View clinical trials related to Adrenal Tumors.
Filter by:- 10% of patients with hypertension potentially have the treatable condition - primary aldosteronism (PA). This is caused by either bilateral adrenal disease (~40%), managed with lifelong medications; or unilateral disease (~60%), cured with laparoscopic surgery (adrenalectomy). Current diagnosis of PA includes a screening test with aldosterone-renin ratio, followed by a confirmatory salt loading test (in most patients) to demonstrate unsuppressed aldosterone levels. Of note, some patients with suppressed aldosterone after confirmatory tests (also termed low-renin hypertension) may also have unilateral adrenal tumors. - The difficulty with identifying curable unilateral disease is due to adrenal vein sampling (AVS): an invasive, and technically-difficult procedure. An alternative novel imaging, 11C-Metomidate Positron emission tomography-computed tomography (PET-CT), can detect adrenal tumors which are over-producing aldosterone. It is non-invasive, non-operator-dependent, and potentially may identify more patients with curable unilateral disease. The results from our pilot study in 25 patients with confirmed PA (ClinicalTrials.gov NCT03990701, PA_CURE) showed that 11C-Metomidate PET-CT exhibited comparable performance to AVS in subtyping PA, and this should be validated in a larger study. - In addition, 11C-Metomidate is also able to differentiate adrenocortical lesions in the adrenal gland from other lesions found in adrenal tissue, such as adrenomedullary lesions (e.g. pheochromocytoma). - Hence, the investigators hypothesize that 11C-metomidate PET-CT can accurately (1) identify patients with surgically curable unilateral adrenal disease among hypertensive Asians with primary aldosteronism (PA_CURE 2 / PA_MTO EH study) and (2) differentiate adrenocortical lesions from other lesions in patients with adrenal tumors (PA_MTO AT study)
This is a prospective study which aims to validate a new diagnostic approach in the tissue characterization of adrenal tumors indeterminate on conventional imaging. For this purpose, it is not necessary to have a control group since the diagnostic accuracy in a well defined subset of patients. Visit 0 : Enrollment, eligibility. Visit 1 : FDG-PET. Visit 2 : Postoperative visit. Visit 3 : 6 months post-PET. Visit 4 : 12 months post-PET.
The purpose of this study is to evaluate changes in adrenal hormones during adrenal radiofrequency (RF) ablation.
This study is a prospective, perioperative evaluation of hemodynamic and respiratory parameters in patients undergoing retroperitoneoscopic adrenalectomies.
The study is a prospective radonmized comparison between needlescopic adrenalectomy and conventional laparoscopic adrenalectomy for benign adrenal tumors less than 5 cm. The operative success rate, operative time, intraoperative blood loss, intraoperative or postoperative complication, postoperative pain, postoperative hospital stay, convalescence, and wound cosmesis were compared.
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 purpose of this study is to find out if your adrenal glands are normal or abnormal. This can be determined by whether or not your adrenal gland concentrates more of a labeled building block of adrenal hormone, norcholesterol. This labeled material had been used as an investigative diagnostic tool for imaging adrenal glands for many years with success in our hands. This is a diagnostic procedure. CT, MRI and Ultrasound can determine the size and presence or absence of tumor but cannot assess the function of the adrenal glands. To determine hormone concentrations from blood samples would involve more invasive catherization.