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Adrenal Tumor clinical trials

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NCT ID: NCT06229405 Recruiting - Pheochromocytoma Clinical Trials

Development of Clinical Evidence for Optimal Management of Adrenal Diseases Based on Real-World Data

Start date: May 10, 2022
Phase:
Study type: Observational [Patient Registry]

This research aims to establish clinical evidence for optimal treatment guidelines for adrenal diseases using real-world data. The approach involves building prospective and retrospective patient registries, which will be utilized to develop and conduct research on disease-specific protocols for adrenal disorders. The study targets patients with primary aldosteronism, pheochromocytoma, adrenal cancer, adrenal incidentalomas, and mild autonomous cortisol secretion. Registries for patients with adrenal diseases will be obtained from Seoul National University Hospital and Asan Medical Center, along with securing a common data model. The ultimate goal is to conduct research to generate clinical evidence for adrenal diseases using these resources.

NCT ID: NCT06050057 Recruiting - Pheochromocytoma Clinical Trials

Surgical Treatment of Adrenal Diseases- Laparoscopic vs. Robotic-assisted Adrenalectomy

Start date: September 3, 2023
Phase:
Study type: Observational

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: 1. to find the superiority of one the the surgical method mentioned above 2. to compare the quality of life in patients with adrenal mass before surgery and after laparoscopic or robotic-assisted adrenalectomy.

NCT ID: NCT05739812 Recruiting - Prostate Cancer Clinical Trials

The Efficacy and Safety of Chinese Domestic Surgical Robot System in Urological Telesurgery

Start date: February 5, 2023
Phase: N/A
Study type: Interventional

A single-arm clinical trial was designed in this study. The surgeon will perform urological telesurgery for patients using Chinese domestically produced "MicroHand S" surgical robot system. The "MicroHand S" surgical robot system consists of two physically separated subsystems named the "surgeon console" and the "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. In addition, surgical instruments and sterile bags are the essential accessories for the "patient side cart". The principle of the telesurgery is as follows: the surgeon console takes the surgeon's input and translates manipulation into a control signal. After network transmission, the signals will be received by the patient side cart and will be used to control the slave robot to manipulate the instruments to perform the operation within the patient's cavity. The 3D images captured by the endoscopic camera will be simultaneously sent back to the screen of the surgeon console as visual feedback. Data between the surgeon console and the patient side cart will be transmitted through a 5G network or other advanced network networking scheme. The surgeon remotely manipulates the slave arms and performs surgeries for patients in remote areas. The safety and efficacy of the robot system in remote clinical treatment will be verified by the primary and the secondary evaluation criteria. One hundred patients with urological diseases will be enrolled in the clinical trial. Primary evaluation criterion: The success rate of the surgery. Surgery success is defined as that all surgeries are performed remotely and safely without transfering to other types of surgery, such as open surgery or normal robot-assisted surgery. Secondary evaluation criteria: Operative time, blood loss, postoperative pain, preoperative adjusting time, hospitalization time, average network latency, task load, peer recognition, anxiety index. Patient enrollment: This experiment aims to investigate the safety and effectiveness of the domestic robot system in clinical urological surgery under the current network networking scheme. It is planned that 100 patients with urinary system diseases will participate in the clinical trial.

NCT ID: NCT04905706 Recruiting - Adrenal Tumor Clinical Trials

3D Laparoscopic Adrenalectomies for Adrenal Tumors

Start date: January 1, 2013
Phase:
Study type: Observational

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.

NCT ID: NCT04127552 Recruiting - Adrenal Tumor Clinical Trials

Impact of Adrenal IncidenTalomas and Possible Autonomous Cortisol Secretion on Cardiovascular and Metabolic Alterations

ITACA
Start date: January 2, 2019
Phase:
Study type: Observational

The investigators hypothesize that cardiovascular and metabolic alterations can occur in patients with adrenal adenomas and possible Autonomous Cortisol Secretion (pACS). Investigators hypothesize that adrenalectomy in selected patients, following the 2016 ECE guidelines, can improve metabolic parameters and cardiovascular risks and features.