A pitfall of bilateral inferior petrosal sinus sampling in cyclic Cushing's syndrome

Background: Clinical care of patients with cyclic Cushing's syndrome (CS) is challenging. Classical pitfalls include incorrect subtyping, unnecessary surgical procedures and delayed definite treatment. Case presentation: A 43-year-old female suffered from a rapidly cycling ectopic CS. She experienced six cycles of severe hypercortisolism within a 2 year period (maximum plasma cortisol 5316 nmol/L, normal range 124.2-662.4 nmol/L; maximum urinary free cortisol 79,469 nmol/24 h, normal range < 414 nmol/24 h) lasting 2-9 weeks. The episodes were associated with pronounced hypokalemia (lowest K+ value recorded 2.4 mmol/l) and progressive signs and symptoms of CS. A bilateral inferior petrosal sinus sampling (BIPSS) performed during a trough phase was false positive for pituitary ACTH overproduction resulting in unnecessary transsphenoidal surgery while a second BIPSS performed during an active phase was indicative for ectopic CS. The 18F-DOPA PET/CT showed a pancreatic lesion, which was subsequently partially removed. Surprisingly, the histopathology was conclusive for ACTH-positive lymph node metastasis located in the retro-duodenal tissue of an occult neuroendocrine tumor WHO grade II. The primary tumor has not been identified so far and, because of the persistent hypercortisolism, the patient underwent bilateral adrenalectomy. Two years later, ACTH levels started to increase progressively. Percutaneous biopsy of a newly identified suspected lesion in the fifth thoracic vertebra revealed a metastasis with positive staining for ACTH, synaptophysin and chromogranin A. Therapy with carboplatin and etoposide was started and, since then, the patient underwent 12 cycles of chemotherapy. Conclusions: We report the challenging case of a rapidly cycling CS secondary to ACTH-secreting neuroendocrine intestinal tumor of unknown primary. We highlight the importance of performing diagnostic tests only during the phases of active cortisol secretion and as soon as first symptoms appear to avoid pitfalls

Altered renal functions in patients with occlusion of an accessory renal artery after endovascular stenting of an infrarenal aneurysm.

OBJECTIVE Coverage of an accessory renal artery (ARA) during endovascular aneurysm repair (EVAR) may result in renal infarction (RI) or decline in renal function. Until now, it remains vague which patients are at risk to develop these complications. We therefore analyzed the effect of ARA sealing by EVAR with respect to the occurrence of RI and renal function. METHODS A retrospective analysis of the medical records and computed tomographic scans of patients who underwent EVAR within a period of 5 years was performed. Particular attention was paid to the presence or absence of accessory renal arteries and renal function before EVAR. Thirty-four patients with ARA were matched 1:3 to 102 patients without ARA. The results after EVAR were analyzed in patients with and without ARA. In patients with ARA, we further examined the results after EVAR in patients with an estimated glomerular filtration rate (eGFR) ≥ 60 mL/min and eGFR < 60 mL/min before EVAR. RESULTS Before EVAR, the median eGFR was 74 mL/min (25th/75th percentiles, 57/89) in patients with ARA and 72 mL/min (25th/75th percentiles, 63/87) in patients without ARA. Alterations in eGFR were significantly pronounced in patients with ARA when compared with patients without ARA 1 week after EVAR (ARA, -10.7 ± 16.9 mL/min vs without ARA, 1.2 ± 13.3 mL/min; P = .002) and after 6 months (ARA, -10.8 ± 17.4 mL/min vs without ARA, 1.2 ± 13.3 mL/min; P = .001). RI only occurred in patients with ARA. Within the group of patients with ARA, patients with normal renal function (NF) showed a more pronounced decline in eGFR preoperatively when compared with patients with impaired renal function (IF) 1 week after EVAR (NF, -14.3 ± 18.0 mL/min vs IF, -1.3 ± 10.8 mL/min; P = .02) and after 6 months (NF, -15.8 ± 17.9 mL/min vs IF, 0.1 ± 15.2 mL/min; P = .007). CONCLUSIONS The decrease in renal function was more pronounced in patients with ARA after EVAR when compared with patients without ARA undergoing EVAR. In patients with ARA, the observed decline in renal function was significantly distinct in patients presenting NF preoperatively. Consequently, the risk of IF after EVAR seems to be increased in patients with ARA and normal preoperative renal function

Time to recovery of adrenal function after curative surgery for Cushing's syndrome depends on etiology

Context: Successful tumor resection in endogenous Cushing's syndrome (CS) results in tertiary adrenal insufficiency requiring hydrocortisone replacement therapy. Objective: The aim was to analyze the postsurgical duration of adrenal insufficiency of patients with Cushing's disease (CD), adrenal CS, and ectopic CS. Design: We performed a retrospective analysis based on the case records of 230 patients with CS in our tertiary referral center treated from 1983-2014. The mean follow-up time was 8 years. Patients: Weincluded 91 patients of the three subtypes of CS undergoing curative intended surgery and documented followup after excluding cases with persistent disease, pituitary radiation, concurrent adrenostatic or somatostatin analog treatment, and malignant adrenal disease. Results: The probability of recovering adrenal function within a 5 years followup differed significantly between subtypes (P =.001). It was 82% in ectopic CS, 58% in CD and 38% in adrenal CS. In the total cohort with restored adrenal function (n = 52) the median time to recovery differed between subtypes: 0.6 years (interquartile range [IQR], 0.03-1.1 y) in ectopic CS, 1.4 years (IQR, 0.9-3.4 y) in CD, and 2.5 years (IQR, 1.6-5.4 y) in adrenal CS (P =.002). In CD the Cox proportionalhazards model showed that the probability of recovery was associated with younger age (hazard ratio, 0.896; 95% confidence interval, 0.822-0.976; P =.012), independently of sex, body mass index, duration of symptoms, and basal ACTH and cortisol levels. There was no correlation with length and extend of hypercortisolism or postoperative glucocorticoid replacement doses. Conclusions: Time to recovery of adrenal function is dependent on the underlying etiology of CS