Basal Cortisol Elevated in Patients with ACTH-Staining Pituitary Macroadenoma

Posted on May 9, 2017 by MaryO

Preoperative identification of patients with silent adrenocorticotrophic hormone-secreting tumors could potentially change the approach to management. A new study aimed to determine whether a preoperative adrenocorticotrophic hormone stimulation test for evaluation of nonfunctional pituitary macroadenoma could aid in identifying adrenocorticotrophic hormone-staining pathology yielded large variability and did not allow clinical utility.

Thus, researchers concluded that larger, multicenter research is needed to determine whether this test can be useful.

“As ACTH stimulation tests are performed routinely when evaluating macroadenoma when there is no suspicion for a state of endogenous hypercortisolism, we sought to determine if the test could reliably identify these pathologies during the preoperative evaluation. We hypothesized that patients with subclinical Cushing’s disease or silent ACTH-secreting tumors would have a higher delta cortisol on the ACTH stimulation tests vs. other types of macroadenoma pathologies,” Kevin Pantalone, DO, ECNU, FACE, staff endocrinologist and director of clinical research in the department of endocrinology at Cleveland Clinic, told Endocrine Today.

Pantalone and colleagues performed a retrospective chart review of 148 patients with pituitary macroadenoma who underwent preoperative ACTH stimulation tests, with the goal of determining whether the test can aid in the identification of ACTH-staining pathology.

Overall, 9.5% of patients showed diffuse staining, 50.6% showed other-staining (diffuse staining for anterior pituitary hormones other than ACTH) and 39.9% showed no staining (no staining for any anterior pituitary hormones).

The researchers calculated delta total cortisol at 30 and 60 minutes from baseline and reviewed preoperative ACTH stimulation tests. Additionally, Pantalone and colleagues compared the basal and maximal delta cortisol between the ACTH-staining pituitary macroadenoma and the non-ACTH staining (n = 134), other staining (n = 75) and non-staining (n = 59) tumors.

According to data reported at the American Association of Clinical Endocrinologists Annual Scientific and Clinical Congress, the ACTH-staining group had higher mean basal cortisol levels compared with the non-ACTH-staining (P = .012), other staining (P = .018) and the non-staining (P = .012) tumors. The researchers found no significant differences in maximal delta cortisol between the groups.

“While we found basal cortisol levels were higher in patients with ACTH-staining pituitary microadenoma vs. non-ACTH-staining macroadenoma, the large variability in cortisol values did not allow for clinical utility,” Pantalone told Endocrine Today.

“Unfortunately, in the end, our study was limited by the number of cases with ACTH-staining pathology. Thus, we were unable to determine if the ACTH stimulation test could reliably assist clinicians in potentially identifying ACTH-staining pathology in the preoperative setting,” he said. “A multicenter study, affording a large number of ACTH-staining tumors, is needed. This may allow for us to determine if the ACTH-stimulation test can really be clinically useful in preoperatively identifying ACTH-staining pathology.” – by Amber Cox

 From http://www.checkorphan.org/news/basal-cortisol-elevated-in-patients-with-acth-staining-pituitary-macroadenoma

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Topical Steroid Use in Psoriasis Patient Leads to Severe Adrenal Insufficiency

Posted on May 5, 2017 by MaryO

This article is written live from the American Association of Clinical Endocrinologists (AACE) 2017 Annual Meeting in Austin, TX. MPR will be reporting news on the latest findings from leading experts in endocrinology. Check back for more news from AACE 2017.

 

At the AACE 2017 Annual Meeting, lead study author Kaitlyn Steffensmeier, MS III, of the Dayton Veterans Affairs (VA) Medical Center, Dayton, OH, presented a case study describing a patient “who developed secondary adrenal insufficiency secondary to long-term topical steroid use and who with decreased topical steroid use recovered.”

The patient was a 63-year-old white male with a 23-year history of psoriasis. For 18 years, the patient had been applying Clobetasol Propionate 0.05% topically on several areas of his body every day. Upon presentation to the endocrine clinic for evaluation of his low serum cortisol, the patient complained of a 24-pound weight gain over a 2-year period, feeling fatigued, as well as facial puffiness.

Laboratory analysis found that the patient’s random serum cortisol and ACTH levels were low (0.2µg/dL and <1.1pg/mL, respectively). According to the study authors, “the labs were indicative of secondary adrenal insufficiency.” Additionally, a pituitary MRI “showed a 2mm hypoenhancing lesion within the midline of the pituitary gland consistent with Rathke’s cleft cyst versus pituitary microadenoma.”

The patient was initiated on 10mg of hydrocortisone in the morning and 5mg in the evening and was instructed to decrease the use of his topical steroid to one time per month. For the treatment of his psoriasis, the patient was started on apremilast, a phosphodiesterase-4 enzyme (PDE4) inhibitor, and phototherapy.

After 2.5 years, the patient had a subnormal response to the cosyntropin stimulation test. However, after 3 years, a normal response with an increase in serum cortisol to 18.7µg/dL at 60 minutes was obtained; the patient was then discontinued on hydrocortisone. Additionally, a stable pituitary tumor was shown via a repeat pituitary MRI.

The study authors explained that, although secondary adrenal insufficiency is not commonly reported, “one study showed 40% of patients with abnormal cortisol response to exogenous ACTH after two weeks of topical glucocorticoids usage.” Another meta-analysis of 15 studies (n=320) revealed 4.7% of patients developing adrenal insufficiency after using topical steroids. Because of this, “clinicians need to be aware of potential side effects of prolong topical steroid use,” added the study authors.

For continuous endocrine news coverage from the AACE 2017 Annual Meeting, check back to MPR’s AACE page for the latest updates.

From http://www.empr.com/aace-2017/topical-steroid-psoriasis-clobestasol-propionate/article/654335/

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Postoperative ACTH, cortisol levels may predict Cushing’s disease remission rate

Posted on March 22, 2017 by MaryO

Early and midterm nonremission after transsphenoidal surgery in people with Cushing’s disease may be predicted by normalized early postoperative values for adrenocorticotropic hormone and cortisol, study data show.

Prashant Chittiboina, MD, MPH, assistant clinical investigator in the neurosurgery unit for pituitary and inheritable diseases at the National Institute of Neurological Diseases and Stroke at the NIH, and colleagues evaluated 250 patients with Cushing’s disease who received 291 transsphenoidal surgery procedures during the study period to determine remission after the procedure. Patients were treated between December 2003 and July 2016. Early remission was assessed at 10 days and medium-term remission was assessed at 11 months.

Early nonremission was predicted by normalized early postoperative values for cortisol (P = .016) and by normalized early postoperative values for adrenocorticotropic hormone (ACTH; P = .048). Early nonremission was further predicted with 100% sensitivity, 39% specificity, 100% negative predictive value and 18% positive predictive value for a cutoff of –12 µg/mL in normalized early postoperative values for cortisol and with 88% sensitivity, 41% specificity, 96% negative predictive value and 16% positive predictive value for a cutoff of –40 pg/mL in normalized early postoperative values for ACTH.

Medium-term nonremission was also predicted by normalized early postoperative values for cortisol (P = .023) and ACTH (P = .025).

“We evaluated the utility of early postoperative cortisol and ACTH levels for predicting nonremission after transsphenoidal adenomectomy for Cushing’s disease,” the researchers wrote. “Postoperative operative day 1 values at 6 a.m. performed best at predicting early nonremission, albeit with a lower [area under the receiver operating characteristic curve]. Normalizing early cortisol and ACTH values to post-[corticotropin-releasing hormone] values improved their prognostic value. Further prospective studies will explore the utility of normalized very early postoperative day 0 cortisol and ACTH levels in identifying patients at risk for nonremission following [transsphenoidal surgery] in patients with [Cushing’s disease].” – by Amber Cox

Disclosure: The researchers report no relevant financial disclosures.

From http://www.healio.com/endocrinology/adrenal/news/in-the-journals/%7B7de200ed-c667-4b48-ab19-256d90a7bbc5%7D/postoperative-acth-cortisol-levels-may-predict-cushings-disease-remission-rate

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The Cables1 Gene in Glucocorticoid Regulation of Pituitary Corticotrope Growth and Cushing Disease

Posted on March 14, 2017 by MaryO

Audrey Roussel-Gervais 1 Catherine Couture 1 David Langlais 1 Shinobu Takayasu 1 Aurelio Balsalobre 1 Bo R. Rueda 2 Lawrence R. Zukerberg 2 Dominique Figarella-Branger 3, 4 Thierry Brue 5 Jacques Drouin 2

Details

1 Laboratoire de Génétique Moléculaire
2 MGH – Massachusetts General Hospital [Boston]
3 LA CONCEPTION – Hôpital de la Conception [CHU – APHM]
4 ACPNP – Service d’Anatomo-Cyto-Pathologie et de NeuroPathologie [Hôpital de la Timone – APHM]
5 CRN2M – Centre de recherche en neurobiologie – neurophysiologie de Marseille
Abstract :
Context: Cushing disease (CD) is due to pituitary corticotrope adenomas that produce unrestrained ACTH secretion and have lost the negative feedback exerted by glucocorticoids (GCs). GCs also restrain corticotrope proliferation, and the mechanisms of this inhibition are poorly understood.
Objective: The aim of the study was to identify cell cycle regulatory genes that are regulated by GCs and the glucocorticoid receptor and to assess regulatory genes that have a rate-limiting action on corticotrope proliferation and may be disregulated in CD.
Design: The mouse corticotrope tumor cells AtT-20 were used to identify GC-regulated genes that contribute to control of cell cycle progression. Surgery sections from patients with CD were used to assess expression of CABLES1 in corticotrope adenomas.
Methods: Gene expression profiling, small interfering RNA knockdowns, cell cycle analyses, and genetic manipulations were performed in AtT-20 cells. Sequencing of chromatin immunoprecipitation for pituitary-restricted transcription factors and RNA polymerase II were used to identify regulatory elements and genes that bind GR and are direct transcriptional targets. A panel of previously well-characterized corticotrope adenomas was used to correlate expression of CABLES1 with that of other markers. Results: GCs altered expression of 3 positive and 3 negative regulators of cell cycle progression. Two Myc genes (L-Myc and N-Myc) and E2F2 are repressed by GCs, whereas genes for the negative regulators of the cell cycle, Gadd45, Gadd45, and Cables1 are activated by GCs. Cables1 small interfering RNA knockdown strongly stimulates AtT-20 cell proliferation and antagonizes the growth inhibition produced by GCs. The Gadd45 and Cables1 genes have the hallmarks of direct GC targets. CABLES1 is expressed in normal human pituitary cells, but expression is lost in 55% of corticotrope adenomas, and this is strongly correlated with the loss of p27 Kip1 expression.
Conclusions: CABLES1 is a critical regulator of corticotrope proliferation that defines a pathway often inactivated in CD and links proliferation to GC resistance. (J Clin Endocrinol Metab

Document type :

Journal articles
Journal of Clinical Endocrinology and Metabolism, Endocrine Society, 2016, 101 (2), pp.513-522. <10.1210/jc.2015-3324>

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Cushing’s Disease Treatment Market to Witness an Outstanding Growth by 2017 – 2025

Posted on March 2, 2017 by MaryO

Cushing disease is caused by tumour in the pituitary gland which leads to excessive secretion of a hormone called adrenocorticotrophic (ACTH), which in turn leads to increasing levels of cortisol in the body. Cortisol is a steroid hormone released by the adrenal glands and helps the body to deal with injury or infection. Increasing levels of cortisol increases the blood sugar and can even cause diabetes mellitus. However the disease is also caused due to excess production of hypothalamus corticotropin releasing hormone (CRH) which stimulates the synthesis of cortisol by the adrenal glands.

The condition is named after Harvey Cushing, the doctor who first identified the disease in 1912. Cushing disease results in Cushing syndrome. Cushing syndrome is a group of signs and symptoms developed due to prolonged exposure to cortisol.

Signs and symptoms of Cushing syndrome includes hypertension, abdominal obesity, muscle weakness, headache, fragile skin, acne, thin arms and legs, red stretch marks on stomach, fluid retention or swelling, excess body and facial hair, weight gain, acne, buffalo hump, tiredness, fatigue, brittle bones, low back pain, moon shaped face etc.

Symptoms vary from individual to individual depending upon the disease duration, age and gender of the patient.  Disease diagnosis is done by measuring levels of cortisol in patient’s urine, saliva or blood. For confirming the diagnosis, a blood test for ACTH is performed. The first-line treatment of the disease is through surgical resection of ACTH-secreting pituitary adenoma, however disease management is also done through medications, Cushing disease treatment market comprises of the drugs designed for lowering the level of cortisol in the body. Thus patients suffering from Cushing disease are prescribed medications such as ketoconazole, mitotane, aminoglutethimide metyrapone, mifepristone, etomidate and pasireotide.

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Cushing’s disease treatment market revenue is growing with a stable growth rate, this is attributed to increasing number of pipeline drugs. Also increasing interest of pharmaceutical companies to develop Cushing disease drugs is a major factor contributing to the revenue growth of Cushing disease treatment market over the forecast period. Current and emerging players’ focuses on physician education and awareness regarding availability of different drugs for curing Cushing disease, thus increasing the referral speeds, time to diagnosis and volume of diagnosed Cushing disease individuals. Growing healthcare expenditure and increasing awareness regarding Cushing syndrome aids in the revenue growth of Cushing’s disease treatment market. Increasing number of new product launches also drives the market for Cushing’s disease Treatment devices. However availability of alternative therapies for curing Cushing syndrome is expected to hamper the growth of the Cushing’s disease treatment market over the forecast period.

The Cushing’s disease Treatment market is segment based on the product type, technology type and end user

Cushing’s disease Treatment market is segmented into following types:

By Drug Type

  • Ketoconazole
  • Mitotane
  • Aminoglutethimide
  • Metyrapone
  • Mifepristone
  • Etomidate
  • Pasireotide

By End User

  • Hospital Pharmacies
  • Retail Pharmacies
  • Drug Stores
  • Clinics
  • e-Commerce/Online Pharmacies

Cushing’s disease treatment market revenue is expected to grow at a good growth rate, over the forecast period. The market is anticipated to perform well in the near future due to increasing awareness regarding the condition. Also the market is anticipated to grow with a fastest CAGR over the forecast period, attributed to increasing investment in R&D and increasing number of new product launches which is estimated to drive the revenue growth of Cushing’s disease treatment market over the forecast period.

Depending on geographic region, the Cushing’s disease treatment market is segmented into five key regions: North America, Latin America, Europe, Asia Pacific (APAC) and Middle East & Africa (MEA).

North America is occupying the largest regional market share in the global Cushing’s disease treatment market owing to the presence of more number of market players, high awareness levels regarding Cushing syndrome. Healthcare expenditure and relatively larger number of R&D exercises pertaining to drug manufacturing and marketing activities in the region. Also Europe is expected to perform well in the near future due to increasing prevalence of the condition in the region.

Asia Pacific is expected to grow at the fastest CAGR because of increase in the number of people showing the symptoms of Cushing syndrome, thus boosting the market growth of Cushing’s disease treatment market throughout the forecast period.

Some players of Cushing’s disease Treatment market includes CORCEPT THERAPEUTICS, HRA Pharma, Strongbridge Biopharma plc, Novartis AG, etc. However there are numerous companies producing branded generics for Cushing disease. The companies in Cushing’s disease treatment market are increasingly engaged in strategic partnerships, collaborations and promotional activities to capture a greater pie of market share.

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From http://www.medgadget.com/2017/03/cushings-disease-treatment-market-to-witness-an-outstanding-growth-by-2017-2025-persistence-market-research.html 

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