History of Cortisone’s Discovery

Posted on April 4, 2017 by MaryO

It was Christmas Day in 1914 when the Mayo Clinic chemist Edward C. Kendall, PhD, first succeeded in isolating pure crystalline thyroxin using 6,500 pounds of hog thyroid glands, a success that would set him on the course for making one of the greatest discoveries in medicine in the last century.

His pivotal discovery, according to William F. Young, Jr., MD, MSc, chair of the division of endocrinology, diabetes, metabolism and nutrition at the Mayo Clinic College of Medicine, would lead Kendall, a self-described “hormone hunter,” to conduct adrenal experiments that would eventually change the course of medicine in ways he couldn’t have imagined. Kendall and his team’s discovery of cortisone would lead not only to a breakthrough treatment, Young said, but a Nobel Prize and international acclaim.

In an interview prior to presenting the Clark T. Swain Memorial History of Endocrinology Lecture at ENDO 2017, Young said that understanding the history behind such a monumental discovery can help endocrinologists see how hormone research has evolved, and provides insight into how to make advances in basic science and improve patient care. In preparing to tell Kendall’s story, Young completed archival research at Mayo and uncovered information that has not previously been published, he said.

“The cortisone story originated at Mayo Clinic, where I have been on staff for 33 years,” Young told Endocrine Today. “Although much of this story is not new information, it is not familiar to the current generations of endocrine scientists and clinical endocrinologists. It is a story of discovery science, clinical intuition, persistence, team science, patient volunteerism and sacrifice, hopes, and dreams.”

‘A big oak tree’

When Kendall first took on the project of preparing better adrenal extracts to potentially treat Addison’s disease in 1930, he was already thinking bigger, Young said.

“He once said, ‘I want to grow a great big oak tree … I am not interested in a bunch of blackberry bushes,’” Young said.

During his experiments at Mayo Clinic, the cost of bovine adrenals rose from 0.20 cents a pound to $3 per pound, equivalent to $42 per pound today. In 1934, Kendall struck a deal with Parke Davis Co., were he would extract “adrenalin” at no cost for the company if it would, in turn, deliver to him 600 pounds of bovine adrenals each week, Young said. He would then use the adrenal cortex for his studies.

In addition, Kendall struck a side deal with Wilson Labs, Young said, for an additional 300 pounds of bovine adrenals per week, to produce a cortical extract for them. He would in turn use the adrenal medullas to boost his production of adrenalin for the Park Davis deal.

“From 1934 to 1949, virtually all of the adrenaline used in North America was manufactured at Mayo Clinic in the small town of in Rochester, Minnesota,” Young said. “This lab ran 24 hours a day, in three shifts. By 1949, over 150 tons of adrenal glands had been processed at Mayo Clinic … $12.4 million in research supply dollars.”

A new discovery

In 1934, Kendall recognized through his work that the adrenal cortex produced more than one hormone, Young said. Over the next year, Kendall’s group isolated five crystalline compounds, naming them compounds “A” through “E” based on their order of identification. Compound “E” — what would later be named cortisone — was found to be biologically active, Young said.

Interest in synthesizing the active hormone from the adrenal cortex grew as part of the American war effort in the 1940s, Young said, and the U.S. National Research Council made it a priority. By 1948, 9,000 mg of “compound E” had been synthesized for clinical study; 2,000 mg were given to each of three investigators at Mayo Clinic for studies in patients with Addison’s disease and the remaining 3,000 mg were saved for future study.

In 1948, a patient known as H.G., a 28-year-old women with progressive inflammatory arthritis, presented to the clinic, Young said. After an unsuccessful treatment with the Swedish hepatoxin lactophenin — a therapy used at the time that induced jaundice in some patients, leading to remission — her physician, Philip Hench, went to Kendall for help. Kendall agreed to give Hench some of the remaining 3,000 mg of “compound E,” if Hench could convince Merck to grant permission.

The clinicians did get permission, and H.G. began treatment. Within days, Young said, the improvement was remarkable. Reading from the original, handwritten notes of Hench and his colleagues in rheumatology, , Young detailed the patient’s progress:

“Rolled over and turned off the radio with ease for the first time in weeks,” the notes said from “day 3.” “No more trembling of knees when moving.”

The clinicians were so amazed, Young said, that they filmed H.G’s progress. Young, who obtained the original films from the Mayo Clinic archives, showed footage of a crippled H.G. struggling to stand, only to be walking normally.

“They started taking videos because they realized no one would believe them,” Young said as the video played. “That they actually had something that could affect, up until this point, a crippling disorder.”

Hench came up with the acronym “cortisone,” adapted from corticosterone.

The discovery became international news. In December 1950, Kendall, Hench along with Tadeus Reichstein, received the 1950 Nobel Prize in Physiology and Medicine — just 27 months after H.G. received her first dose of “compound E.”

The future of corticosteroids

Today, Young said, corticosteroids are used for their anti-inflammatory and immunosuppressive properties across the field of medicine. Natural and synthetic glucocorticoids are used to treat a wide variety of non-adrenal diseases, from allergies, to gastrointestinal disorders and infectious diseases.

The important story of patient H.G. — and the scientific journey of Kendall and his colleagues — still resonates, Young said.

“My hope is that this story will remind us of our endocrine heritage and give us an opportunity to recognize the unlimited potential for discovery, research and clinical investigation that is taking place in research laboratories and clinical endocrine centers across the globe,” Young said in an interview. “In the current environment in the U.S., where federal research funds are being cut back, it is important to recall where the major advances in research and public health have come from.”

“There are many other messages in the presentation,” Young said. “For example, the importance of ‘team science’— a phrase only recently coined — has been in place for decades. It is team science that has led to many of the major advances in medicine, including the therapeutic use of corticosteroids.” – by Regina Schaffer

Reference:

Young WF. A Chemist, a Patient and the 1950 Nobel Prize in Physiology and Medicine: The Stories Behind the Stories on Cortisone. Presented at: The Endocrine Society Annual Meeting; April 1-4, 2017; Orlando, Fla.

Disclosures: Young reports no relevant financial disclosures.

 

From http://www.healio.com/endocrinology/adrenal/news/online/%7Bd8d71bcc-a981-418e-9d41-af4b2dcaa48f%7D/history-of-cortisones-discovery-offers-lessons-in-team-science-persistence

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Severe Trauma May Damage The Brain as Well as the Psyche

Posted on October 24, 2016 by MaryO

NOTE: This is only a portion of the article.  Read the entire post at http://www.nytimes.com/1995/08/01/science/severe-trauma-may-damage-the-brain-as-well-as-the-psyche.html?pagewanted=all

Cortisol is a major means the body uses, with adrenaline, to arouse itself so quickly; its action, for example, triggers an increase in blood pressure and mobilizes energy from fat tissue and the liver.

“The dark side of this picture is the neurological effects,” said Dr. Sapolsky. “It’s necessary for survival, but it can be disastrous if you secrete cortisol for months or years on end. We’ve known it could lead to stress-exacerbated diseases like hypertension or adult onset diabetes. But now we’re finding the hippocampus is also damaged by these secretions.”

Studies in animals show that when glucocorticoids are secreted at high levels for several hours or days, there is a detectable effect on memory, though no neuronal death. But with sustained release from repeated stress, “it eventually kills neurons in the hippocampus,” said Dr. Sapolsky. “This has been shown solidly in rats, with the cell biology well understood.”

A parallel effect has long been known among patients with Cushing’s disease, a hormonal condition in which tumors in the adrenal or pituitary glands or corticosteroid drugs used for a prolonged time cause the adrenal glands to secrete high levels of a hormone called ACTHm and of cortisol. Such patients are prone to a range of diseases “in any organ with stress sensitivity,” including diabetes, hypertension and suppression of the immune system, said Dr. Sapolsky.

Cushing’s patients also have pronounced memory problems, especially for facts like where a car was parked. “The hippocampus is essential for transferring such facts from short-term to long-term memory,” said Dr. Sapolsky.

In 1993, researchers at the University of Michigan reported that magnetic resonance imaging had shown an atrophy and shrinkage of the hippocampus in patients with Cushing’s disease; the higher their levels of cortisol, the more shrinkage.

In an apparent paradox, low levels of cortisol in post-trauma victims were found in a separate research report, also in the July issue of The American Journal of Psychiatry. Dr. Rachel Yehuda, a psychologist at Mount Sinai Medical School in New York City, found the lower levels of cortisol in Holocaust survivors who had been in concentration camps 50 years ago and who still had post-traumatic symptoms.

“There are mixed findings on cortisol levels in trauma victims, with some researchers finding very high levels and others finding very low levels,” said Dr. Sapolsky. “Biologically speaking, there may be different kinds of post-traumatic stress.”

In a series of studies, Dr. Yehuda has found that those post-trauma patients who have low cortisol levels also seem to have “a hypersensitivity in cell receptors for cortisol,” she said. To protect itself, the body seems to reset its cortisol levels at a lower point.

The low cortisol levels “seem paradoxical, but both too much and too little can be bad,” said Dr. Yehuda. “There are different kinds of cells in various regions of the hippocampus that react to cortisol. Some atrophy or die if there is too little cortisol, some if there is too much.”

Dr. Yehuda added, “In a brain scan, there’s no way to know exactly which cells have died.”

To be sure that the shrinkage found in the hippocampus of trauma victims is indeed because of the events they suffered through, researchers are now turning to prospective studies, where before-and-after brain images can be made of people who have not yet undergone trauma, but are at high risk, or who have undergone it so recently that cell death has not had time to occur.

Dr. Charney, for example, is planning to take M.R.I. scans of the brains of emergency workers like police officers and firefighters and hopes to do the same with young inner-city children, who are at very high risk of being traumatized over the course of childhood and adolescence. Dr. Pitman, with Dr. Yehuda, plans a similar study of trauma victims in Israel as they are being treated in emergency rooms.

Dr. Yehuda held out some hope for people who have suffered through traumatic events. “It’s not necessarily the case that if you’ve been traumatized your hippocampus is smaller,” she said. She cited research with rats by Dr. Bruce McEwen, a neuroscientist at Rockefeller University, showing that atrophied dendritic extensions to other cells in the hippocampus grew back when the rats were given drugs that blocked stress hormones.

Dr. Sapolsky cited similar results in patients with Cushing’s disease whose cortisol levels returned to normal after tumors were removed. “If the loss of hippocampal volume in trauma victims is due to the atrophy of dendrites rather than to cell death, then it is potentially reversible, or may be so one day,” he said.

NOTE: This is only a portion of the article.  Read the entire post at http://www.nytimes.com/1995/08/01/science/severe-trauma-may-damage-the-brain-as-well-as-the-psyche.html?pagewanted=all

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Interview with Deborah March 30, 2016

Posted on March 19, 2016 by MaryO

Deborah has many symptoms but is not yet diagnosed.

interview

Deborah will be our guest in an interview on BlogTalk Radio  Wednesday, March 30 at 6:00 PM eastern.  The Call-In number for questions or comments is (845) 241-9850.

The archived interview will be available after 7:00 PM Eastern through iTunes Podcasts (Cushie Chats) or BlogTalkRadio.  While you’re waiting, there are currently 89 other past interviews to listen to!

~~~~~~

Deborah’s Bio:

Hello all,

I do not know where to begin. For many years I have been struggling with these symptoms. I have proximal weakness, intolerance to stress, blood pressure fluctuations, hyperpigmentation, reactive hypoglycemia, sweating, severe dehydration, very bad confusion, vision, memory problems, physical body changes (hump, bruises), carb intolerance, and inability to exercise.

My endocrinologist did a workup for Cushing’s disease and the midnight saliva test was high. She brushed it off as “stress”. I am seeing a doctor now that says I have POTS and Dysautonomia. My doctor says I have inappropriate adrenaline rushes.

My body is falling apart because I haven’t found a doctor who will take my symptoms and test results serious. I would like to talk to others who are having trouble getting diagnosed and also to those who have gotten diagnosed who have a good doctor.

God Bless and Thank You,
Deborah

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The Man Unable to Feel Fear

Posted on August 23, 2013 by MaryO

Jordy is a British man who has been dealing with Cushing’s and many surgeries.

 

Jordy-Cernik

He finds rollercoasters boring, barely broke a sweat zip-wiring off the Tyne bridge and even a parachute jump did not raise his heart rate.

Just a few years ago even the thought of daredevil exploits would have terrified him, but now Jordy Cernik is frightened of nothing.

While that might sound an ideal scenario, the 38-year-old’s new-found bravery is actually the unexpected side-effect of surgery for a rare condition.

Cushing’s Syndrome resulted in the dad-of-two having an operation to remove the gland which produces adrenalin, the hormone which makes us feel scared.

He says: “I would never have had the guts to do any of this, but now nothing fazes me. I’m up for anything – I’m even thinking about doing a wing-walk on a plane too.

“I nearly did a bungee jump a few years ago, but I just couldn’t do it.

“Now I just take whatever is thrown at me and if a challenge helps me raise money for charity, the more daring the better.”

Over the past four months he has completed the parachute jump and zip-wired from the top of Newcastle’s Tyne Bridge and now he is getting ready to complete the last of a trio of challenges – next month’s Bupa Great North Run.

“The doctors didn’t tell me this could be one of the side-effects of the operation,” says Jordy. “But then the condition is so rare I don’t think they know everything about Cushing’s yet.

“Doing the skydive was the ultimate test. I thought that if I was ever going to get scared again then that would be the moment.

“But as we took off in the plane I felt nothing, and when I edged towards the door to jump I felt nothing, and even when I leapt out and pulled my parachute, I didn’t feel scared at all.

“It can be quite frustrating as well though.

“The first time I realised I had changed was when I went on the rides at a theme park with my kids and I just didn’t feel a thing. I just sat there, bored.”

However, the last of his hat-trick of challenges, the Run, will require him to push through the ever-present pain which he has endured for years as a result of Cushing’s.

Britain’s biggest mass participation event, for which The Daily Mirror is a media partner, takes place over a 13.1 mile course from Newcastle to South Shields.

But the syndrome has left Jordy, from Jarrow, near Newcastle, with arthritis, back problems and brittle bones. Worse still, the absence of adrenalin means he now lacks one of the body’s natural painkillers.

“I’m always in pain,” he says. “I’ve just had to learn to zone it out day-to-day and I’m going to have to do that even more when I’m on the run.”

Cushing’s affects around one in 50,000 people in Britain.

It causes a malfunction of the adrenal and pituitary glands which means increased amounts of corticosteroids are produced – often leading to massive, irregular weight gain.

In just three years 5ft 8in Jordy ballooned from 11st 5lb to almost 17st.

While his limbs remained slim, the former Territorial Army recruit saw the pounds pile around the major organs in his torso and head.

“I went through years of hell and I can only describe it as living in someone else’s body,” says the part-time radio presenter and events host.

“I developed this big round moon face and really quite large man boobs, which was so embarrassing.

“But there was absolutely nothing I could do about it. I could go to the gym six days a week and still couldn’t lose any of the weight.

“One of the worst things was that people would stare.

“Sometimes they’d take the mickey – often to try and make me feel better, by making light of things – but it would almost always hurt my feelings.

“And my career as a presenter suffered. I tried to play up to the character of being a big, jolly chap but I always felt I was too fat for TV, which is what I would have liked to do a lot more of.”

But it was the effect on his home life with wife Tracy, 43, and daughters Aimee, seven, and four-year-old Eive that for him was far worse.

“I had other really difficult symptoms which included profuse sweating which meant I couldn’t even hold my kids without wrapping them in towels first,” he says.

“Anyone who has children knows how hard that is, not to be able to do normal things. I often used to be in tears.

“Another symptom was extreme grumpiness, so I would find myself suddenly getting really angry and just exploding at them, plus I was always too exhausted to play with them. It was terrible.”

Jordy believes he can trace his symptoms back 15 years although his Cushing’s was only diagnosed in 2005.

He had visited his local surgery with a string of complaints, but by chance saw a different doctor one day and the syndrome was diagnosed.

“I don’t have any ill-feeling about that,” he says, “because the syndrome can be tricky to spot, partly because it is so rare.”

He went on to have both his pituitary and adrenal glands removed but needed a total of seven operations between 2005 and 2010 and not all went smoothly.

During one to remove his pituitary gland, which is inside the skull, the lining of his brain burst due to the stress of repeated surgery.

And while removing a rib to access the adrenal gland in his torso, his lung was punctured.

That wasn’t the end of the complications. He later developed severe meningitis and ended up on a life-support machine.

“But I still consider myself lucky,” he says. “The doctors told me, ‘You died twice really, you shouldn’t even be here’.”

Things have begun to look up in the past few years, however. The Cushing’s is in remission and Jordy has lost four stone.

His life hasn’t returned to normal entirely – he still has to take 30 pills a day, a cocktail of painkillers and hormones, plus drugs to slow the corrosion of his bones.

He has also been diagnosed with another rare condition, sarcoidosis, which creates nodules of irregular cells in the body and can cause serious complications. He’s convinced he has always had it but it has lain dormant until his body was at its most vulnerable.

At present the nodules can only be found on his skin and he’s being monitored to ensure that it doesn’t spread to his internal organs.

Thanks to the surgery, his life has improved enormously since 2010.

In July he had a breast reduction op which not only improved his appearance but also removed the dangerous accumulation of fat around his heart.

Part of this new chapter involves taking part in the Great North Run and raising money for the Cash for Kids appeal run by his local radio station Metro Radio.

The appeal aims to help children and young people in the North East who are disabled or have special needs, or those who suffer from abuse or neglect.

Jordy’s fundraising goal is a relatively modest £1,000, but for him joining the half marathon’s 56,000 participants on September 15 will be as rewarding as hitting his target.

“I really don’t know if I’ll be able to complete the course.” he says. “But I’m looking forward to it and I’m going to give it my best shot.

“Not feeling fear may feel like the power of a superhero, but what I really need for the Great North Run is superhero strength.”

The Bupa Great North Run is Britain’s biggest mass participation event and is organised by Nova International.

It will include world class athletes Mo Farah, Haile Gebrselassie and Kenenisa Bekele – plus 56,000 other runners.

The event is live on BBC One on Sunday 15th September between 9.30am to 13.30

For more information, visit www.greatrun.org

From  http://www.mirror.co.uk/news/real-life-stories/jordy-cernik-man-unable-fear-2208002#ixzz2cny6XeFr 

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Adrenal Glands

Posted on June 23, 2013 by MaryO

adrenal-glandsAnatomy of the adrenal glands:

Adrenal glands, which are also called suprarenal glands, are small, triangular glands located on top of both kidneys. An adrenal gland is made of two parts: the outer region is called the adrenal cortex and the inner region is called the adrenal medulla.

Function of the adrenal glands:

The adrenal glands work interactively with the hypothalamus and pituitary gland in the following process:

  • the hypothalamus produces corticotropin-releasing hormones, which stimulate the pituitary gland.
  • the pituitary gland, in turn, produces corticotropin hormones, which stimulate the adrenal glands to produce corticosteroid hormones.

Both parts of the adrenal glands — the adrenal cortex and the adrenal medulla — perform very separate functions.

What is the adrenal cortex?

The adrenal cortex, the outer portion of the adrenal gland, secretes hormones that have an effect on the body’s metabolism, on chemicals in the blood, and on certain body characteristics. The adrenal cortex secretes corticosteroids and other hormones directly into the bloodstream. The hormones produced by the adrenal cortex include:

  • corticosteroid hormones
    • hydrocortisone hormone – this hormone, also known as cortisol, controls the body’s use of fats, proteins, and carbohydrates.
    • corticosterone – this hormone, together with hydrocortisone hormones, suppresses inflammatory reactions in the body and also affects the immune system.
  • aldosterone hormone – this hormone inhibits the level of sodium excreted into the urine, maintaining blood volume and blood pressure.
  • androgenic steroids (androgen hormones) – these hormones have minimal effect on the development of male characteristics.

What is the adrenal medulla?

The adrenal medulla, the inner part of the adrenal gland, is not essential to life, but helps a person in coping with physical and emotional stress. The adrenal medulla secretes the following hormones:

  • epinephrine (also called adrenaline) – this hormone increases the heart rate and force of heart contractions, facilitates blood flow to the muscles and brain, causes relaxation of smooth muscles, helps with conversion of glycogen to glucose in the liver, and other activities.
  • norepinephrine (also called noradrenaline) – this hormone has little effect on smooth muscle, metabolic processes, and cardiac output, but has strong vasoconstrictive effects, thus increasing blood pressure.

From: University of Maryland Center for Diabetes and Endocrinology

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