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

Filed under: adrenal, Endo2017 | Tagged: , , , , , , , , , | Leave a comment »

Past News Items: My 37-year-old daughter has Addison’s disease.

Posted on June 15, 2016 by MaryO

old-news

 

Because, sometimes Old News is still valid!

From Tuesday, September 16, 2008

DEAR DR. DONOHUE: My 37-year-old daughter has Addison’s disease. Many doctors saw her when she was hospitalized a year ago. She had to go back to the hospital because of stomach upset, back pain and dehydration. Her skin has darkened. She was told she would be fine after she started steroids. This hasn’t happened. She is constantly sick. Do you have any good news? — L.K.

ANSWER: With Addison’s disease, the adrenal glands have stopped producing their many hormones. Those hormones include cortisone and aldosterone. Cortisone gives us energy, combats inflammation and figures into many of the body’s most important functions. Aldosterone is essential for blood pressure maintenance. Without adrenal gland hormones, the skin darkens, especially the elbow skin and the creases in the hands.

Treatment is straightforward: Replace the missing hormones. Maybe the dosage of her hormone medicines needs revision. If she’s hasn’t shortly turned the corner, she should get a second opinion from an endocrinologist, a specialist in this kind of illness.

From http://www.kilgorenewsherald.com/news/2008/0916/advice/009.html

HOME | Sitemap | Adrenal Crisis! | Abbreviations | Glossary | Forums | Donate | Bios | Add Your Bio | Add Your Doctor | MemberMap | CushieWiki

Filed under: adrenal, Past News Items | Tagged: , , , , , | Leave a comment »

Given Adrenal Symptoms, Blood Test Recommended

Posted on July 28, 2015 by MaryO

adrenal-glands

 

Q: My husband’s recent CT scan of his stomach and digestive system revealed that he has nodules on both adrenal glands. It was suggested that he undergo a blood test to determine whether the nodules are producing hormones.

For 21 months, he has experienced high blood pressure, nausea, diarrhea, anxiety and abdominal pain. Could this be the source of his problems? If so, what course of action would you recommend?

A: The adrenal gland is responsible for the production of several essential hormones.

Tumors, or nodules, of the adrenal glands are common. They can be categorized into those that make hormones and those that don’t, and also by whether the tumors are benign or malignant.

The most common, by far, are benign, nonfunctioning tumors. These are usually discovered on an ultrasound or a CT scan obtained for some other reason.

More than 4 percent of people have an adrenal mass, and 85 percent are nonfunctional.

The symptoms that your husband has, however, raise a concern that he might have a hormone-producing tumor.

Four types of hormones are commonly produced by adrenal tumors: cortisone, aldosterone, sex hormones (estrogen or androgens) and catecholamines (epinephrine and norepinephrine).

A cortisone-producing adrenal tumor causes Cushing’s syndrome. It usually causes weight gain, especially in the abdomen; skin changes, including striae, or “stretch marks”; high blood pressure; and a predisposition to diabetes. Anxiety and abdominal pain are uncommon.

Aldosterone raises blood pressure, so a person with a functioning adrenal tumor making aldosterone usually has high blood pressure, but the other symptoms you mention for your husband aren’t common for this type of tumor.

Adrenal tumors that make epinephrine and the related norepinephrine are called pheochromocytomas. Hypertension is almost universal with this condition, and anxiety is frequently reported.

Tumors that produce sex hormones are rare, and they are present in men with androgen excess or feminization, in the case of estrogen-secreting tumors.

Although your husband’s symptoms aren’t specific for any one condition, the combination of his symptoms and adrenal nodules concerns me.

I agree with the recommendation to look for excess amounts of hormones in the blood. This can often be achieved with a simple blood test; however, a catheter is occasionally placed in the adrenal vein to sample blood coming from the gland (and its nodule) directly.

By comparing one side against the other, doctors can determine which side might be producing excess hormones.

An endocrinologist is the expert most likely to be familiar with these conditions.

Dr. Roach answers letters only in his North America Syndicate column but provides an order form of available health newsletters at http://www.rbmamail.com. Write him at 628 Virginia Dr., Orlando, FL 32853-6475; or ToYour GoodHealth@med. cornell.edu.

From http://www.dispatch.com/content/stories/life_and_entertainment/2015/07/27/given-adrenal-symptoms-blood-test-recommended.html

Filed under: adrenal, Cushing's, Rare Diseases | Tagged: , , , , , , , , , , , , , , , , , | Leave a comment »

Could you Shed Some Light on Cushing’s Disease?

Posted on April 14, 2014 by MaryO

Dear Dr. Roach: Could you shed some light on Cushing’s disease? Four people in the same family have it. The doctors say it has something to do with the thyroid gland.

— Anon.

A: Cushing’s syndrome, which is different from Cushing’s disease, is an excess of cortisone or similar corticosteroids. It can be caused by taking too much steroid for too long, usually as treatment for a serious medical condition. Cushing’s disease is a special case of Cushing’s syndrome, when the excess cortisone is caused by a tumor in the pituitary gland, which spurs the adrenal gland to make excess amounts of hormone. Weight gain, almost exclusively in the abdomen, a striking round “moon” face, a fat pad on the back of the neck and upper back (“buffalo hump”), diabetes, pigmented stretch marks and high blood pressure are common findings in any form of Cushing’s syndrome.

It is very unusual for Cushing’s disease to run in families. Also, it does not affect the thyroid, although thyroid conditions can sometimes mimic Cushing’s (and vice versa). I suspect that what this might be is a rare condition called multiple endocrine neoplasia type I (MEN-1). This does run in families, and combines risk for pituitary, parathyroid and pancreatic islet cell tumors. (The parathyroid glands sit on top of the thyroid gland and secrete parathyroid hormone, responsible for calcium metabolism. The pancreatic islet cells are where insulin is made.) Not everybody with MEN-1 will have tumors in all of these glands. Parathyroid tumors are the most common.

An endocrinologist is the expert in Cushing’s and the MEN syndromes.

​Dr. Keith Roach writes for North America Syndicate. Send letters to Box 536475, Orlando, FL 32853-6475 or email ToYourGoodHealth@med.cornell.edu.

From http://herald-review.com/news/opinion/editorial/columnists/roach/dr-keith-roach-teeth-grinding-is-common-in-the-elderly/article_bef63ba4-9b5e-5bff-b66a-3530be158857.html

Filed under: adrenal, Cushing's, pituitary, Rare Diseases | Tagged: , , , , , , , , , , , , , , , , , , , , , , | Leave a comment »

Case study shows chronic marijuana use associated with hypopituitarism

Posted on May 3, 2013 by MaryO

PHOENIX — Results of a case study presented here at the American Association of Clinical Endocrinologists 22nd Scientific and Clinical Congress demonstrate that smoking marijuana may result in serious endocrine complications.

Hormone feedback cycles

Hormone feedback cycles (Photo credit: Wikipedia)

“We really feel that the evidence to-date shows this is a much more serious health problem than we’ve given credit to,” Pinsker said during a press conference. “Marijuana’s always been laughed off: ‘it’s a kid’s drug; they’ll outgrow it.’ In certain communities, it’s so common that people look at it as if they’re having a glass of beer. I think it’s time that physicians start having their antenna up for all the difficulties that come with this drug.”

The patient presented to the emergency department with dyspnea on exertion, increasing fatigue and loss of libido with no previous radiation exposure or head trauma. He had bibasilar rales, gynecomastia and bilateral atrophied testis.

His hormonal evaluation demonstrated low Luteinizing Hormone (0.2 mIU/mL); FSH (1.8 mIU/mL) and testosterone (22 ng/dL), as well as high prolactin (53.3 ng/mL).

Additionally, the patient had ACTH of 6 pg/mL and cortisol of 6.4 ug/dL at 0 minutes and 9.3 ug/dL at 60 minutes following cosyntropin administration.

Further labs revealed low total T3 (30 ng/dL); high T3 resin reuptake (49%); low total T4 (3.94 ng/dL); normal free T4 (0.97 ng/dL) and low TSH (0.22 uIU/mL). Growth hormone was within normal range (5.0 ng/mL) and IGF-I was low (75 ng/mL; Z-score of -1.3). An MRI revealed a slightly enlarged protuberant pituitary gland, but no identified mass lesion.

After being started on cortisone 25 mg in the morning and 12.5 mg at bedtime, as well as levothyroxine 25 mcg daily, the patient’s fatigue and edema improved significantly, according to the abstract.

In this case, severe hypopituitarism occurred from interference between THC, the psychoactive ingredient in marijuana which has the ability to alter neural transmitters in the hypothalamus, and hypothalamic function.

Additionally, studies show that marijuana impairs the release of gonadotropin-releasing hormone (GnRh), resulting in reduced production of testosterone.

Other symptoms seen with prolonged use include cognitive decline in school children and older people, according to Pinsker. “The public will become more attuned to looking for these things. We’re going to have what we call a surveillance bias and we’re going to start discovering that it’s a lot higher than we gave it credit for, both because of increased use and because we’re going to be looking for it.”

The authors conclude that, as many states consider the legalization of marijuana, more study should be conducted with regard to the effects of chronic use of the drug on the endocrine system.

“Of course this is one case report, but I think it should alert further research that needs to be done, “ said Pinsker. “Something prospectively should be done to map this out more scientifically, but this would be difficult in what, to-date, has been an illegal substance.”

For more information:

Pinsker R. Abstract #825. Presented at: the AACE Annual Scientific and Clinical Congress; May 1-5, 2013; Phoenix.

Disclosure: The authors report no relevant financial disclosures.

 From Healio.com

Filed under: pituitary, Rare Diseases | Tagged: , , , , , , , , , , , , , , , , , , , , | Leave a comment »

Next Page »
%d bloggers like this: