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Sethi A, et al. Clin Endocrinol. 2019;doi:10.1111/CEN.14146. January 5, 2020 Obesity is common at diagnosis of pituitary adenoma in childhood and may persist despite successful treatment, according to findings published in Clinical Endocrinology. “The importance of childhood and adolescent obesity on noncommunicable disease in adult life is well recognized, and in this new cohort of patients, we report that obesity is common at presentation of pituitary adenoma in childhood and that successful treatment is not necessarily associated with weight loss,” Aashish Sethi, MD, MBBS, a pediatric endocrinologist in the department of endocrinology at Alder Hey Children’s Hospital in Liverpool, United Kingdom, and colleagues wrote. “We have reported obesity, and obesity-related morbidity in a mixed cohort of children and young adults previously, but [to] our knowledge, this is the first time this observation has been reported in a purely pediatric cohort.” In a retrospective study, Sethi and colleagues analyzed clinical and radiological data from 24 white children from Alder Hey Children’s Hospital followed for a median of 3.3 years between 2000 and 2019 (17 girls; mean age at diagnosis, 15 years). Researchers assessed treatment modality (medical, surgical or radiation therapy), pituitary hormone deficiencies and BMI, as well as results of any genetic testing. Within the cohort, 13 girls had prolactinomas (mean age, 15 years), including 10 macroadenomas between 11 mm and 35 mm in size. Children presented with menstrual disorders (91%), headache (46%), galactorrhea (46%) and obesity (38%). Nine children were treated with cabergoline alone, three also required surgery, and two were treated with the dopamine agonist cabergoline, surgery and radiotherapy. Five children had Cushing’s disease (mean age, 14 years; two girls), including one macroadenoma. Those with Cushing’s disease presented with obesity (100%), short stature (60%) and headache (40%). Transsphenoidal resection resulted in biochemical cure; however, two patients experienced relapse 3 and 6 years after surgery, respectively, requiring radiotherapy. One patient also required bilateral adrenalectomy. Six children had a nonfunctioning pituitary adenoma (mean age, 16 years; two girls), including two macroadenomas. These children presented with obesity (67%), visual field defects (50%) and headache (50%). Four required surgical resections, with two experiencing disease recurrence after surgery and requiring radiotherapy. During the most recent follow-up exam, 13 children (54.1%) had obesity, including 11 who had obesity at diagnosis. “The persistence of obesity following successful treatment, in patients with normal pituitary function, suggests that mechanisms other than pituitary hormone excess or deficiency may be important,” the researchers wrote. “It further signifies that obesity should be a part of active management in cases of pituitary adenoma from diagnosis.” – by Regina Schaffer Disclosures: The authors report no relevant financial disclosures. From https://www.healio.com/endocrinology/adrenal/news/online/%7Bde3fd83b-e8e0-4bea-a6c2-99eb896356ab%7D/long-term-obesity-persists-despite-pituitary-adenoma-treatment-in-childhood
Treatment with fluconazole after cabergoline eased symptoms and normalized cortisol levels in a patient with recurrent Cushing’s disease who failed to respond to ketoconazole, a case study reports. The case report, “Fluconazole as a Safe and Effective Alternative to Ketoconazole in Controlling Hypercortisolism of Recurrent Cushing’s Disease: A Case Report,” was published in the International Journal of Endocrinology Metabolism. Ketoconazole, (brand name Nizoral, among others) is an anti-fungal treatment used off-label for Cushing’s disease to prevent excess cortisol production, a distinct symptom of the disease. However, severe side effects associated with its use often result in treatment discontinuation and have led to its unavailability or restriction in many countries. Consequently, there is a need for alternative medications that help manage disease activity and clinical symptoms without causing adverse reactions, and that could be given to patients who do not respond to ketoconazole treatment. In this case report, researchers in Malaysia reported on a 50-year-old woman who fared well with fluconazole treatment after experiencing severe side effects with ketoconazole. The woman had been in remission for 16 years after a transsphenoidal surgery — a minimally invasive brain surgery to remove a pituitary tumor — but went to the clinic with a three-year history of high blood pressure and gradual weight gain. She also showed classic symptoms of Cushing’s disease: moon face, fragile skin that bruised easily, and purple stretch marks on her thighs. Blood and urine analysis confirmed high cortisol levels, consistent with a relapse of the pituitary tumor. Accordingly, magnetic resonance imaging (MRI) of her brain showed the presence of a small tumor on the right side of the pituitary gland, confirming the diagnosis of recurrent Cushing’s disease. Doctors performed another transsphenoidal surgery to remove the tumor, and a brain MRI then confirmed the success of the surgery. However, her blood and urine cortisol levels remained markedly high, indicating persistent disease activity. The patient refused radiation therapy or adrenal gland removal surgery, and was thus prescribed ketoconazole twice daily for managing the disease. But after one month on ketoconazole, she experienced low cortisol levels. Hydrocortisone — a synthetic cortisol hormone — was administered to maintain steady cortisol levels. However, she developed severe skin itching and peeling, which are known side effects of ketoconazole. She also suffered a brain bleeding episode, for which she had to have a craniotomy to remove the blood clot. Since she experienced adverse effects on ketoconazole, which also hadn’t decreased her disease activity, the doctors switched her to cabergoline. Cabergoline (marketed as Dostinex, among others) is a dopamine receptor agonist that has been shown to be effective in managing Cushing’s disease. But cabergoline treatment also did not lower the disease activity, and her symptoms persisted. The doctors then added fluconazole (marketed as Diflucan, among others), an anti-fungal medication, based on studies that showed promising results in managing Cushing’s syndrome. Three months after the addition of fluconazole to her treatment plan, the patient’s clinical symptoms and cortisol levels had responded favorably. At her next clinical visit 15 months later, her condition remained stable with no adverse events. “This case demonstrates the long-term efficacy of fluconazole in tandem with cabergoline for the control of recurrent Cushing’s disease,” the researchers wrote. The favorable outcome in this case also “supports the notion that fluconazole is a viable substitute for ketoconazole in the medical management of this rare but serious condition,” they concluded. From https://cushingsdiseasenews.com/2018/09/27/fluconazole-safe-effective-alternative-recurrent-cushings-patient-case-report/
From Kathy's bio at http://cushingsbios.com/2014/04/25/kathy-c-pituitary-bio/ Kathy will be interviewed May 7, 2014 in BlogTalkRadio. You can listen live and ask questions or download the podcast later.
LA JOLLA, CA—Scientists at the Salk Institute for Biological Studies have identified a protein that drives the formation of pituitary tumors in Cushing’s disease, a development that may give clinicians a therapeutic target to treat this potentially life-threatening disorder. The protein, called TR4 (testicular orphan nuclear receptor 4), is one of the human body’s 48 nuclear receptors, a class of proteins found in cells that are responsible for sensing hormones and, in response, regulating the expression of specific genes. Using a genome scan, the Salk team discovered that TR4 regulates a gene that produces adrenocorticotropic hormone (ACTH), which is overproduced by pituitary tumors in Cushing’s disease (CD). The findings were published in the May 6 early online edition of Proceedings of the National Academy of Sciences. “We were surprised by the scan, as TR4 and ACTH were not known to be functionally linked,” says senior author Ronald M. Evans, a professor in Salk’s Gene Expression Laboratory and a lead researcher in the Institute’s Helmsley Center for Genomic Medicine. “TR4 is driving the growth and overexpression of ACTH. Targeting this pathway could therapeutically benefit treatment of CD.” In their study, Evans and his colleagues discovered that forced overexpression of TR4 in both human and mouse cells increased production of ACTH, cellular proliferation and tumor invasion rates. All of these events were reversed when TR4 expression was reduced. First described more than 80 years ago, Cushing’s disease is a rare disorder that is caused by pituitary tumors or excess growth of the pituitary gland located at the base of the brain. People with CD have too much ACTH, which stimulates the production and release of cortisol, a hormone that is normally produced during stressful situations. While these pituitary tumors are almost always benign, they result in excess ACTH and cortisol secretion, which can result in various disabling symptoms, including diabetes, hypertension, osteoporosis, obesity and psychological disturbances. Surgical removal of the tumors is the first-line therapy, with remission rates of approximately 80 percent; however, the disease recurs in up to 25 percent of cases. Drugs such as cabergoline, which is used to treat certain pituitary tumors, alone or in combination with ketoconazole, a drug normally used to treat fungal infections, have been shown to be effective in some patients with Cushing’s disease. More recently, mefipristone-best known as the abortion pill RU-486-was approved by the FDA to treat CD. Despite these advances in medical therapy, the Salk scientists say additional therapeutic approaches are needed for CD. “Pituitary tumors are extremely difficult to control,” says Michael Downes, a senior staff scientist in the Gene Expression Laboratory and a co-author of the study. “To control them, you have to kill cells in the pituitary gland that are proliferating, which could prevent the production of a vital hormone.” Previous studies have found that, by itself, TR4 is a natural target for other signaling molecules in the pituitary. Small-molecule inhibitors that have been developed for other cancers could be potentially applied to disrupt this signaling cascade. “Our discovery,” says Evans, a Howard Hughes Medical Institute investigator and holder of the March of Dimes Chair in Molecular and Developmental Biology, “might lead clinicians to an existing drug that could be used to treat Cushing’s disease.” Source: Salk Institute