Screening for Cushing’s syndrome: Is it worthwhile?

Posted on March 5, 2015 by MaryO

The data suggests that Cushing is not frequent enough to support the use of routine screening in patients with morbid obesity and type 2 DM. Also only 1 % of hypertensive patients have secondary hypertension due to CS. However, screening should be considered in young patients with resistant DM and/or hypertension. Among patients with osteoporosis and vertebral fractures up to 5 % were diagnosed with subclinical hypercortisolism; most of these had adrenal adenoma. Screening for CS is important in subjects with adrenal incidentaloma, and many studies show a high prevalence (~10 %) of Cushing or subclinical CS in these patients.

Abstract

Introduction

Cushing’s syndrome (CS) is a rare disease characterized by a collection of signs and symptoms, also common in the general population without elevated cortisol secretion. During the last years more patients with CS are identified earlier and with milder disease. Many of these patients are diagnosed during screening efforts performed for certain or isolated complaints like weight gain, diabetes mellitus (DM), hypertension, osteoporosis, elevated white blood cell counts and more.

Methods

In this review article the most popular screening test performed in the studies cited was the 1-mg dexamethasone suppression test.

Conclusions

Cushing is not frequent enough to support the use of routine screening in patients with morbid obesity and type 2 DM. Also only 1 % of hypertensive patients have secondary hypertension due to CS. However, screening should be considered in young patients with resistant DM and/or hypertension. Among patients with osteoporosis and vertebral fractures up to 5 % were diagnosed with subclinical hypercortisolism; most of these had adrenal adenoma. Screening for CS is important in subjects with adrenal incidentaloma, and many studies show a high prevalence (~10 %) of Cushing or subclinical CS in these patients.

Buy this article for $39.00 at http://link.springer.com/article/10.1007%2Fs11102-015-0634-9

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After massive weight gain, Cushing’s disease diagnosis saves man’s life – Health – TODAY.com

Posted on March 4, 2015 by MaryO

Donelle Trotman was only in his 30s when his health suddenly took a strange and frightening turn.

He was rapidly gaining weight — more than 100 pounds in one year. His upper torso was getting bigger, but not his legs. And he felt overwhelmingly tired.

“My body just started changing,” the Staten Island, New York, native told TODAY as part of a three-day series, “Medical Mysteries,” looking at people who have recovered from rare diseases.

It was especially puzzling because Trotman had never had weight issues before.

In school, Trotman was never a skinny kid, but he wasn’t overweight. He loved sports, playing both basketball and baseball.

So as he entered adulthood, he was active and in good shape. Then, three years ago, he suddenly began to gain weight.

“It was just specific places: My stomach, under my arms, my back of my neck, my face, the bottom of my back,” Trotman said. “My legs stayed the same for a long time.”

To lose the extra pounds, Trotman began running, working out and lifting weights. Nothing worked.

In the span of one year, Trotman gained more than 120 pounds, topping the scale at 366 pounds, twice the amount he weighed at 18.

“I doubled, like, I got a whole person on me,” he said.

There were other alarming changes. Trotman became so easily tired that he’d get out of breath just by chewing food. When he woke up seeing double three months ago, he knew it was time to go to the hospital.

Doctors ran a flurry of tests, but the results offered few clues, leaving everyone puzzled. Then one day, an intern noticed stretch marks all over Trotman’s body, a telltale sign that solved the mystery. Trotman had Cushing’s disease, a rare condition that affects fewer than 50,000 people in the U.S. every year.

Trotman’s weight gain was being caused by a tiny tumor at the base of his brain, prompting his body to produce too much of the hormone cortisol. He had some of the classic symptoms: major weight gain in his upper body, skin problems and acne, plus fatigue.

Dr. John Boockvar and Dr. Peter Costantino at New York’s Lenox Hill Hospital discovered Trotman had steroid levels ten times higher than normal.

“In Cushing’s disease, the pituitary gland has a small growth that releases a single hormone that causes the body to live with very high levels of steroids. The skin becomes very thin. You get increased acne. You can grow hair. You start sweating. You gain a lot of fat,” Boockvar said.

There was no time to lose: Untreated, Cushing’s is a fatal disease. Trotman was getting close to the point where doctors would not be able to reverse the changes, Costantino noted. He underwent surgery two weeks ago and had the growth successfully removed.

“The tumor was no bigger than the size of the tip of my pen,” Boockvar said. “And that something so small can cause a man to grow to 350 pounds and absolutely destroy his life is rather remarkable.”

These days, Trotman is feeling much better. His main focus now is to lose the weight he gained and regain an active lifestyle. He hopes to play basketball with his son soon.

“It’s wonderful. Every day it’s just like I feel a little stronger,” he said.

Doctors say Trotman will continue to lose weight and can shoot hoops with his son in about three months. There is an 8-10 percent chance the disease could come back, but Trotman said he knows what to look for now.

One of the reasons Trotman wanted to share his story is so others might recognize the symptoms of Cushing’s, although doctors stress it is a very rare illness.

 

Watch the video here: After massive weight gain, Cushing’s disease diagnosis saves man’s life – Health – TODAY.com.

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Exophthalmos and Cushing’s Syndrome

Posted on February 4, 2015 by MaryO

A woman experienced red, irritated and bulging eyes. She saw an ophthalmologist who strongly suspected Graves’ ophthalmopathy. However, the patient did not have and never had hyperthyroidism.

Indeed, she had primary hypothyroidism optimally treated with levothyroxine. Her thyroid stimulating hormone level was 1.197 uIU/mL.

An MRI of the orbits showed normal extraocular muscles without thickening, but there was mild proptosis and somewhat increased intraorbital fat content. Both thyroid-stimulating immunoglobulins as well as thyrotropin receptor antibodies were negative.

The patient presented to her primary care physician a few months later. She had experienced a 40-lb weight gain over only a few months and also had difficult-to-control blood pressure.

After failing to respond to several antihypertensive medications, her primary care physician astutely decided to evaluate for secondary causes of hypertension. A renal ultrasound was ordered to evaluate for renal artery stenosis, and the imaging identified an incidental right-sided adrenal mass. A CT confirmed a 3.4-cm right-sided adrenal mass. Her morning cortisol was slightly high at 24.7 ug/dL (4.3 – 22.4) and her adrenocorticotropic hormone was slightly low at 5 pg/mL (10-60).

At this point I saw the patient in consultation. She definitely had many of the expected clinical exam findings of Cushing’s syndrome, including increased fat deposition to her abdomen, neck, and supraclavicular areas, as well as striae. Her 24-hour urine cortisol was markedly elevated at 358 mcg/24hrs (< 45) confirming our suspicions.

She asked me, “Do you think that my eye problem could be related to this?”

“I’ve not heard of it before,” I replied, “but that doesn’t mean there can’t be a connection. Wouldn’t it be wonderful if your eyes got better after surgery?”

The patient underwent surgery to remove what fortunately turned out to be a benign adrenal adenoma.

When we saw her in follow-up 2 weeks later, her blood pressures were normal off medication and her eye symptoms had improved. I had a medical student rotating with me, so I suggested that we do a PubMed literature search.

The first article to come up was a case report titled “Exophthalmos: A Forgotten Clinical Sign of Cushing’s Syndrome.” Indeed, not only did Harvey Cushing describe this clinical finding in his original case series in 1932, but others have reported that up to 45% of patients with active Cushing’s syndrome have exophthalmos.

The cause is uncertain but is theorized to be due to increased intraorbital fat deposition. Unlike exophthalmos due to thyroid disease, the orbital muscles are relatively normal — just as they were with our patient.

Some of you may have seen exophthalmos in your Cushing’s patients; however, this was the first time I had seen it. Just because one has not heard of something, does not mean it could never happen; no one knows everything. “When in doubt, look it up” is a good habit for both attending physicians and their students.

For more information:

Giugni AS, et al. Case Rep Endocrinol. 2013; 2013: 205208.

From http://www.healio.com/endocrinology/adrenal/news/blogs/%7B779bf3e5-e1da-459e-af27-955c9b4274a5%7D/thomas-b-repas-do-facp-face-cde/exophthalmos-and-cushings-syndrome

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Myth: “All Cushing’s patients have the exact same symptoms

Posted on December 30, 2014 by MaryO

Myth: “All Cushing’s patients have the exact same symptoms and the level of illness is the same for everyone. If you do not have ALL of the classic symptoms of Cushing’s, then you must NOT have Cushing’s Syndrome/Disease!”

myth-busted

Fact: Everyone does NOT have the exact same symptoms. Not all Cushing’s patients are exactly the same. This is one mistake that non experts tend to make in terms of categorizing patients by whether they meet the exact same classic symptoms or not. Experts have come to learn that each patient should be treated individually. Though there are symptoms that are more prominent in the Cushing’s population, not every patient has to meet every single symptom in order to meet criteria for Cushing’s.

For instance, not all Cushing’s patients become overweight. Everyone does not gain the same amount of weight. There are various theories as to why. One issue is that different patients are diagnosed at different stages of the illness. We know that patients tend not to be diagnosed at the onset of the illness because of doctors’ misconception that Cushing’s patients must be extremely obese to have the disease. So, patients who have not gained as much weight may not be listened to until after the weight has gotten out of control. However, there ARE patients who are diagnosed early enough where there has not been a tremendous amount of weight gain.

I (Karen Ternier Thames), for one, started trying to get help after gaining my first 30 pounds because I KNEW that something was wrong with my body. Had I received an appropriate diagnosis, I probably would not have gained the 150 pounds I ended up gaining in 5 years.

Regardless of the reason, it is a myth that all Cushing’s patients gain the same amount of weight. The following are other additional reasons that an endocrinologist gave me for supposedly not meeting the criteria for Cushing’s when I was misdiagnosed: “1. Your stretch marks are not purple enough”, 2. “Your buffalo hump is not large enough”, 3. “You are not THAT fat!”, 4. “Cushing’s patients do NOT have children”, and 5. ” your face does not look like a classic moon face”. These are some of the reasons why, 2 years earlier, this same doctor dismissed apparently high cortisol levels, and didn’t even tell me, leading to several more years of suffering!

So, not all Cushing’s patients are obese, not all Cushing’s patients gain the same weight at the same rate, not all Cushing’s patients have the same size buffalo hump or the same round moon face. There are variations in these symptoms. IF you are experiencing extreme changes in your body regardless of diet and exercise and its not influenced by external factors, then it is time to speak up!

It is important to raise concern with your doctor if you do have ANY Cushing’s symptoms. Please do not be inhibited if you do not show every single symptom!

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Mutations Drive Unrestrained Secretion

Posted on December 11, 2014 by MaryO
The USP8 mutations identified in adenomas of the pituitary gland lead to overproduction of ACTH. Panel A: ACTH-producing cells in a normal gland. The other panels show cells non-mutant (B) or mutant (C) for USP8. Credit: S. Sbiera, Universität Würzburg

The USP8 mutations identified in adenomas of the pituitary gland lead to overproduction of ACTH. Panel A: ACTH-producing cells in a normal gland. The other panels show cells non-mutant (B) or mutant (C) for USP8. Credit: S. Sbiera, Universität Würzburg

Benign tumors in the pituitary gland lead to uncontrolled secretion of the stress hormone cortisol by the cells of the adrenal cortex. An international research effort has now characterized a new mechanism that triggers the syndrome.

Many individuals who suffer from Cushing syndrome are easy to recognize: They tend to be overweight particularly around the waist, and have round faces and bull necks. In addition to these obvious features, most of them have high blood pressure, develop muscle weakness, become diabetic and are extremely susceptible to infection. Cushing syndrome can often be treated effectively by surgical intervention, but patients succumb to infections or cardiovascular disease if the condition is left untreated.

In their efforts to understand how benign tumors in the pituitary provoke the development of Cushing’s disease, researchers based in Munich, Würzburg and Tokyo led by Professor Martin Reincke (Director of LMU’s Medical Clinic IV at Munich University Medical Center) have now pinpointed a novel molecular mechanism responsible for the condition. The results of the study have just appeared in Nature Genetics.

The perils of incessant secretion

All of the symptoms that typify Cushing syndrome are attributable to the unregulated secretion of the hormone cortisol – generally referred to as cortisone. Cortisol is normally released into the bloodstream only in stress situations, and helps the organism to cope with the challenge. However, when secreted in an uncontrolled fashion, the result is physiological havoc. Cortisol is synthesized in, and secreted by specialized cells in the adrenal cortex in response to the binding of a different hormone, the adrenocorticotropic hormone (ACTH). ACTH in turn is produced in the pituitary gland. Excessive cell proliferation in the pituitary can result in the formation of benign tumors (adenomas), which may lead to overproduction of ACTH and a corresponding increase in the level of circulating cortisol. However, the connecting links between the two processes are incompletely understood.

“We have now shown that tumor cells in more than one-third of patients with Cushing’s disease carry a mutation in one specific gene, which codes for an enzyme called ubiquitin-specific protease 8,” says Martin Fassnacht (Würzburg University Hospital), one of the authors of the publication. The mutation was discovered in the course of a detailed genetic characterization of benign tumors of the pituitary gland that overproduced ACTH.

Protease defect sets off a chain reaction

Ubiquitin-specific protease 8 (USP8) is one of a family of enzymes which play a key role in the destruction of proteins that are required only transiently by cells. One such protein is the receptor for epidermal growth factor (EGF), which is degraded and disposed of only when the USP8 gene is inactive, and no USP8 protein is present. The collaboration found that the effect of the mutations identified in pituitary tumor tissues is to keep the USP8 permanently active. As a consequence, the EGF receptor escapes demolition, and is instead recycled to its site of action on the cell membrane. The upshot of this is a life-threatening chain reaction, in which unrestrained synthesis of ACTH leads to uninhibited secretion of cortisol. “The identification of mutations in USP8 is a significant finding, because it opens up entirely new diagnostic and therapeutic approaches to the management of Cushing’s disease,” Martin Reincke adds.

Long-term focus on Cushing’s disease

Indeed, this is not the first time that the collaboration between the teams in Munich and Würzburg has shed light on the pathogenesis of Cushing’s disease. The two groups have previously identified mutations in a gene that is expressed in the adrenal cortex as a frequent cause of the pathological secretion of cortisol in a different patient population. The results of that study appeared in February 2014 in the “New England Journal of Medicine“. And only last week, a paper providing a detailed characterization of the molecular effects of the latter set of mutations was published in “Nature Communications“.

Explore further: Cushing’s syndrome: A genetic basis for cortisol excess

More information: “Mutations in the deubiquitinase gene USP8 cause Cushing’s disease.” Nature Genetics (2014) DOI: 10.1038/ng.3166

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