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Presented by Ahmad Sedaghat, MD, PhD - Associate Professor and Director of the Division of Rhinology, Allergy and Anterior Skull Base Surgery in the Department of Otolaryngology - Head and Neck Surgery at the University of Cincinnati College of Medicine and UC Health. Norberto Andaluz, MD, MBA, FACS - Professor of Neurosurgery and Otolaryngology/Head and Neck Surgery - Director, Division of Skull Base Surgery University of Cincinnati College of Medicine and University of Cincinnati Gardner Neuroscience Institute - UC Health Click here to attend Date: Wednesday, Sept 23, 2020 Time: 3:00 PM Eastern Daylight Time Learning objectives: 1. To understand the surgical steps of endoscopic pituitary surgery 2. To understand how the surgical steps of endoscopic pituitary surgery translate to post-operative outcomes 3. To understand surgical factors that can modify post-operative outcomes after endoscopic pituitary surgery 4. To understand post-operative care that can modify post-operative outcomes after endoscopic pituitary surgery
Cushing’s disease patients whose pituitary tumors carry a USP8 mutation are more likely to achieve remission after surgery than those without such mutations, a retrospective Italian study found. The study, “Clinical characteristics and surgical outcome in USP8-mutated human adrenocorticotropic hormone-secreting pituitary adenomas,” was published in the journal Endocrine. Cushing’s disease is a condition where a tumor on the pituitary gland produces too much of the adrenocorticotropin hormone (ACTH), which will act on the adrenal gland to make cortisol in excess. While rare, the condition can be life-threatening, as excess cortisol is linked to an increased risk of infections and cardiovascular complications, along with an increased likelihood of obesity and diabetes. The reasons some patients develop these pituitary adenomas are far from understood, but researchers recently found that some of these patients show mutations in the USP8 gene. These appear to increase EGFR signaling which, in turn, has a stimulatory role for the synthesis of ACTH. But more than influencing the development of Cushing’s disease, researchers believe the USP8 mutations may also determine response to treatment. Thus, a team in Italy examined whether patients with USP8 mutations presented different clinical features and responded differently to the standard surgical procedure, called transsphenoidal pituitary surgery. The study included 92 patients with ACTH-secreting pituitary tumors who received surgery at the neurosurgical department of the Istituto Scientifico San Raffaele in Milan between 1996 and 2016. “All surgical procedures were performed by the same experienced neurosurgeon, which is one of the most important factors affecting early and late surgical outcome of pituitary adenomas,” researchers explained. Among study participants, 22 (23.9%) had mutations in the USP8 gene, but these mutations were significantly more common in women than in men — 28.7% vs. 5.3%. Researchers think estrogens — a female sex hormone — may have a role in the development of mutated pituitary tumors. Overall, the two groups had similar tumor size and aggressiveness and similar ACTH and cortisol levels before surgery. But among those with microadenomas — tumors smaller then 10 mm in diameter — USP8-mutated patients had significantly larger tumor diameters. After receiving surgery, 81.5% of patients achieved surgical remission — deemed as low cortisol levels requiring glucocorticoid replacement therapy, normal cortisol levels in urine, and normal response to a dexamethasone-suppression test. But remission rates were significantly higher among those with USP8 mutations — 100% vs. 75.7%. Also, USP8 mutation carriers required steroid replacement therapy for shorter periods, despite ACTH and cortisol levels being similar among the two groups after surgery. Among patients who entered remission, 12 (16%) saw their disease return. While more patients with USP8 mutations experienced a recurrence — 22.7% vs. 13.2% — this difference was not significant. After five years, 73.8% of UPS8-mutated patients remained alive and recurrence-free, which researchers consider comparable to the 88.5% seen in patients without the mutation. Researchers also tested sex, age at surgery, and post-surgical ACTH and cortisol levels as possible predictors of disease recurrence, but none of these factors was associated with this outcome. “ACTH-secreting pituitary adenomas carrying somatic USP8 mutations are associated with a greater likelihood of surgical remission in patients operated on by a single neurosurgeon. Recurrence rates are not related with USP8-variant status,” researchers concluded. From https://cushingsdiseasenews.com/2018/10/23/cushings-disease-patients-usp8-mutations-more-likely-achieve-remission-after-surgery/
Patients with subclinical hypercortisolism, i.e., without symptoms of cortisol overproduction, and adrenal incidentalomas recover their hypothalamic-pituitary-adrenal (HPA) axis function after surgery faster than those with Cushing’s syndrome (CS), according to a study. Moreover, the researchers found that an HPA function analysis conducted immediately after the surgical removal of adrenal incidentalomas — adrenal tumors discovered by chance in imaging tests — could identify patients in need of glucocorticoid replacement before discharge. Using this approach, they found that most subclinical patients did not require treatment with hydrocortisone, a glucocorticoid taken to compensate for low levels of cortisol in the body, after surgery. The study, “Alterations in hypothalamic-pituitary-adrenal function immediately after resection of adrenal adenomas in patients with Cushing’s syndrome and others with incidentalomas and subclinical hypercortisolism,” was published in Endocrine. The HPA axis is the body’s central stress response system. The hypothalamus releases corticotropin-releasing hormone (CRH) that acts on the pituitary gland to release adrenocorticotropic hormone (ACTH), leading the adrenal gland to produce cortisol. As the body’s defense mechanism to avoid excessive cortisol secretion, high cortisol levels alert the hypothalamus to stop producing CRH and the pituitary gland to stop making ACTH. Therefore, in diseases associated with chronically elevated cortisol levels, such as Cushing’s syndrome and adrenal incidentalomas, there’s suppression of the HPA axis. After an adrenalectomy, which is the surgical removal of one or both adrenal glands, patients often have low cortisol levels (hypocortisolism) and require glucocorticoid replacement therapy. “Most studies addressing the peri-operative management of patients with adrenal hypercortisolism have reported that irrespective of how mild the hypercortisolism was, such patients were given glucocorticoids before, during and after adrenalectomy,” the researchers wrote. Evidence also shows that, after surgery, glucocorticoid therapy is administered for months before attempting to test for recovery of HPA function. For the past 30 years, researchers at the University Hospitals Cleveland Medical Center have withheld glucocorticoid therapy in the postoperative management of patients with ACTH-secreting pituitary adenomas until there’s proof of hypocortisolism. “The approach offered us the opportunity to examine peri-operative hormonal alterations and demonstrate their importance in predicting need for replacement therapy, as well as future recurrences,” they said. In this prospective observational study, the investigators extended their approach to patients with subclinical hypercortisolism. “The primary goal of the study was to examine rapid alteration in HPA function in patients with presumably suppressed axis and appreciate the modulating impact of surgical stress in that setting,” they wrote. Collected data was used to decide whether to start glucocorticoid therapy. The analysis included 14 patients with Cushing’s syndrome and 19 individuals with subclinical hypercortisolism and an adrenal incidentaloma. All participants had undergone surgical removal of a cortisol-secreting adrenal tumor. “None of the patients received exogenous glucocorticoids during the year preceding their evaluation nor were they taking medications or had other illnesses that could inﬂuence HPA function or serum cortisol measurements,” the researchers noted. Glucocorticoid therapy was not administered before or during surgery. To evaluate HPA function, the clinical team took blood samples before and at one, two, four, six, and eight hours after the adrenalectomy to determine levels of plasma ACTH, serum cortisol, and dehydroepiandrosterone sulfate (DHEA-S) — a hormone produced by the adrenal glands. Pre-surgery assessment of both groups showed that patients with an incidentaloma plus subclinical hypercortisolism had larger adrenal masses, higher ACTH, and DHEA-S levels, but less serum cortisol after adrenal function suppression testing with dexamethasone. Dexamethasone is a man-made version of cortisol that, in a normal setting, makes the body produce less cortisol. But in patients with a suppressed HPA axis, cortisol levels remain high. After the adrenalectomy, the ACTH concentrations in both groups of patients increased. This was found to be negatively correlated with pre-operative dexamethasone-suppressed cortisol levels. Investigators reported that “serum DHEA-S levels in patients with Cushing’s syndrome declined further after adrenalectomy and were undetectable by the 8th postoperative hour,” while incidentaloma patients’ DHEA-S concentrations remained unchanged for the eight-hour postoperative period. Eight hours after surgery, all Cushing’s syndrome patients had serum cortisol levels of less than 2 ug/dL, indicating suppressed HPA function. As a result, all of these patients required glucocorticoid therapy for several months to make up for HPA axis suppression. “The decline in serum cortisol levels was slower and less steep [in the incidentaloma group] when compared to that observed in patients with Cushing’s syndrome. At the 6th–8th postoperative hours only 5/19 patients [26%] with subclinical hypercortisolism had serum cortisol levels at ≤3ug/dL and these 5 were started on hydrocortisone therapy,” the researchers wrote. Replacement therapy in the subclinical hypercortisolism group was continued for up to four weeks. Results suggest that patients with an incidentaloma plus subclinical hypercortisolism did not have an entirely suppressed HPA axis, as they were able to recover its function much faster than the CS group after surgical stress. From https://cushingsdiseasenews.com/2018/10/11/most-subclinical-cushings-patients-dont-need-glucocorticoids-post-surgery-study/?utm_source=Cushing%27s+Disease+News&utm_campaign=a881a1593b-RSS_WEEKLY_EMAIL_CAMPAIGN&utm_medium=email&utm_term=0_ad0d802c5b-a881a1593b-72451321
Nearly half of adults with Cushing’s disease that persists or recurs after surgical treatment require second and sometimes third therapeutic interventions, including pituitary surgical reintervention, radiotherapy, pharmacotherapy or bilateral adrenalectomy, study data from Mexico show. Moisés Mercado, MD, FRCPC, of the ABC Hospital Neurological and Cancer Centers in Mexico City, and colleagues evaluated 84 adults (median age, 34 years; 77 women) with Cushing’s disease to determine the long-term efficacy of secondary interventions for persistent and recurrent Cushing’s disease. Median follow-up was 6.3 years. Overall, 81 participants were primarily treated with transsphenoidal surgery. More than half experienced long-lasting remission (61.7%); disease remained active in 16%, who were diagnosed with persistent Cushing’s disease; and 22% experienced relapse after remission and were diagnosed with recurrent Cushing’s disease. After the initial procedure, 18 participants required pituitary surgical reintervention, including 10 with recurrent and eight with persistent disease. Radiation therapy was administered to 14 participants, including two as primary therapy and 12 after failed pituitary surgery. Pharmacologic treatment with ketoconazole was prescribed for 15 participants at one point during the course of disease. Bilateral adrenalectomy was performed in 12 participants. Pituitary surgical reintervention was the most commonly used secondary treatment (22.2%), followed by pharmacologic therapy with ketoconazole (16%), radiotherapy (14.8%) and bilateral adrenalectomy (14.8%). More than half of participants experienced early remissions after a second operation (66.6%) and radiotherapy (58.3%), whereas long-lasting remission was reached in only 33.3% of participants who underwent a second surgery and 41.6% of participants who underwent radiotherapy. Half of participants who underwent bilateral adrenalectomy were diagnosed with Nelson’s syndrome. Overall, 88% of participants achieved remission, and disease was biochemically controlled with pharmacologic treatment in 9.5% of participants after their initial, secondary and third-line treatments. “The efficacy of treatment alternatives for recurrent or persistent [Cushing’s disease] vary among patients, and often, more than one of these interventions is required in order to achieve a long-lasting remission,” the researchers wrote. – by Amber Cox Disclosure: The researchers report no relevant financial disclosures. From http://www.healio.com/endocrinology/adrenal/news/in-the-journals/%7B5519b312-5912-4c65-b2ed-2ece3f68e83f%7D/postsurgical-treatment-often-necessary-in-persistent-recurrent-cushings-disease