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NCT06246357
Background: The adrenal glands are 2 small organs that sit on top of each kidney. They release hormones; these are chemicals that control how the body works. Tumors on or outside the adrenal glands are called functional if they release hormones; they are called nonfunctional if they do not. Doctors who treat adrenal tumors need to know which type a person has. Researchers want to find better ways to learn whether an adrenal tumor is functional. Objective: To see if a new radioactive tracer (\[68Ga\]Ga-PentixaFor) can make it easier to identify functional adrenal tumors with positron emission tomography (PET) scans. Eligibility: People aged 18 years and older with 1 or more adrenal tumors. They must have increased levels of the hormones aldosterone or cortisol. They must also be enrolled in at least 1 other related NIH study (protocols 19-DK-0066, 18-CH-0031, or 09-C-0242). Design: Participants will be screened. They may have imaging scans. Their ability to perform normal activities will be reviewed. Participants will have one PET scan with the study tracer. The tracer will be given through a tube attached to a needle inserted into a vein. Participants will receive the tracer 1 hour before the scan. They will lie still on a bed while a machine captures images of the inside of their body. The scan will take 45 to 90 minutes. Participants heart rate, blood pressure, and rate of breathing will be checked before, during, and after the scan. Participants will have a follow-up visit 3 days after their scan. This visit can be by phone, email, or in person.
NCT04251780
Recent human studies found tissue sodium storage in patients with hyperaldosteronism that could be detected non-invasively by 23Na-MRI. Tissue sodium accumulation could be mobilized upon treatment of hyperaldosteronism. Besides, former animal studies applying chemical electrolyte analysis indicate that this aldosterone induced sodium storage might be accompanied by intracellular potassium loss. Wether such an intracellular tissue potassium loss occurs in vivo in patients with hyperaldosteronism and if this deficiency can be corrected by treatment is unclear. The investigators will employ 39K-MR Imaging at 7Tesla to further assess this hypothesis.
NCT07027254
This study is a randomized controlled trial to assess the clinical utility of gallium-68 pentixafor PET/CT in the management of primary aldosteronism (PA). We aim to evaluate whether the addition of 68Ga-pentixafor PET/CT to standard adrenal venous sampling (AVS) improves surgical outcomes in patients with unilateral PA.
NCT05797558
This is a prospective randomized controlled trial where quality of life and the effectiveness of treatment will be evaluated in 80 patients with confirmed unilateral primary aldosteronism ,randomly assigned to be either treated surgically with unilateral adrenalectomy or to receive medical treatment with eplerenone.
NCT05640128
collaborative work within 2 hospitals at the CHU of Caen, at the CHRU of Lille, concerning the evaluation of the biological markers of primary hyperaldosteronism (PAH) with the dosage of aldosterone in LC -MS/MS, which is performed in both centers, with two different techniques. The main objective is to define the range of Aldosterone concentrations in LC MS/MS, of renin in an automated method, in populations of healthy volunteers, essential hypertensives, and hypertensives with primary hyperaldosteronism. , in order to establish a threshold for the screening of PAH by the RAR, and for the confirmation of PAH by a dynamic test with an Aldosterone threshold post salt load test.
NCT02751021
Little is known about potential relationships between sleep apnea, plasma aldosterone and diastolic dysfunction which is a very frequent finding among patients requiring permanent cardiac pacing. Sleep apnea is often under diagnosed by clinical examination. Confirmation tests are expensive and access is limited. A specific algorithm available in a recent pacemaker allows assessing breathing variations using minute ventilation sensor, with a good agreement between the respiratory disturbance index and polysomnography results for the diagnosis of severe sleep apnea. The purpose of the study is to examine the diagnostic accuracy of a new pacemaker algorithm for the diagnosis of obstructive sleep apnea in patients presenting with diastolic dysfunction. The investigators also aim to highlight a correlation between plasma aldosterone levels and the severity of sleep apnea, with a reversal effect of ventilation therapy in this specific population.
NCT01567111
Rationale: Primary hyperaldosteronism (PA) is the most frequent and possibly curable form of secondary hypertension. The diagnosis and targeted treatment of PA is essential because of high vascular morbidity associated with PA as compared to essential hypertension with comparable blood pressure levels. PA is usually caused by either a unilateral aldosterone-producing adenoma (APA) or by bilateral adrenal hyperplasia (BAH). Distinction between APA and BAH is critical since the former may be cured by adrenalectomy, and the latter needs life-long medical therapy with mineralocorticoid receptor antagonists (MRA). Studies demonstrate that adrenalectomy benefits also BAH patients with dominant nodule(s) producing the most of aldosterone excess. The distinction between unilateral and bilateral PA can be made by adrenal vein sampling (AVS), as recommended by The Endocrine Society 2008 guideline. Currently, in Finland the diagnosis is based on computed tomography (CT) scanning which does not distinguish between aldosterone-producing and common non-functioning adrenal nodules and has limited accuracy detecting small adrenal masses. Since AVS is invasive, dependent on skilled radiologist and costly, there is a need for an accurate, non-invasive functional imaging such as 11C-metomidate positron emission tomography (MTO-PET). Objective: To assess diagnostic ability of MTO-PET as compared to AVS in PA. Secondary objectives: To compare if standardized uptake values (SUVs)in MTO-PET imaging are similar in histologically diagnosed nodular hyperplasia versus adenoma. To assess the diagnostic accuracy of adrenal CT as compared to MTO-PET and AVS. To assess the complete and partial remission rates (blood pressure response expressed in Daily Defined Dosages, medical therapy, use of potassium supplements) after allocating subjects to MRA-therapy or adrenalectomy at 1 and 5 years.
NCT00004354
OBJECTIVES: I. Determine the prevalence of glucocorticoid-remediable aldosteronism (GRA) in various hypertensive populations and screen at risk members of GRA pedigrees. II. Investigate other factors regulating blood pressure in GRA (environmental, genetically determined factors). III. Investigate renal and hormonal mechanisms regulating potassium homeostasis in GRA. IV. Describe clinical phenotype of GRA patients. V. Prospectively screen GRA-affected patients with MRI angiography for intracranial aneurysm.