Day 6: Cushing’s Awareness Challenge 2015

Posted on April 6, 2015 by MaryO

People sometimes ask me how I found out I had Cushing’s Disease.  Theoretically, it was easy.  In practice, it was very difficult.

Ladies Home Journal, 1983In 1983 I came across a little article in the Ladies Home Journal which said “If you have these symptoms…”

I found the row with my symptoms and the answer read “…ask your doctor about Cushing’s”.

After that article, I started reading everything I could on Cushing’s, I bought books that mentioned Cushing’s. I asked and asked my doctors for many years and all of them said that I couldn’t have it.  It was too rare.  I was rejected each time.

 

 

Due to all my reading at the library, I was sure I had Cushing’s but no one would believe me. My doctors would say that Cushing’s Disease is too rare, that I was making this up and that I couldn’t have it.

In med school, student doctors are told “When you hear hoofbeats, think horses, not zebras“.

According to Wikipedia: “Zebra is a medical slang term for a surprising diagnosis. Although rare diseases are, in general, surprising when they are encountered, other diseases can be surprising in a particular person and time, and so “zebra” is the broader concept.

The term derives from the aphorism “When you hear hoofbeats behind you, don’t expect to see a zebra”, which was coined in a slightly modified form in the late 1940s by Dr. Theodore Woodward, a former professor at the University of Maryland School of Medicine in Baltimore.  Since horses are the most commonly encountered hoofed animal and zebras are very rare, logically you could confidently guess that the animal making the hoofbeats is probably a horse. By 1960, the aphorism was widely known in medical circles.”

So doctors typically go for the easily diagnosed, common diseases.  Just because something is rare doesn’t mean that no one gets it.  We shouldn’t be dismissed because we’re too hard to diagnose.

When I was finally diagnosed in 1987, 4 years later, it was only because I started bleeding under the skin. My husband made circles around the outside perimeter each hour with a marker so my leg looked like a cut log with rings.

When I went to my Internist the next day he was shocked at the size of the rings. He now thought I had a blood disorder so he sent me to a Hematologist/Oncologist.

Fortunately, he ran a twenty-four hour urine test and really looked at me and listened to me.  Both he and his partner recognized that I had Cushing’s but, of course, couldn’t do anything further with me.  They packed me off to an endo where the process started again.

My final diagnosis was in October, 1987.  Quite a long time to simply  “…ask your doctor about Cushing’s”.

Looking back, I can see Cushing’s symptoms much earlier than 1983.  But, that ‘s for a different post.

 

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OR17-Novel Aspects of Adrenal Tumors and the HPA Axis

Posted on March 6, 2015 by MaryO

ENDO_2015

 

March 06, 2015

OR17-Novel Aspects of Adrenal Tumors and the HPA Axis

Epigenetic modulation of DNA Is associated with fatigue, depression and anxiety in patients with Cushing’s syndrome in remission: A genome-wide methylation study

CAM Glad, JC Andersson-Assarsson, P Berglund, R Bergthorsdottir, O Ragnarsson, G Johannsson

Summary: Researchers conducted this study to determine whether patients with Cushing’s syndrome (CS) that is in remission have specific epigenetic alterations that are associated with persistent cognitive impairments, anxiety, fatigue, and depression. Patients with CS in remission were shows to have specific DNA methylation that differed from that of healthy controls and was strongly correlated with clinical traits of anxiety, depression and fatigue, they concluded, adding that their results may suggest that an interaction between the glucocorticoid and the retinoic acid receptor is implicated in the long-term outcome of patients with CS in remission. The persistent cognitive impairment observed in patients with CS in remission, therefore, may be due to epigenetic modulation of DNA, they concluded.

Methods:

  • For this cross-sectional, case-controlled, single center study, researchers included 48 women with CS in remission (mean age±SD: 52.9±14 years) and 16 controls (mean age±SD: 53.6±16 years) matched for age, gender and educational level.
  • The mean age at diagnosis of CS was 37±14 years and the median (interquartile range) duration of remission was 13 (5-19) years.
  • In all, 37 patients had Cushing’s disease (CD) and 11 had a cortisol producing adrenal adenoma.
  • Researchers used the fatigue impact scale (FIS) to evaluate fatigue, and the comprehensive psychopathological rating scale to evaluate depression and anxiety; they assessed cognitive function by standardized neuropsychological tests.
  • DNA was isolated from whole blood, and DNA methylation was analyzed on the Illumina Infinium HumanMethylation450K BeadChip, which simultaneously interrogates >465,000 methylation sites per sample.
  • Researchers performed data quality control and analysis using the ChAMP methylation analysis package in R, and used Spearmen’s rho to perform correlation analyses.

Results:

  • Researchers found that patients had higher median score for FIS, depression and anxiety.
  • Methylation analysis identified 3,903 probes (in 340 genes) in regions that were differently methylated between CS patients and controls, and they found that 28% of these were significantly correlated to at least one of the clinical traits.
  • Fatigue, depression and anxiety were the most commonly correlated traits, and two of the most highly correlated genes were RXRB and COL11A2.
  • Gene ontology analysis revealed that these belong to the same GO-terms and are involved in retinoic acid receptor activity.
  • Finally, researchers found that both genes were specifically hypomethylated in cases as compared to controls.

 

This project has received financial support from the Swedish federal government under the LUA/ALF agreement, The Health & Medical Care Committee of the Regional Executive Board, Region Västra Götaland, The Swedish Society of Medicine and The Swedish Society of Endocrinology.

From http://www.mdlinx.com/endocrinology/conference-abstract.cfm/ZZ5BA369FDE9DE4CED82CB6A7CD5BFD1BE/42321/?utm_source=confcoveragenl&utm_medium=newsletter&utm_content=abstract-list&utm_campaign=abstract-ENDO2015&nonus=0

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Depressed? Anxious? It Could Be An Early Symptom Of These Illnesses

Posted on February 19, 2015 by MaryO

In the January 2015 edition of Psychotherapy and Psychsomatics, a group of Italian researchers explored whether depression, anxiety, and other psychiatric mood disorders might be early symptoms of medical disorders, as opposed to being “just” psychological symptoms.

Their research showed that depression in particular can be a strong indicator of other forms of illness, finding it “to be the most common affective prodrome [early symptom] of medical disorders and was consistently reported in Cushing’s syndrome, hypothyroidism, hyperparathyroidism, pancreatic and lung cancer, myocardial infarction, Wilson’s disease, and AIDS.”

Read the entire article here: Depressed? Anxious? It Could Be An Early Symptom Of These Illnesses.

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Mutation of ARMC5 gene characterized as the cause of meningeal tumour growth

Posted on October 13, 2014 by MaryO

Scientists at the Luxembourg Centre for Systems Biomedicine (LCSB) of the University of Luxembourg have published their findings that mutations in a gene known as “ARMC5” promote the growth of benign tumours in the adrenal glands and on the meninges: ARMC5 appears to belong to the group of so-called tumour suppressor genes. It is the first time in years that scientists have characterized such a gene.

The ARMC5 gene was discovered by independent workgroups studying – so-called adrenal adenomas – in connection with Cushing’s syndrome. In this disease, the body produces too much of the . Now, for the first time, a mutation of ARMC5 has been characterized as the cause behind the growth of meningeal tumours. The results on this tumour syndrome, obtained by the group of Dr. Patrick May and PD. Dr. Jochen Schneider together with colleagues from Charité Berlin (Dr. Ulf Elbelt) and the Universities of Würzburg (Prof. Dr. Bruno Allolio) and Cologne (Dr. Michael Kloth), have been published recently in the Journal of Clinical Endocrinology Metabolism.

Cortisol is an important hormone. It influences many metabolic pathways in the body and has a suppressing effect on the immune system. Accordingly, it is commonly employed as an anti-inflammatory medication. Prolonged, elevated levels of cortisol in the body can lead to obesity, muscular dystrophy, depression and other symptoms. To maintain the correct concentration in the blood, the body has a refined regulation system: Certain areas of the brain produce the hormone corticotropin as a stimulator of cortisol release; the actual formation of cortisol takes place in the . As the concentration of cortisol in the blood rises, the brain reduces the production of corticotropin.

In search of the causes of Cushing’s syndrome, scientists recently encountered certain genetic causes of benign tumours of the adrenal cortex. Growth of these adrenal cortex adenomas is based on a combination of hereditary and spontaneous mutations: It affects people in whom one of two “alternative copies” – one of the so-called alleles – of the ARMC5 gene is mutated from birth. If the second allele of ARMC5 later also undergoes a spontaneous mutation in the adrenal cortex, then the gene no longer functions. “What is interesting is that the failure of ARMC5 has no direct influence on cortisol production. However, because the tumour cells multiply faster than other body cells, and the number of cells in the tumour increases, the blood cortisol level rises in the course of the disease”, says Dr Schneider. Then, the level in the body rises and ultimately results in the onset of Cushing’s syndrome.

When other scientific workgroups discovered that further benign tumours – in this case meningeal tumours – occur more often in ARMC5-Cushing families, the group of Patrick May and Jochen Schneider sequenced the ARMC5 gene and studied it using bioinformatic techniques. “We demonstrated for the first time, in a patient with an adrenal cortex tumour and simultaneously a meningeal tumour, that somatic, that is non-hereditary, ARMC5 mutations are present in both tumours. This observation suggests that ARMC5 is a true tumour-suppressor gene.”

It must now be explored, Schneider continues, to what extent patients with adrenal cortex tumours ought to be screened for simultaneous presence of meningioma, and in which other types of tumour ARMC5 mutations are responsible for tumour growth: “Building upon that, we can learn whether the gene and the metabolic pathways it influences offer new approaches for treating the tumour syndrome.”

Explore further: Are you carrying adrenal Cushing’s syndrome without knowing it?

More information: “Molecular and Clinical Evidence for an ARMC5 Tumor Syndrome: Concurrent Inactivating Germline and Somatic Mutations are Associated with both Primary Macronodular Adrenal Hyperplasia and Meningioma.” Journal of Clinical Endocrinology Metabolism, October 2014. DOI: 10.1210/jc.2014-2648

Journal reference: Journal of Clinical Endocrinology & Metabolism search and more info website

Provided by University of Luxembourg search and more info

From http://medicalxpress.com/news/2014-10-mutation-armc5-gene-characterized-meningeal.html

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EU Looks to Okay Ketoconazole for Use in Cushing’s Syndrome

Posted on September 27, 2014 by MaryO

The Committee for Medicinal Products for Human Use (CHMP) of the European Medicines Agency (EMA) has recommended granting a marketing authorization for ketoconazole (Ketoconazole HRA; Laboratoire HRA Pharma) for the treatment of Cushing’s syndrome, a rare hormonal disorder sometimes called hypercortisolism.

Cushing’s syndrome is characterized by an excess of the hormone cortisol in the blood, which may be caused by a tumor. Treatment options currently available in the European Union include surgery to remove the tumor responsible for the high cortisol levels and radiotherapy, as well as several medicines that reduce the production of cortisol.

But pharmacological options remain very limited, and there is an unmet medical need for additional treatments, especially when surgery fails or for patients who cannot undergo surgery or take other medications. For this reason, the EMA’s CHMP evaluated the medicine under expedited review.

The opinion adopted by the CHMP at its September 2014 meeting is an intermediary step on Ketoconazole HRA’s path to patient access.

The CHMP opinion will now be sent to the European Commission for the adoption of a decision on an EU-wide marketing authorization. Once a marketing authorization has been granted, decisions about price and reimbursement will then take place at the level of each member state considering the potential role/use of this medicine in the context of the national health system of that country.

The recommendation is that Ketoconazole HRA is to be prescribed only by physicians specialized in treating Cushing’s syndrome, as the dosing needs to be individualized for each patient.

This is because oral ketoconazole was previously suspended in the European Union for the indication it was first approved for, fungal infections, due to risk for liver injury. The US Food and Drug Administration (FDA) also decreed, at the same time, that doctors should no longer prescribe ketoconazole tablets as a first-line therapy for any fungal infection, for the same reason.

Information will be sent to healthcare professionals to allow them to advise patients and prescribe the medicine safely and effectively.

A Medicine Used Off-Label for More than 30 Years

Doctors have used ketoconazole to treat Cushing’s syndrome for more than 30 years, although it has never been authorized for this indication in the European Union. The drug is also frequently used off-label in the United States and elsewhere for this purpose.

The CHMP’s recommendation builds on information from published literature and documented off-label use in clinical practice.

At the time of the suspension of ketoconazole for fungal infections, healthcare professionals and patients were concerned that ketoconazole would no longer be available for patients with Cushing’s syndrome.

The CHMP therefore reviewed Ketoconazole HRA through accelerated assessment to facilitate patients’ access to a fully authorized medicine as soon as possible with evidence-based information for patients and doctors.

When assessing Ketoconazole HRA for the treatment of Cushing’s syndrome, the CHMP considered that “in this rare and potentially life-threatening condition, the medicine’s benefits are greater than its risks, which can be manageable in clinical practice by specific measures mitigating the risk of liver toxicity, including close monitoring of the patients’ liver function.”

In 2012, it was estimated that the disease affected approximately 46,000 people in the European Union. Cushing’s syndrome is a long-lasting condition that can be life-threatening because of its complications, including diabetes, high blood pressure, and depression.

From http://www.medscape.com/viewarticle/832399?src=rss

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