No High-Quality Studies for Cushing’s Drugs

Posted on October 4, 2013 by MaryO

By Salynn Boyles, Contributing Writer, MedPage Today

Reviewed by Zalman S. Agus, MD; Emeritus Professor, Perelman School of Medicine at the University of Pennsylvania and Dorothy Caputo, MA, BSN, RN, Nurse Planner

There is a paucity of clinical trial data supporting the efficacy of most drugs used to treat Cushing’s disease, researchers reported.

Just one drug — pasireotide — has been evaluated in a randomized, double-blind trial, but even it was judged by the researchers to have only a ‘moderate’ level of evidence supporting its effectiveness and safety.

The review of the literature evaluating drug treatments for Cushing’s disease, a rare pituitary disorder, is the first to employ a rigorous systematic approach with strict, predefined inclusion criteria and formal analysis of the quality of evidence using an established standard, researcher Monica Gadelha, MD, PhD, of Brazil’s Federal University of Rio de Janeiro, and colleagues wrote in the journal Clinical Endocrinology.

“This systematic review indicates that the majority of medical therapies currently used in the treatment of Cushing’s disease are supported by a low level of evidence,” the researchers wrote. “Further well-designed prospective studies of medications in Cushing’s disease would help to inform clinical practice further.”

Cushing’s disease is the most common form of endogenous Cushing’s syndrome, a hormonal disorder resulting from persistent exposure to abnormally high levels of the hormone cortisol. In the case of Cushing’s disease, the cortisol is secreted by a pituitary adenoma.

Prolonged exposure to high levels of cortisol raises the risk for diabetes mellitus, cardiovascular disease, osteoporosis and nephrolithiasis. Patients with persistent Cushing’s disease have a 3- to 5-fold higher mortality than the general population.

Surgery to remove the pituitary adenoma is the first-line treatment for Cushing’s disease in the U.S., and when the procedure is performed by an experienced surgeon, remission rates in patients with smaller tumors range from 65% to 90%. The long-term remission rate is lower, however, because many patients develop recurrent disease.

Several medical therapies are widely used to treat patients who are not candidates for surgery or who experience relapse following surgery.

Novartis Oncology’s somatostatin analog drug pasireotide (Signifor) became the only drug approved for this indication in December of last year. And the progesterone-blocking drug mifepristone, best known as the abortion pill once called RU-486, was approved in February of 2012 for the treatment of Cushing’s disease-associated hyperglycemia.

Other drugs — including metyrapone, mitotane, cabergoline, and ketoconazole — are also used off-label in the treatment of Cushing’s, and several have shown better response rates than pasireotide in small studies.

In their systematic review, Gadelha and colleagues identified 15 studies that included at least 10 adults with Cushing’s disease and reported treatment responses as the proportion of patients reaching a specified definition of response. Studies examining combinations of medications were excluded from the analysis, as were studies with indefinite diagnoses of Cushing’s disease.

For medications other than mifepristone, studies had to report the proportion of patients with normalized urinary free cortisol (UFC), midnight salivary cortisol or midnight serum cortisol.

The studies were scored according to the Grading of Recommendations, Assessment, Development and Evaluation (GRADE) system for rating quality of evidence.

Ten of the 15 included studies reported outcomes specifically for patients with Cushing’s disease and the remaining five included patients with other forms of Cushing’s syndrome.

The researchers reported that:

  • Pasireotide was the only treatment assessed in a randomized trial, and it was judged to have a ‘moderate’ level of evidence supporting its use. Response rates from three prospective studies of the drug ranged from 17% to 29%.
  • The remaining medications were supported by a ‘low’ or ‘very low’ level of evidence.
  • The highest response rates were reported in a small retrospective studies of metyrapone (75%, one study) and mitotane (72%, one study).
  • Response rates were 25% to 50% for cabergoline (four studies) and 45% for ketoconazole (one study).
  • Among studies that included patients with other forms of Cushing’s syndrome, response rates were 53% to 88% for ketoconazole (three studies), 70% for mitotane (one study), 57% for metyrapone (one study), and 38% to 60% for mifepristone (one study).

 

But the researchers urged caution in comparing the drugs, citing the variability in the study designs and patient selection endpoints, among other limitations in the research literature.

“The wide variation in the time-frames over which response to treatment was measured makes comparison a challenge,” they wrote. “Comparison of response rates reported in the included studies is also complicated by the variation in methodology used to assess response.”

They noted that well-designed clinical trials are needed to determine which drugs or drug combinations are most effective in the treatment of Cushing’s disease patients.

“Combinations of medical therapies with different modes of action might aid in optimizing the balance of efficacy and safety,” they wrote. “Investigational medications, such as bexarotene, LC1699 and retinoic acid, may help to expand the range of future therapeutic options.”

Maria Fleseriu, MD, who was not involved in the review, agreed that more drug treatments are needed. But she added that Cushing’s patients today have many more drug options than they did just a few years ago.

Fleseriu directs the Pituitary Center at Oregon Health & Science University, where she is an associate professor of medicine and endocrinology.

In a recently published analysis, Fleseriu wrote that pituitary-targeted medical therapies should soon play a more prominent role in treating Cushing’s disease, and may become first-line treatments when surgery fails or is contraindicated.

“We now have one drug approved for Cushing’s and another approved for diabetes symptoms associated with the disease,” she told MedPage Today. “We are moving forward, but we are not where we would like to be. Combination therapy is probably where we are heading, but further studies are needed.”

Financial support for this research was provided by Novartis Pharmaceuticals.

Researcher Monica Gadelha reports receiving speaker fees and participating on advisory boards for Novartis. Gadelha and co-author Leonardo Vieira Neto were investigators in Novartis’ clinical trials of pasireotide.

 

From http://www.medpagetoday.com/Endocrinology/GeneralEndocrinology/42043

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When to think Cushing’s syndrome in type 2 diabetes

Posted on July 28, 2013 by MaryO

ESTES PARK, COLO. – Diabetes mellitus, osteoporosis, and hypertension are conditions that should boost the index of suspicion that a patient with some cushingoid features may in fact have endogenous Cushing’s syndrome, Dr. Michael T. McDermott said at a conference on internal medicine sponsored by the University of Colorado.

An estimated 1 in 20 patients with type 2 diabetes has endogenous Cushing’s syndrome. The prevalence of this form of hypercortisolism is even greater – estimated at up to 11% – among individuals with osteoporosis. In hypertensive patients, the figure is 1%. And among patients with an incidentally detected adrenal mass, it’s 6%-9%, according to Dr. McDermott, professor of medicine and director of endocrinology and diabetes at the University of Colorado.

“Endogenous Cushing’s syndrome is not rare. I suspect I’ve seen more cases than I’ve diagnosed,” he observed. “I’ve probably missed a lot because I failed to screen people, not recognizing that they had cushingoid features. Not everyone looks classic.”

There are three screening tests for endogenous Cushing’s syndrome that all primary care physicians ought to be familiar with: the 24-hour urine cortisol test, the bedtime salivary cortisol test, and the overnight 1-mg dexamethasone suppression test.

“I think if you have moderate or mild suspicion, you should use one of these tests. If you have more than moderate suspicion – if a patient really looks like he or she has Cushing’s syndrome – then I would use at least two screening tests to rule out endogenous Cushing’s syndrome,” the endocrinologist continued.

The patient performs the bedtime salivary cortisol test at home, obtaining samples two nights in a row and mailing them to an outside laboratory. The overnight dexamethasone suppression test entails taking 1 mg of dexamethasone at bedtime, then measuring serum cortisol the next morning. A value greater than 1.8 mcg/dL is a positive result.

Pregnant women constitute a special population for whom the screening method recommended in Endocrine Society clinical practice guidelines (J. Clin. Endocrinol. Metab. 2008;93:1526-40) is the 24-hour urine cortisol test. That’s because pregnancy is a state featuring high levels of cortisol-binding globulins, which invalidates the other tests. In patients with renal failure, the recommended screening test is the 1-mg dexamethasone suppression test. In patients on antiepileptic drugs, the 24-hour urine cortisol or bedtime salivary cortisol test is advised, because antiseizure medications enhance the metabolism of dexamethasone.

Dr. McDermott said that “by far” the most discriminatory clinical features of endogenous Cushing’s syndrome are easy bruising, violaceous striae on the trunk, facial plethora, and proximal muscle weakness.

“They’re by no means specific. You’ll see these features in people who don’t have Cushing’s syndrome. But those are the four things that should make you really consider Cushing’s syndrome in your differential diagnosis,” he stressed.

More widely recognized yet actually less discriminatory clinical features include facial fullness and the “buffalo hump,” supraclavicular fullness, central obesity, hirsutism, reduced libido, edema, and thin or poorly healing skin.

Endogenous Cushing’s syndrome can have three causes. An adrenocorticotropic hormone (ACTH)-secreting pituitary adenoma accounts for 80% of cases. A cortisol-secreting adrenal tumor is the cause of 10%. And another 10% are due to an ectopic ACTH-secreting tumor, most commonly a bronchial carcinoid tumor.

Once the primary care physician has a positive screening test in hand, it’s typical to refer the affected patient to an endocrinologist in order to differentiate which of the three causes is present. This is accomplished based upon the results of a large, 8-mg dexamethasone suppression test coupled with measurement of plasma ACTH levels.

Dr. McDermott recommended as a good read on the topic of evaluating a patient with endogenous Cushing’s syndrome a recent review article that included a useful algorithm (N. Engl. J. Med. 2013;368:2126-36).

He reported having no financial conflicts.

bjancin@frontlinemedcom.com

From http://www.clinicalendocrinologynews.com

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Cushing’s Syndrome, Prostate Cancer and Adrenocortical Carcinoma

Posted on March 11, 2013 by MaryO

Orphagen has identified and characterized small molecule antagonists to steroidogenic factor-1 (SF-1). SF-1 binds to and regulates DNA promoter elements in the major transporters and enzymes required for adrenal steroid synthesis. It is also required for development of the adrenal gland. SF-1 antagonists inhibit cortisol secretion in adrenal cells and have potential application in two orphan indications, Cushing’s syndrome and adrenocortical carcinoma. In addition, SF-1 appears to have an important role in the progression of advanced prostate cancer.

 

cushings-adrenocortical-crop

 

Cushing’s syndrome:
An estimated 20,000 people in the US have Cushing’s, with more than 3,000 new cases diagnosed each year. The incidence is similar in Europe. Cushing’s syndrome disproportionately affects females, who make up about 75% of the diagnosed cases. Symptoms of Cushing’s syndrome can include obesity, diabetes, psychiatric disorders, osteoporosis and immune suppression. Cushing’s syndrome is caused by elevated secretion of cortisol from the adrenal gland, in association with pituitary, adrenal or other cancers.

Orphagen has identified small molecule antagonists to SF-1 that have the potential to suppress cortisol levels in all Cushing’s patients without serious side effects.

Adrenocortical carcinoma (ACC):
ACC is a rare malignancy with an extremely poor prognosis (5-year overall survival: 37-47%). Complete surgical resection offers hope for long-term survival but surgery is not an option in up to two-thirds of patients because metastasis has usually occurred by the time of diagnosis.

SF-1 is recognized as a potential mechanism-based therapeutic target for control of ACC and an SF-1 antagonist could be used in the treatment of ACC.

Pediatric ACC:
Pediatric ACC is a very rare but aggressive cancer with a long-term survival rate of about 50%. Approximately 60% of children with adrenocortical tumors are diagnosed before the age of four. The SF-1 gene is amplified and SF-1 protein is overexpressed in the vast majority of childhood adrenocortical tumors strongly implicating SF-1 in pediatric adrenocortical tumorigenesis.

Castration resistant prostate cancer (CRPC):
CRPC is the most common cancer in males. Surgery is not an option if the cancer has spread beyond the prostate gland, at which point patients typically receive hormonal therapy, essentially chemical castration. This course of therapy usually fails within two years, resulting in castration resistant prostate cancer (CRPC). Most patients eventually succumb to CRPC, which is the second leading cause of cancer deaths in men.
SF-1 antagonists may: (1) block the adrenal androgens that circumvent chemical castration, and are a primary cause of CRPC; and (2) inhibit synthesis of androgens within the prostate tumor itself, where SF-1 may control induction of enzymes for de novo androgen synthesis in treatment-resistant cancers.

From http://www.orphagen.com/research_cushings.html

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