Hypopituitarism – Deficiency in Pituitary Hormone Production

Posted on June 30, 2016 by MaryO

By Yolanda Smith, BPharm

Hypopituitarism is a health condition in which there is a reduction in the production of hormones by the pituitary gland.

The pituitary gland is located at the base of the brain and is responsible for the production of several hormones, including:

  • Adrenocorticotropic hormone (ACTH), which controls the production of the vital stress hormones cortisol and dehydroepiandrosterone (DHEA) in the adrenal gland
  • Thyroid stimulating hormone (TSH), which controls the production of hormones by the thyroid gland
  • Luteinizing hormone (LH) and follicle-stimulating hormone (FSH), which control the secretion of the primary sex hormones and affect fertility
  • Growth hormone (GH), which regulates the growth processes in childhood and other metabolic processes throughout life
  • Prolactin (PRL), which facilitates the production of breast milk
  • Oxytocin, which is crucial during labor, childbirth and lactation
  • Antidiuretic hormone (ADH), also known as vasopressin, which regulates the retention of water and the blood pressure

An individual with hypopituitarism shows a deficiency in one or more of these hormones. This inevitably leads to abnormal body function, as an effect of the low levels of the hormone in the body, and may result in symptoms.

Causes

Hypopituitarism is most commonly due to the destruction, compression or inflammation of pituitary tissue by a brain tumor in that region. Other causes include:

  • Head injury
  • Infections such as tuberculosis
  • Ischemic or infarct injury
  • Radiation injury
  • Congenital and genetic causes
  • Infiltrative diseases such as sarcoidosis

Symptoms

General symptoms that are associated with pituitary hormone deficiency include:

  • Weakness and fatigue
  • Decreased appetite
  • Weight loss
  • Sensitivity to cold
  • Swollen facial features or body

There are also likely to be more specific symptoms according to the type of pituitary hormone deficiency, such as:

  • ACTH deficiency:
    • abdominal pain
    • low blood pressure
    • low serum sodium levels
    • skin pallor
  • TSH deficiency:
    • generalized body puffiness
    • sensitivity to cold
    • constipation
    • impaired memory and concentration
    • dry skin
    • anemia
  • LH and FSH deficiency:
    • reduction in libido
    • erectile dysfunction in men
    • abnormal menstrual periods
    • vaginal dryness in women
    • difficulty in conceiving
    • infertility.
  • GH deficiency:
    • slow growth
    • short height
    • an increase in body fat

Treatment

The first step in the treatment of hypopituitarism is to identify the cause of the condition.

Secondly, the hormones that are deficient must be identified. From this point, the appropriate treatment decisions can be made to promote optimal patient outcomes.

Hormone replacement therapy is the most common type of treatment for a patient with hypopituitarism.

This may involve supplementation of one or more hormones that are deficient, to reduce or correct the impact of the deficiency.

Follow Up

As hormone replacement therapy is expected to continue on a lifelong basis, it is important that patients have a good understanding of the therapy.

It is especially important to educate patients on what to do in case of particular circumstances that may change their hormone requirements.

For example, during periods of high stress, the demand for many hormones is increased, and the dose of hormone replacement may need to be adjusted accordingly.

It is recommended that patients have regular blood tests to monitor their hormone levels and ensure that they are in the normal range.

Patients should also carry medical identification, such as a medical bracelet or necklace, to show that they are affected by hypopituitarism and inform others about their hormone replacement needs and current treatment. This can help to meet their medical needs in case of any emergency.

Epidemiology

Hypopituitarism is a rare disorder that affects less than 200,000 individuals in the United States, with an incidence of 4.2 cases per 100,000 people per year.

The incidence is expected to be higher in certain subsets of the population, such as those that have suffered from a brain injury. Statistics in reference to these population groups have not yet been determined.

Reviewed by Dr Liji Thomas, MD.

References

From http://www.news-medical.net/health/Hypopituitarism-Deficiency-in-Pituitary-Hormone-Production.aspx

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Webinar: The Essentials: The Diagnosis and Treatment of Hypopituitarism

Posted on June 24, 2016 by MaryO

Presented By

John D. Carmichael, MD
Associate Professor of Clinical Medicine
Co-Director, USC Pituitary Center

After registering you will receive a confirmation email with details about joining the webinar.

Contact us at webinar@pituitary.org with any questions or suggestions.
Date: Thursday, June 30, 2016
Time: 11:00 AM Pacific Daylight Time, 2:00 PM Eastern Daylight Time

Webinar Description

This will be a case-based review of the causes, diagnosis and treatment of pituitary failure, focusing on the most common scenarios patients may encounter. We will review issues with hormonal testing unique to patients with pituitary disease, and the approach toward optimizing pituitary hormone replacement.

Presenter Bio

John CarmichaelDr. John Carmichael is the Co-Director of the USC Pituitary Center and Associate Professor of Clinical Medicine at the Keck School of Medicine at the University of Southern California. After earning a degree in biomedical ethics at Brown University, Dr. Carmichael graduated from the Medical College of Virginia in Richmond. He then completed internship and residency at Virginia Mason Medical Center in Seattle, Washington. He received his endocrinology fellowship training at NYU, where he received a research fellowship grant to conduct clinical trials devoted to growth hormone deficiency and acromegaly after his clinical fellowship. In 2006, he moved to Los Angeles to join the Pituitary Center at Cedars-Sinai Medical Center, where he cared for patients with pituitary disease, devised and conducted clinical trials, and taught medical students, residents, and endocrinology fellows. In 2014, he joined the faculty at the University of Southern California. He has authored several journal articles devoted to clinical pituitary medicine, book chapters covering hypopituitarism and hypothalamic disease, and sits on the editorial boards for Pituitary and Endocrine, Diabetes, and Metabolism Case Reports.

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Help Advance Research for Better Cushing’s Syndrome Treatment

Posted on June 23, 2016 by MaryO

clinical-trials

 

I am so passionate about Clinical Trials, especially for Cushing’s because I was only diagnosed in 1987 because I was a part of a clinical trial at the NIH.  In addition to helping myself, I knew I’d be helping other Cushies coming along after me – something positive I could do while I was at my worst.

I hope that others will consider doing Clinical Trials, if they qualify for them.  You never know who else you might help!

 

This trial is testing the safety and effectiveness of an investigational drug for the treatment of Cushing’s Syndrome. Under the supervision of qualified physicians, cortisol levels and symptoms of Cushing’s Syndrome will be closely followed along with any signs of side effects.

More about the study:

The study drug (COR-003) is administered by tablets.

  • There will be 90 participants in this trial
  • There is no placebo used in the trial

If you are interested, please find the full study details and eligibility criteria listed here.

Eligibility Criteria:

Participants must:

  • be at least 18 years old
  • have been diagnosed with endogenous Cushing’s Syndrome by a medical professional (not caused by the use of steroid medications)

Participants must not:

  • have been treated with radiation for Cushing’s Syndrome in the past 4 years
  • be currently using weight loss medication
  • have been diagnosed with uncontrolled hypertension, some forms of cancer, adrenal carcinoma, Hepatitis B / C, or HIV

Please complete the online questionnaire to check if you’re eligible for the trial.

If you’re not familiar with clinical trials, here are some FAQs:

What are clinical trials?

Clinical trials are research studies to determine whether investigational drugs or treatments are safe and effective for humans. All new investigational medications and devices must undergo several clinical trials, often involving thousands of people.

Why participate in a clinical trial?

You will have access to investigational treatments that would be available to the general public only upon approval. You will also receive study-related medical care and attention from clinical trial staff at research facilities. Clinical trials offer hope for many people and an opportunity to help researchers find better treatments for others in the future.

Learn why I’m talking about Clinical Trials

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(For the General Public) Are there any advantages to human growth hormone?

Posted on June 22, 2016 by MaryO

Harvard Men’s Health Watch

Ask the doctor

Q. I’ve heard about the benefits of human growth hormone (HGH) for older individuals. Is this something I should try?

A. The benefits of HGH supplementation for older adults are unproven, and perhaps most telling is that these products have a negligible effect on HGH levels. In addition, there are concerns about potential side effects.

HGH comes in two forms: injections and pills. Since HGH injections are difficult to administer, pills are often preferred. Yet, these supplements do not actually contain HGH like injections do, because the hormone would quickly break down in the digestive tract. Instead, they contain amino acids that are absorbed by the body, which raises HGH levels. (They are also more expensive and can cost $100-plus for a month’s supply.)

HGH levels naturally decline as people age, which makes sense since our bodies stop growing during the late teenage years. So why would you need higher HGH levels later in life? The hype around HGH comes from a few studies that showed HGH injections can increase lean body mass and shrink body fat, which led to claims of HGH as an “anti-aging” hormone. However, the effects on strength and body weight are quite minimal. In addition, HGH can increase the amount of soft tissues in the body, which can lead to swelling, joint pain, carpal tunnel syndrome, and breast tenderness in men.

There is also a concern that HGH might promote cancer growth. (MaryO’Note:  I always mentioned this to doctors when I was diagnosed with kidney cancer.  Even though I couldn’t take HGH for the first 5 years after diagnosis, none of my doctors would confirm a connection between HGH and my cancer)

If you want to improve your strength, forget about HGH and increase your exercise. Some studies suggest this alone may be more effective than HGH supplementation for raising growth hormone levels in the body.

—William Kormos, MD
Editor in Chief, Harvard Men’s Health Watch

Originally published: July 2016

Adapted from http://www.health.harvard.edu/mens-health/are-there-any-advantages-to-human-growth-hormone

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Surgery Preferred Option in Cushing’s Disease for Best Survival

Posted on June 21, 2016 by MaryO

Patients with Cushing’s disease who have been in remission for more than 10 years still have an increased mortality risk compared with the general population, says an international team of researchers, who found the risk of early death was particularly increased in those with Cushing’s and accompanying circulatory disease.

Richard N Clayton, MD, department of medicine, Keele University, Stoke-on-Trent, United Kingdom, showed that Cushing’s disease, which is characterized by increased secretion of adrenocorticotropic hormone by the anterior pituitary gland, is associated with an increased mortality risk of more than 60% and a median survival of around 40 years.

In patients who also had circulatory disease, the mortality risk was even higher, say Dr Clayton and colleagues.

However, patients who had undergone curative pituitary surgery had a long-term risk of death no different from that of the general population. US Endocrine Society guidelines published last August recommend that optimal treatment of Cushing’s syndrome involves direct surgical removal of the causal tumor.

But Dr Clayton and colleagues point out that even patients who undergo pituitary surgery will nevertheless “require lifelong follow-up at a center experienced in dealing with this condition, having regular checks for diabetes, hypertension, and other cardiovascular risk factors.”

The study was published online June 2 in Lancet Diabetes & Endocrinology.

In an accompanying editorial, Rosario Pivonello, MD, PhD, department of clinical medicine and surgery, section of endocrinology, University of Naples Federico II, Italy, and colleagues write that, although surgery is not suitable for all patients, “Prompt pituitary surgery might be the preferred treatment for Cushing’s disease to guarantee the best mortality outcome.”

Calling for further research to better understand why one treatment “has a better effect on mortality than another,” they state: “The results from this study might also motivate rapid interventions, cure, and long-term follow-up in patients with Cushing’s disease — even for a long time after hypercortisolism resolution.”

Studying Those Who Have Survived More Than 10 Years

Dr Clayton and colleagues explain that previous studies have explored mortality in patients with Cushing’s disease during either active disease or remission. But the outcome of patients in remission, especially long-term remission, is still a matter of debate, and assessing long-term survival has been limited by various methodological differences. To overcome some of these issues, they performed a retrospective analysis of case records from specialist referral centers in the United Kingdom, Denmark, the Netherlands, and New Zealand.

They identified 320 patients diagnosed with Cushing’s disease and cured for a minimum of 10 years at enrollment and had no relapses during the study period. The ratio of women to men was 3:1.

Median patient follow-up was 11.8 years, yielding a total of 3790 person-years of follow-up 10 years after cure. There was no difference in follow-up between countries. And as there were no significant demographic and clinical differences between men and women, the data were pooled.

During the study 16% of patients died. Median survival was 31 years for women and 28 years for men, at approximately 40 years following remission. The overall standardized mortality ratio (SMR) for all-cause mortality compared with the general population was 1.61 (P = .0001).

Patients with Cushing’s and circulatory disease had an SMR vs the general population of 2.72 (P < .0001), but deaths from cancer among those who had survived Cushing’s disease were not higher than the general population, at an SMR of 0.79 (P = .41).

Patients with Cushing’s and diabetes also had an increased mortality risk, at a hazard ratio (HR) of 2.82 (P < .0096) compared with the general population, while hypertension was not significantly associated with increased mortality, at an HR of 1.59 (P = .08).

There was also an association between mortality and number of treatments, at an HR of 1.77 for two vs one treatment (P = .08) and an HR of 2.6 for three vs one treatment (P = .02).

Pituitary Surgery Alone Associated With No Increased Risk of Death

Pituitary surgery performed as the first and only treatment was associated with an SMR vs the general population of 0.94 compared with an SMR of 2.58 for other patients (P < .0005).

Patients who had pituitary surgery only had a median survival of 31 years compared with 24 years if surgery had been required at any time (P = 0.03).

The research team states: “For patients who have been cured of Cushing’s disease for 10 years or more, treatment complexity and an increased number of treatments, reflecting disease that is more difficult to control, appears to negatively affect survival.”

“Pituitary surgery alone achieves a mortality outcome that is not different from the normal population and should be performed in a center of excellence,” they conclude.

However, in the editorial, Dr Pivonello and colleagues point out that the surgical approach “is not a treatment option for some patients, either because of contraindications (eg, severe clinical complications) or because of an absence of clear indication for surgery (eg, tumor is not completely removable by surgery).”

The authors and editorialist have reported no relevant financial relationships.

Lancet Diabetes Endocrinol. Published online June 2, 2016. Abstract, Editorial

From http://www.medscape.com/viewarticle/865073#vp_2

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