Pediatric Endocrine Society Provides Guidance for Growth Hormone Use in Pediatric Patients

Posted on June 3, 2017 by MaryO

HealthDay News—Use of growth hormone in children and adolescents should be considered carefully, with assessment of the risks and benefits necessary for each patient, according to guidelines published in the January issue of Hormone Research in Paediatrics.

Adda Grimberg, MD, from the Perelman School of Medicine at the University of Pennsylvania in Philadelphia, and colleagues updated guidelines on the use of growth hormone, focusing on idiopathic short stature (ISS), GH deficiency (GHD), and primary insulin-like growth factor-I (IGF-I) deficiency (PIGFD). The guidelines were written on behalf of the Pediatric Endocrine Society.

The researchers recommend use of growth hormone for children and adolescents with GHD. Prospective recipients of growth hormone treatment should receive guidance regarding potential adverse effects and should be monitored for these effects. Parents and clinicians should take a shared decision-making approach to treating patients with ISS, and assess the physical and physiological burdens for the child, while considering the risks and benefits of treatment.Follow-up assessment of benefit and psychosocial impact should be conducted at 12 months after initiation and dose optimization of GH. IGF-I therapy is recommended for patients with severe PIGFD. Diagnosis of PIGFD/GH insensitivity syndrome should be based on a combination of factors that fall into four stages.

Physicians with expertise in managing endocrine disorders in children should provide consultation for evaluation of GHD-ISS-PIGFD and manage treatment.

“The taskforce suggests that the recommendations be applied in clinical practice with consideration of the evolving literature and the risks and benefits to each individual patient,” the authors write. “In many instances, careful review highlights areas that need further research.”

Several authors disclosed financial ties to the pharmaceutical industry.

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Reference

Grimberg A, DiVall SA, Polychronakos C, et al; on behalf of the Drug and Therapeutics Committee of the Pediatric Endocrine Society. Guidelines for growth hormone and insulin-like growth factor-I treatment in children and adolescents: growth hormone deficiency, idiopathic short stature, and primary insulin-like growth factor-I deficiency. Horm Res Paediatr. 2016;86(6):361-397. doi: 10.1159/000452150

 From http://www.endocrinologyadvisor.com/adrenal/growth-hormone-use-in-pediatric-patients/article/634909/

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Growth Hormone Deficiency Following Complicated Mild Traumatic Brain Injury

Posted on April 6, 2017 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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Longer-Acting Growth Hormones Promising for Adult GH Deficiency

Posted on April 3, 2017 by MaryO

Two investigational long-acting growth-hormone (GH) replacement products hold potential for less frequent dosing and improved adherence among adult patients with proven growth-hormone deficiency.

Adult growth-hormone deficiency is a rare disorder characterized by the inadequate secretion of the growth hormone from the pituitary gland. It can be hereditary; can be acquired as a result of trauma, infection, radiation therapy, or brain tumor growth; and can even emerge without a diagnosable cause. Currently, it is treated with once-daily injections of subcutaneous growth hormone.

The new results, from a 26-week phase 3 trial of Novo Nordisk’s once-weekly growth-hormone derivative somapacitan and a dose-finding phase 2 safety study of Versartis’s long-acting recombinant growth hormone somavaratan, both in adult patients with growth-hormone deficiency, were presented here at ENDO 2017: The Endocrine Society Annual Meeting.

“Compliance is often a problem with daily growth-hormone injections in children and even with adults,” session moderator Luma Ghalib, MD, assistant professor in the division of endocrinology, diabetes, and metabolism at Ohio State University Wexner Medical Center, Columbus, told Medscape Medical News.

“Patients will often stop taking the daily medications, sometimes because of the cost but also because the daily injections are cumbersome. So the two longer-acting agents that have been studied will be an amazing breakthrough if they get [US FDA]-approved.”

But, she cautioned, longer-term data are needed. “In the long term, we worry about the metabolic effects. We know growth hormone can increase insulin resistance and diabetes, so we have to keep an eye on the peaks.”

And, she added, there could be a small risk for regrowth of the pituitary adenoma that caused the growth-hormone deficiency. “The risk will probably be slim because we haven’t seen regrowth with the daily dosing, but it hasn’t been studied.”

Once-Weekly Somapacitan Found Safe, Well-Tolerated

Gudmundur Johannsson, MD, PhD, professor and chief physician at the University of Gothenburg, Sweden, reported findings from the 26-week multicenter, multinational, randomized open-label parallel-group trial of somapacitan, a reversible albumin-binding human GH derivative intended for once-weekly subcutaneous administration.

A total of 92 adults (aged 18-79 years) who had been previously treated with once-daily growth-hormone replacement for at least 6 months were randomized 2:1 (after a 1-day washout) to either once-weekly somapacitan or once-daily somatropin (Norditropin, Novo Nordisk). Doses of both were titrated for the first 8 weeks to achieve normal insulinlike growth factor (IGF)-1 levels (target 0–2 standard deviation scores) and remained fixed for the subsequent 18 weeks.

Patients were around 50 years of age, 45% female, with body mass index 28 kg/m2. After remaining stable in both arms following titration, mean serum IGF-1 standard-deviation scores at week 25 were 0.22 for somapacitan and 0.35 for somatropin.

The primary outcome, incidence of adverse events including injection-site reactions, was similar between the two groups. Total adverse events occurred in 53 of 61 (86.9%) with somapacitan vs 21 of 31 (67.5%) with somatropin and included nasopharyngitis, headache, fatigue, dizziness, and arthralgia. Serious adverse events occurred in four (6.6%) with somapacitan and two (6.5%) with somatropin.

Of more than 1500 somapacitan injections given, there were two mild, transient, injection-site reactions (hematoma and bruising). No antibodies to somapacitan or GH were detected.

At week 26, patients’ scores on the Treatment Satisfaction Questionnaire for Medication-9 (TSQM-9) for convenience, effectiveness, and satisfaction all favored somapacitan over somatropin.

Additional phase 3 trials in adults with growth-hormone deficiency are ongoing, as well as a phase 2 trial in children, a Novo Nordisk spokesperson told Medscape Medical News.

Somavaratan Dose-Finding Study Yields 2-Week Response

Kevin CJ Yuen, MD, MBChB, medical director of the Swedish Pituitary Center, Swedish Neuroscience Institute, Seattle, Washington, presented findings from an open-label, multicenter phase 2 study of somavaratan, a novel long-acting form of recombinant human growth hormone. The study aimed to evaluate starting dose, dose titration plan, and safety and to determine the IGF-1 response with 30-day dosing.

Patients were allocated into three starting dose cohorts: 0.6 mg/kg/month for those aged 35 and older, 0.8 mg/kg/month for those younger than 35, and 1.0 mg/kg/month for women on oral estrogen, regardless of age. All received five monthly subcutaneous doses of somavaratan with a target IGF-1 standard deviation score of 0–1.5. In all, 32 of 49 patients completed the study.

The most common adverse events were injection-site reactions (19.4%) and headache (11.1%), mostly mild or moderate. No severe adverse events were deemed related to somavaratan.

Mean IGF-I SDS increased from -1.32 at baseline to +2.31 at 7 days after the first dose, with subjects within each cohort who received higher doses tending to have higher IGF-1 responses. Following the last study dose, IGF-1 standard-deviation scores returned to baseline by day 22.

Thus, Dr Yuen said, twice-monthly administration will be studied going forward. Starting somavaratan dose and administration frequency are being investigated further in the extension study and then will be carried forward in a new phase 3 study.

Speaking about both products, Dr Ghalib told Medscape Medical News: “We are waiting. Less frequent dosing will make our lives and definitely the patients’ lives a lot easier.”

Dr Johannsson is a consultant and/or speaker for Viropharma, Shire, AstraZeneca, Novartis, Otsuka, Novo Nordisk, Merck, Serono, Pfizer, and Ipsen. Dr Yuen is an investigator and/or medical advisory board member for Pfizer, Opko, Novo Nordisk, Versartis, and Sandoz. Dr Ghalib has no relevant financial relationships.  

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ENDO 2017. April 1, 2017; Orlando, Florida. Abstract OR22-1, Abstract OR22-2

From http://www.medscape.com/viewarticle/878088

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Pituitary dysfunction after traumatic brain injury: are there definitive data in children?

Posted on November 21, 2016 by MaryO

Arch Dis Child doi:10.1136/archdischild-2016-311609

  1. Correspondence toDr Paula Casano-Sancho, Pediatric Endocrinology Unit, Sant Joan de Déu Hospital, Passeig Sant Joan de Déu, Santa Rosa 39-57, Esplugues, Barcelona 08950, Spain; pcasano@hsjdbcn.org
  • Received 14 July 2016
  • Revised 26 October 2016
  • Accepted 27 October 2016
  • Published Online First 21 November 2016

Abstract

In the past decade, several studies in adults and children have described the risk of pituitary dysfunction after traumatic brain injury (TBI). As a result, an international consensus statement recommended follow-up on the survivors. This paper reviews published studies regarding hypopituitarism after TBI in children and compares their results.

The prevalence of hypopituitarism ranges from 5% to 57%. Growth hormone (GH) and ACTH deficiency are the most common, followed by gonadotropins and thyroid-stimulating hormone. Paediatric studies have failed to identify risk factors for developing hypopituitarism, and therefore we have no tools to restrict screening in severe TBI. In addition, the present review highlights the lack of a unified follow-up and the fact that unrecognised pituitary dysfunction is frequent in paediatric population.

The effect of hormonal replacement in patient recovery is important enough to consider baseline screening and reassessment between 6 and 12 months after TBI. Medical community should be aware of the risk of pituitary dysfunction in these patients, given the high prevalence of endocrine dysfunction already reported in the studies. Longer prospective studies are needed to uncover the natural course of pituitary dysfunction, and new studies should be designed to test the benefit of hormonal replacement in metabolic, cognitive and functional outcome in these patients.

From http://adc.bmj.com/content/early/2016/11/21/archdischild-2016-311609.short?rss=1

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Signs and Symptoms of Adult Growth Hormone Deficiency

Posted on September 12, 2016 by MaryO

Major Symptoms of Adult-Onset Growth Hormone deficiency

You may be wondering if the unusual symptoms you are feeling lately may be due to growth hormone deficiency. Growth hormone is now widely recognized as an important factor in the maintenance of health and well-being. However, research shows that most people won’t experience the debilitating effects of growth hormone deficiency during their lifetime as the condition is not a cause of aging but rather serious illness or injury. If you want to learn about growth hormone deficiency signs and symptoms and what clinics like the Nexel Medical can do about this problem, keep reading.

About growth hormone deficiency in children

Growth hormone deficiency manifests differently in childhood than it does in adulthood. For normal development, there needs to be an adequate amount of circulating growth hormones in the body. The main symptom of growth hormone deficiency in children is stunted growth and developmental problems. This is a result of insufficient amounts of this important hormone in the body that is normally secreted by the pituitary gland. The pituitary gland is a small gland located at the bottom of the hypothalamus, at the base of the brain. Any damage to the pituitary gland will cause a drop in growth hormone levels that could be dangerous for children.

Growth hormone deficiency in adults

Although it would be natural to assume that there is no need for a growth hormone in the body once the growth process is over and we’ve reached adult height and weight, this is simply not the case. The human growth hormone plays a vital role in overall health up until old age. Damage to the pituitary gland from tumors is the most common cause of growth hormone deficiency in adults. People also tend to experience a decline in growth hormone levels that naturally come with age, but researchers agree that this decline is insignificant and shouldn’t cause any problems. However, damage to the pituitary gland will definitely cause major symptoms that require immediate treatment from clinics such as the Nexel Medical. According to an article published in the Indian Journal of Endocrinology and Metabolism, growth hormone deficiency has been associated with abnormalities of:

  • Neuropsychiatric and cognitive functioning

  • Cardiovascular functioning

  • The neuromuscular system

  • The skeletal system

Metabolic functioning

All these problems can be significantly reversed with growth hormone therapy. Growth hormone is now widely recognized as a hormone playing a role in the regulation of body composition, energy levels, and normal mental functioning.

Causes and symptoms of growth hormone deficiency

According to current research, 65% of all cases of growth hormone deficiency are caused by pituitary tumors. Other common causes are infections of the pituitary gland, pituitary hemorrhage, and idiopathic growth hormone deficiency. Traumatic brain injury may also lead to growth hormone deficiency in some cases. The clinical features or signs and symptoms of growth hormone deficiency are many and may seem unspecific at first. Those suspecting problems with the pituitary gland and growth hormone deficiency should look out for the following:

  • Cognitive changes (memory, processing, speed, attention)

  • Mood changes (depression, anxiety)

  • Social withdrawal

  • Fatigue and lack of strength

  • Neuromuscular dysfunction

  • Decreased bone mineral density

  • Decreased sweating

  • Weight gain and muscle loss

  • Metabolic changes (insulin resistance, dyslipidemia)

  • Treatment of growth hormone deficiency

Growth hormone deficiency in adults is usually treated with growth hormone replacement therapy. The hormone is in such cases administered intravenously or through dermal implants. A study published in the Journal of Clinical Endocrinology and Metabolism found that administering growth hormone to patients with growth hormone deficiency resulted in a reduction of visceral body fat by 30%. The researchers also noticed an improvement in bone metabolism and a decline in psychiatric complaints in these patients.

Why growth hormone pills don’t work?

Taking oral supplements claiming to contain the human growth hormone won’t work simply because the majority of it will be digested by your gastrointestinal tract before it gets the chance to reach your bloodstream. This is mainly because the human growth hormone is a protein and all proteins are broken down by the digestive tract. This was confirmed by studies as stated in an FDA-published article explaining how growth hormone administered to dairy cows cannot affect humans.

Conclusion

The human growth hormone is an important hormone for the maintenance of health, metabolism, and mental functioning. Studies on growth hormone deficiency show that most people have adequate levels of this hormone in their bodies. Although a decline in growth hormone levels comes with age, this decline is not enough to cause major changes in a person’s health and well-being. On the other hand, structural damage to the pituitary gland will cause some of the major conditions and symptoms of growth hormone deficiency. In such cases, growth hormone replacement therapy is highly advised. Clinics such as Nexel Medical are among many that offer different hormone replacement therapies including for growth hormone deficiencies.

References

https://www.hgha.com/hormone-replacement-therapy-clinic/

http://www.ncbi.nlm.nih.gov/pubmed/23435439

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3183535/

http://www.ncbi.nlm.nih.gov/pubmed/19001512

http://www.ncbi.nlm.nih.gov/pubmed/8432773

http://www.fda.gov/AnimalVeterinary/SafetyHealth/ProductSafetyInformation/ucm130321.htm

From http://theinscribermag.com/health-fitness/signs-and-symptoms-of-adult-growth-hormone-deficiency.html

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