Adrenal Scans With Radioiodine-Labeled Norcholesterol (NP-59)
Adrenal TumorsAdrenal Malignancies2 moreThe 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.
Prospective Randonmized Comparison of Needlescopic Versus Conventional Laparoscopic Adrenalectomy...
Adrenal TumorsThe 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.
Evaluation of 123I-Iodometomidate for Adrenal Scintigraphy
Adrenal TumorAdrenocortical CarcinomaThe improvement of conventional imaging techniques has led to an increased detection rate of different adrenal tumors. Since those tumors can belong to a variety of entities the therapeutic consequences also show considerable variation. In order to definitely determine the type of tumor, invasive procedures like CT guided biopsies are often required, which could be avoided by a tumor specific imaging method. The presently available scintigraphic procedures are either time consuming and lead to high radiation exposure or are technically demanding. The steroidogenic enzymes CYP11B1 (11ß-hydroxylase)and CYP11B2 (aldosterone synthase)are expressed exclusively in the adrenal cortex and therefore represent suitable targets for a specific imaging technique. In our project we evaluate 123I-Iodometomidate which binds to both CYP11B enzymes as radiotracer for adrenal scintigraphy.
Iodine I-131 Iodocholesterol, Its Use in Adrenal Screening
Adrenal Gland DiseasesAdrenal Gland NeoplasmsThis is a clinical research study using I-131 Iodocholesterol which is an experimental radioactive chemical that when injected into the vein, is picked up in the adrenal glands and permits visualization with gamma imaging devices. These images are used in diagnosing a variety of adrenal abnormalities.Prior to the injection of I-131 Iodocholesterol, the patient will receive perchlorate capsules to block any uptake of I-131 by the thyroid gland if this is deemed important. The patient will continue to take these capsules throughout the period of imaging, which may last up to 1 week. The injection of I-131 Iodocholesterol will be given into a vein and the patient will return for images on at least 1 and possibly 2 occasions between 3-7 days after injection. If the case requires it, the patient may also be given a steroid in tablet form, dexamethasone, to take orally prior to and after the injection to suppress normal adrenal function so that the abnormal tissues can be more easily detected.
Towards an Easy-to-use Adrenal Cancer/Tumor Identity Card
Adrenal Gland NeoplasmsMalignant pheochromocytoma/paraganglioma (MPP) and adrenocortical carcinoma (ACC) are two rare cancer entities with a very unfavorable prognosis. The knowledge on these rare cancers improved thanks to the French COMETE network originally based on two clinical centers (HEGP and Cochin) well organized for clinical and biological samples collection. Over the last 10 years, the COMETE key partners deciphered molecular mechanisms of tumorigenesis and oncogenesis of these tumors and identified molecular signatures discriminating between benign and malignant cancers by integrated genomic approaches. This strategy was highly successful in delivering new diagnostic applications of genomics technologies that now appear as potentially suitable for rapid implementation in routine clinical care. The main objective of COMETE-TACTIC is to provide an easy-to-use "identity card" of the adrenal tumors that will allow a personalized "à la carte" management of the patient and, when indicated, to the indication of the most accurate molecular targeted therapy. We hypothesize that the improvement of MPP and ACC diagnosis and of the therapeutic options proposed to affected patients will require, the transfer to routine practice and the prospective validation of the novel diagnostic and predictive biomarkers issued from recent discoveries (genetics, genomics, histological biomarkers); the implementation of the translational research projects based on the COMETE collection to identify circulating diagnostic, prognostic and therapeutic genetic and metabolic biomarkers that could be used as non-invasive "liquid biopsies".
Performance of 18F-Fluorodeoxyglucose Positron Emission Tomography (FDG-PET) in the Diagnosis of...
Adrenal TumorsThis 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.
Salivary Free Cortisol Response to Cosyntropin Stimulation Test in Mitotane Treated Patients
Adrenal InsufficiencyAdrenal CancerIn mitotane treated patients, serum cortisol cannot be used to diagnose hypoadrenalism, since mitotane increases cortisol binding globulin levels (CBG), artificially raising total cortisol. Salivary free cortisol (SC) is not affected by CBG alterations, and reflects the free serum cortisol. In the current study, investigators will assess serum and SC responses during low-dose cosyntropin stimulation test in healthy volunteers, mitotane-induced hypoadrenal patients on steroid replacement therapy and in patients who suffer from hypoadrenlism caused from other etiology. Investigators will compare results between groups and try to demonstrate the superiority of SC in assessing adrenal function in mitotane treated patients.
EUS-guided FNA in the Study of the Adrenal Gland
Adrenal Gland DiseaseAdrenal TumorTo analyze the diagnostic performance, safety, impact on clinical management, predictors of malignancy and cyto-pathological correlation of the EUS-FNA with AG. National multicenter retrospective study. Mailing-SEED partners. Participation: 17 Spanish centers. Inclusion period: April / 2003 to April / 2016 Inclusion criteria: All AG (Left / Right) punctured by EUS. A review of 205 EUS-FNA of AG in 200 patients is included.
Morbidity and Mortality in Autonomous Cortisol Secretion
Adrenal IncidentalomaCortisol OverproductionBenign enlargements of the adrenal glands (adrenal adenomas) are frequent in adults. In the general population these adenomas are rare in subjects below 40 years of age but at the age of 60 and 80 years the prevalence is 6 and 8-10 % respectively. Since these adenomas do not causes obvious symptoms they are almost exclusively found incidentally in patients examined radiologically for other reasons than suspected adrenal disease. These enlargements are thus termed adrenal incidentalomas (AI). AI may secrete cortisol and more than 25 percent of patients with an AI have increased cortisol levels called autonomous cortisol secretion (ACS). Such increased secretion of cortisol may cause metabolic complications such as hypertension, high cholesterol, diabetes and cardiovascular disease. Studies have shown that ACS may cause increased mortality. These studies are however small and have not adequately taking other conditions into account which most likely influences the result. The investigators hypothesis is that ACS is linked to increased mortality as the previous studies have shown. The aim is to perform a larger study on patients with adrenal incidentalomas, both with and without ACS, and compare the mortality rates with a control group matched for age and sex. This study may more precisely describe the cardiovascular risk for ACS and define the risk at different levels of ACS.
Combined FDG-PET and 123I-Iodometomidate Imaging for Adrenal Neoplasia
Adrenal Gland NeoplasmsAdrenal masses are highly prevalent and detected with high frequency by conventional imaging. Conventional imaging often fails to rule out a malignant lesion. Accordingly, most hormonally inactive adrenal masses removed by surgery are benign adenomas for which surgical removal is unnecessary and poses an avoidable risk to the patients. We hypothesize that the combination of FDG-PET and 123I-Iodometomidate imaging has the potential to noninvasively identify benign adrenocortical adenomas with high accuracy, thereby avoiding unnecessary surgery. Uptake of 123I-Iodometomidate by the adrenal mass demonstrates the presence of CYP 11B enzymes which specifically bind metomidate with high avidity establishing the adrenocortical origin of the lesion, while low uptake of FDG-PET in an adrenocortical lesion establishes its benign nature and excludes the presence of adrenocortical cancer (ACC). The proposed trial will assess the sensitivity, specificity, positive and negative predictive value of the combined imaging for the diagnosis of adrenocortical adenoma. A secondary focus is on the performance of the combined test for differentiating ACC from non-ACC lesions. We expect that the results of our trial will help to greatly reduce the need for surgery in hormonally inactive adrenal masses.