgical instruments). The surgeon console (based in Qingdao) takes the surgeon's input and translates it into a control signal. After network transmission, the patient side cart (based in Anshun) translates the control signal into actual instrument manipulation. The 3D images captured by the endoscopic camera were simultaneously sent back to the screen of the surgeon console as visual feedback. Data between the surgeon console and the patient side cart were transmitted through a 5G network. The safety and effectiveness of the robotic system in remote clinical diagnosis and treatment were verified by the main judgment criterion and secondary judgment criterion. Six patients are planned to enroll in the clinical trial. Main judgment criterion: The robot-assisted telesurgery did not transfer to other types of surgery, such as open surgery or normal robot-assisted surgery. Secondary judgment criterion: operative time, blood loss, postoperative pain, preoperative adjusting time and hospitalization time. Patient enrollment: This trial aims to explore the safety and effectiveness of the domestically produced robotic system in remote clinical diagnosis and treatment through 5G network. Six patients are planned to enroll in the clinical trial, including 2 patients with adrenal tumor, 2 patients with bladder cancer and 2 patients with renal cell carcinoma.

The general objective is to evaluate the consequences of surgical removal of SCSI on hypertension and cardiovascular risk factors in order to determine on an evidence-based basis if surgical excision of SCSI is preferable to an intensive medical regimen in patients with hypertension.