Bilateral Adrenocortical Adenomas Causing Adrenocorticotropic Hormone-Independent Cushing’s Syndrome

Posted on May 27, 2019 by MaryO

Adrenocorticotropic hormone (ACTH)-independent Cushing’s syndrome (CS) is mostly due to unilateral tumors, with bilateral tumors rarely reported. Its common causes include primary pigmented nodular adrenocortical disease, ACTH-independent macronodular adrenal hyperplasia, and bilateral adrenocortical adenomas (BAAs) or carcinomas. BAAs causing ACTH-independent CS are rare; up to now, fewer than 40 BAA cases have been reported. The accurate diagnosis and evaluation of BAAs are critical for determining optimal treatment options. Adrenal vein sampling (AVS) is a good way to diagnose ACTH-independent CS.

A 31-year-old woman had a typical appearance of CS. The oral glucose tolerance test showed impaired glucose tolerance and obviously increased insulin and C-peptide levels. Her baseline serum cortisol and urine free cortisol were elevated and did not show either a circadian rhythm or suppression with dexamethasone administration. The peripheral 1-deamino-8-D-arginine-vasopressin (DDVAP) stimulation test showed a delay of the peak level, which was 1.05 times as high as the baseline level. Bilateral AVS results suggested the possibility of BAAs. Abdominal computed tomography showed bilateral adrenal adenomas with atrophic adrenal glands (right: 3.1 cm × 2.0 cm × 1.9 cm; left: 2.2 cm × 1.9 cm × 2.1 cm). Magnetic resonance imaging of the pituitary gland demonstrated normal findings. A left adenomectomy by retroperitoneoscopy was performed first, followed by resection of the right-side adrenal mass 3 mo later. Biopsy results of both adenomas showed cortical tumors. Evaluations of ACTH and cortisol showed a significant decrease after left adenomectomy but could still not be suppressed, and the circadian rhythm was absent. Following bilateral adenomectomy, this patient has been administered with prednisone until now, all of her symptoms were alleviated, and she had normal blood pressure without edema in either of her lower extremities.

BAAs causing ACTH-independent CS are rare. AVS is of great significance for obtaining information on the functional state of BAAs before surgery.

World journal of clinical cases. 2019 Apr 26 [Epub]

Yu-Lin Gu, Wei-Jun Gu, Jing-Tao Dou, Zhao-Hui Lv, Jie Li, Sai-Chun Zhang, Guo-Qing Yang, Qing-Hua Guo, Jian-Ming Ba, Li Zang, Nan Jin, Jin Du, Yu Pei, Yi-Ming Mu

Department of Endocrinology, Chinese People’s Liberation Army General Hospital, Beijing 100853, China., Department of Endocrinology, Chinese People’s Liberation Army General Hospital, Beijing 100853, China. guweijun301@163.com., Department of Pathology, Chinese People’s Liberation Army General Hospital, Beijing 100853, China.

PubMed http://www.ncbi.nlm.nih.gov/pubmed/31119141

From https://www.urotoday.com/recent-abstracts/urologic-oncology/adrenal-diseases/112782-bilateral-adrenocortical-adenomas-causing-adrenocorticotropic-hormone-independent-cushing-s-syndrome-a-case-report-and-review-of-the-literature.html

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Unilateral andrenalectomy may be valid first-line treatment for Cushing’s syndrome

Posted on November 1, 2015 by MaryO

Debillon E, et al. J Clin Endocrinol Metab. 2015;doi:10.1210/jc.2015-2662.

In patients with evident Cushing’s syndrome related to primary bilateral macronodular adrenal hyperplasia, unilateral adrenalectomy of the large gland appears to be a suitable alternative to bilateral adrenalectomy as a first-line treatment, according to recent findings.

Unilateral adrenalectomy yielded normalized urinary free cortisol and improved Cushing’s syndrome, according to the researchers.

Olivier Chabre , MD, PhD, of the Service d’Endocrinologie-Diabétologie-Nutrition in France, and colleagues evaluated all patients (n = 15) with overt Cushing’s syndrome related to primary bilateral macronodular adrenal hyperplasia who underwent unilateral laparoscopic adrenalectomy of the larger gland between 2001 and 2015. Patients were seen for clinical and biological follow-up assessments at 1, 3 and 6 months postoperatively, 5 years after surgery and at the time of the last available urinary free cortisol measurement.

The study’s primary outcome measures were pre- and postoperative levels of urinary free cortisol, plasma cortisol, adrenocorticotropic hormone (ACTH), BMI, blood pressure, plasma glucose and lipids and measurements of these values on follow-up assessments. Patients were followed for a median of 60 months.

The researchers found that in early postoperative measurements, all 15 patients who underwent unilateral adrenalectomy achieved normal or low urinary free cortisol. Between 7 days and 1 month, there was a decrease in median urinary free cortisol from 2.19 times the upper limit of normal (ULN) at baseline to 0.27 ULN (P = .001). At 1 month, only one patient had elevated urinary free cortisol, and this patient went into remission by month 3 and continued to be in remission after 12 years of follow-up.

Forty percent of the patients developed adrenal insufficiency after unilateral adrenalectomy and latent adrenal insufficiency could not be excluded in two of the other patients. No predictors of postoperative adrenal insufficiency were identified.

Six of the patients had diabetes before unilateral adrenalectomy surgery; four of those were treated with antidiabetes drugs. At 12 months, only two of these patients had a continued need for antidiabetes drugs and had reductions in HbA1c despite decreases in their treatment. Recurrence occurred in two patients, demonstrating urinary free cortisol above the ULN at 7 years postoperatively and 8 years postoperatively. Both cases required treatment with mitotane, and in one of the patients, adrenalectomy of the second gland was required 9 years after the initial adrenalectomy.

According to the researchers, postoperative management and vigilant follow-up is needed in order to monitor patients for the risk for adrenal insufficiency.

“Further prospective studies are needed to better evaluate the long-term benefits of [unilateral adrenalectomy], which has one major benefit over [bilateral adrenalectomy]: if needed, [unilateral adrenalectomy] can be transformed in [bilateral adrenalectomy], while the opposite is obviously not true,” the researchers wrote. “One could propose that in further prospective studies [bilateral adrenalectomy] could be performed only if [unilateral adrenalectomy] fails to normalize [urinary free cortisol] at 1 month postoperatively.” – by Jennifer Byrne

Disclosure: The researchers report no relevant financial disclosures.

From Healio

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Bilateral Adrenal Incidentalomas May Have Different Etiology Than Unilateral

Posted on July 29, 2015 by MaryO

MedicalResearch.com Interview with:
Quan-Yang Duh MD
Chief, Section of Endocrine Surgery
UCSF Medical Center

Medical Research: What is the background for this study? What are the main findings?

Dr. Quan-Yang Duh: At UCSF we have a monthly Adrenal Conference (involving surgeons, endocrinologists and radiologists) to discuss patients we are consulted for adrenal tumors. About 30% of these are for incidentally discovered adrenal tumors (versus those found because of specific indications such as clinical suspicion or genetic screening). Of these 15-20% has bilateral adrenal tumors.

The evaluation of unilateral incidentaloma has been very well studied and many national guidelines have been published with specific management recommendations. So during our monthly adrenal conference, we have a routine “script” for evaluation and recommendations (rule out metastasis by looking for primary cancer elsewhere, rule out pheochromocytoma and Cushing, resect secreting tumors or large tumors, and if no operation recommended repeat scan in 6 months, etc.). This “script” has worked very well for patients with unilateral incidentaloma.

However, we were less certain when we made recommendations about bilateral incidentalomas because there was very little literature or guidelines written about it. We had some gut feelings, but we were not sure that we were recommending the right things. We needed more data. That was the main reason for the study.

What we found in our study was that although the possible subclinical diseases were the same – hypercortisolism and pheochromocytoma, the probabilities were different. The patients with bilateral incidentalomas were more likely to have subclinical Cushing’s and less likely to have pheochromocytomas than those with unilateral incidentalomas.

Medical Research: What should clinicians and patients take away from your report?

Dr. Quan-Yang Duh: The work up for bilateral adrenal incidentalomas is similar to that for unilateral incidentalomas. However, patients with bilateral incidentalomas are more likely to have subclinical Cushing’s and less likely to have pheochromocytoma. This difference should be kept in mind when clinicians evaluating these patients.

Medical Research: What recommendations do you have for future research as a result of this study?

Dr. Quan-Yang Duh: Because our study used data that were from patients who were referred to us to be discussed at our Adrenal Conference, there is likely to be a selection bias (probably higher proportion with clinically significant diseases). It would be interesting to prospectively study ALL patients with adrenal  from a radiology department and see whether our results are confirmed.

Citation:

From http://medicalresearch.com/radiology/bilateral-adrenal-incidentalomas-may-have-different-etiology-than-unilateral/16098/

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Genetic variations associated with hyperplasias, adenomas of adrenal cortex

Posted on February 27, 2014 by MaryO

Beuschlein F. N Engl J Med. 2014;doi:10.1056/NEJMoa1310359.

Genetic variations of the catalytic subunit of cyclic protein kinase A, or PKA, were linked to the development of bilateral adrenal hyperplasias and unilateral cortisol-producing adrenal adenomas. These effects may activate corticotropin-independent Cushing’s syndrome, according to data published in The New England Journal of Medicine.

“The current study suggests that more than one-third of cortisol-producing adenomas associated with overt Cushing’s syndrome have unique somatic mutations in PRKACA (which encodes the main catalytic subunit of PKA), resulting in constitutive PKA activation,” Felix Beuschlein, MD, of the University of Munich, and colleagues wrote.

The researchers performed an exome sequencing of tumor-tissue specimens from 10 patients with cortisol-producing adrenal adenomas and evaluated their recurrent mutations in candidate genes in 171 additional patients with adrenocortical tumors, according to data.

Somatic mutations in PRKACA were discovered in eight of 10 adenomas. These somatic mutations also were identified in 22 of 59 unilateral adenomas (37%) from patients with overt Cushing’s syndrome; mutations were not detectable in 40 patients with subclinical hypercortisolism or in 82 patients with other adrenal tumors, according to data.

Five of the 35 patients with cortisol-producing hyperplasias appeared to be carriers of the germline duplication of the genomic region on chromosome 19 that includes PRKACA, researchers wrote.

In vitro study data indicated that PKA catalytic subunit genetic mutations impaired inhibition by the PKA regulatory subunit, and cells from patients with germline chromosomal gains appeared to increase the protein levels of the subunit.

“Because PRKACA mediates most of the effects of inactivating PRKAR1A mutations and because mutations of PRKAR1 are associated with a variety of tumors in humans and mice, we would speculate that somatic PRKACA defects might also play a role in other forms of endocrine and nonendocrine tumors,” researchers wrote.

Disclosure: Beuschlein reports financial ties with the European Community, HRA Pharma, Novartis, Viropharma, and Wilhelm-Sander Stiftung.

From http://www.healio.com/endocrinology/adrenal/news/online/%7B22954d9a-0fc9-4e80-b80a-d74bbdfea1a9%7D/genetic-variations-associated-with-hyperplasias-adenomas-of-adrenal-cortex

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