Growth Hormone Deficiency Following Complicated Mild Traumatic Brain Injury

Posted on April 6, 2026 by MaryO

Traumatic brain injury (“TBI”) is considered the main cause of hypopituitarism in adults and growth hormone (“GH”)deficiency is the most common pituitary deficit associated with TBI.

According to Cedars-Sinai, even after we stop growing, adults need growth hormone. Growth hormone plays a role in healthy muscle, how our bodies collect fat (especially around the stomach area), the ratio of high density to low density lipoproteins in cholesterol levels, and bone density. In addition, growth hormone is needed for normal brain function.

A recent study aimed to assess pituitary function and GH deficiency in adult patients at different time durations following complicated mild TBI, according to the Glasgow Coma Scale (GCS). The study also aimed to evaluate whether mild TBI patients with GH deficiency had developed alterations in the glycolipid profile.

Forty-eight patients (34 men and 14 women) with complicated mild TBI were included in the study. Twenty-three patients were evaluated at 1 year (Group A), and 25 patients at 5 years or longer after the injury (Group B). All patients underwent basal hormonal evaluation for pituitary function. GH deficiency was investigated by the combined test (GH releasing hormone + arginine). The glycolipid profile was also evaluated.

Researchers report that GH deficiency occurred in 8/23 patients (34.7 percent) of Group A and in 12/25 patients (48 percent) of Group B. In addition, two patients, one in each group, showed evidence of central hypothyroidism. Patients examined one-year or several years after complicated mild TBI had a similarly high occurrence of isolated GH deficiency, which was associated with visceral adiposity and metabolic alterations.

These findings suggest that patients with complicated mild TBI should be evaluated for GH deficiency even if several years have passed since the underlying trauma.

From http://www.natlawreview.com/article/growth-hormone-deficiency-following-complicated-mild-traumatic-brain-injury

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Day 6: Cushing’s Awareness Challenge

Posted on April 6, 2026 by MaryO

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The above is the official Cushing’s path to a diagnosis but here’s how it seems to be in real life:

Egads!  I remember the naive, simple days when I thought I’d give them a tube or two of blood and they’d tell me I had Cushing’s for sure.

Who knew that diagnosing Cushing’s would be years of testing, weeks of collecting every drop of urine, countless blood tests, many CT and MRI scans…

Then going to NIH, repeating all the above over 6 weeks inpatient plus an IPSS test, an apheresis (this was experimental at NIH) and specialty blood tests…

The path to a Cushing’s diagnosis is a long and arduous one but you have to stick with it if you believe you have this Syndrome.

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Day 5, Cushing’s Awareness Challenge

Posted on April 5, 2026 by MaryO

In Day 9 on April 9, 2015, I wrote about how we got the Cushing’s colors of blue and yellow.  This post is going to be about the first Cushing’s ribbons.

I was on vacation  in September, 2001 when SuziQ called me to let me know that we had had our first Cushie casualty (that we knew about).

On the message boards, Lorrie wrote: Our dear friend, Janice died this past Tuesday, September 4, 2001. I received an IM from her best friend Janine, tonight. Janine had been reading the boards, as Janice had told her about this site, and she came upon my name and decided to IM me. I am grateful that she did. She said that she knew that Janice would want all of us to know that she didn’t just stop posting.

For all of the newcomers to the board that did not know Janice, she was a very caring individual. She always had something positive to say. Janice was 36 years old, was married and had no children. She had a miscarriage in December and began to have symptoms of Cushing’s during that pregnancy. After the pregnancy, she continued to have symptoms. When discussing this with her doctor, she was told that her symptoms were just related to her D&C. She did not buy this and continued until she received the accurate diagnosis of Cushing’s Syndrome (adrenal) in March of 2001. Tragically, Janice’s tumor was cancerous, a very rare form of Cushing’s.

Janice then had her tumor and adrenal gland removed by open adrenalectomy, a few months ago. She then began chemotherapy. She was very brave through this even though she experienced severe side effects, including weakness and dizziness. She continued to post on this board at times and even though she was going through so much, she continued with a positive attitude. She even gave me a referral to a doctor a few weeks ago. She was my inspiration. Whenever I thought I had it bad, I thought of what she was dealing with, and I gained more perspective.

Janice was having difficulty with low potassium levels and difficulty breathing. She was admitted to the hospital, a CT scan was done and showed tumor metastasis to the lungs. She then was begun on a more aggressive regimen of chemo. She was discharged and apparently seemed to be doing well.

The potassium then began to drop again, she spiked a temp and she was again admitted to the hospital. She improved and was set to be discharged and then she threw a blood clot into her lungs. She was required to be put on a ventilator. She apparently was at high risk for a heart attack. Her husband did not want her to suffer anymore and did not want her to suffer the pain of a heart attack and so chose for the doctors to discontinue the ventilator on Tuesday. She died shortly thereafter.

Janice was our friend. She was a Cushie sister. I will always remember her. Janine asked me to let her know when we get the Cushing’s ribbons made as she and the rest of Janice’s family would like to wear them in her memory. She said that Janice would want to do anything she could to make others more aware of Cushing’s.

The image at the top of the page shows the first blue and yellow ribbon which were worn at Janice’s funeral.  When we had our “official ribbons” made, we sent several to Janice’s family.

Janice was the first of us to die but there have been more, way too many more, over the years.  I’ll write a bit more about that on Day 21.

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Day 4, Cushing’s Awareness Challenge

Posted on April 4, 2026 by MaryO

This is one of the suggestions from the Cushing’s Awareness Challenge post:

“Give yourself, your condition, or your health focus a mascot. Is it a real person? Fictional? Mythical being? Describe them. Bonus points if you provide a visual!”

 

Our “Official mascot” is the zebra.

Our mascot

Our mascot

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.

zebra-mug

A zebra cup my DH bought me 🙂

By 1960, the aphorism was widely known in medical circles.”

Why? Because those of us who DO have a rare disorder know from personal experience what it feels like to be dismissed by a doctor or in many cases, multiple doctors. Many physicians have completely lost the ability to even imagine that zebras may exist!  Cushing’s is too rare – you couldn’t possible have that.  Well… rare means some people get it.  Why couldn’t it be me?

Although one of my signature images has a zebra, many have rainbows or butterflies in them so I guess that I consider those my own personal mascots.

I posted this in 2010 in 40 Days of Thankfulness: Days Twenty-Two through Thirty

I have a special affinity for rainbows. To me, a rainbow is a sign that things are going to be ok.

Years ago, our little family was in Florida. I felt guilty about going because my dad was terminally ill with his second bout of colon cancer. I was worried about him and said a little prayer for him.

I was lying on the beach while DH and our son were in the ocean and I looked up and saw a rainbow. It was a perfectly clear, sunny afternoon. I even called the people out of the water, in case it was something I wanted to see that didn’t really exist. They saw it, too.

Where in the world did that rainbow come from, if it wasn’t a sign that everything would be ok?

Butterflies are something else again.  I like them because I would like to think that my life has evolved like a butterfly’s, from something ugly and unattractive to something a big easier on the eye.

My Cushie self was the caterpillar, post-op is more butterfly-ish, if not in looks, in good deeds.

From July, 2008

For as long as I can remember, I’ve loved butterflies for their beauty and what they stood for. I’ve always wanted to shed my cocoon and become someone else, someone beautiful, graceful.

One of my first memories as a kid was knocking on the back door of my house and when my mom answered, I’d pretend to somehow be an orphan, looking for some kind person to take me in. And I would try to be that different child, with new habits, in the hopes that my parents would somehow think better of me, love me more as this poor homeless kid than they did as their own.

The butterfly was trying to emerge but it never got too far. Somehow, I would slip into my original self and be a bother to my parents.

Hope springs eternal, though!

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History of Cortisone’s Discovery

Posted on April 4, 2026 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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