- Growth hormone treatment
Growth hormone(GH) is a protein hormonesecreted by the pituitarygland which stimulates growth and cell reproduction. In the past growth hormone was extracted from human pituitary glands. GH is now produced by recombinant DNA technology, and prescribed for a variety of reasons. GH therapy has been a focus of social and ethical controversies for 50 years.
This article describes the history of GH treatment, current uses, risks, and social controversies arising from GH use. Other articles describe GH physiology, diseases of GH excess (
acromegalyand pituitary gigantism), deficiency, the recent phenomenon of HGH controversies, and growth hormone for cows.
Terminology and glossary
Growth hormone (GH) is also called somatotropin (British: somatotrophin). The human form of growth hormone is known as human growth hormone, or hGH (similarly ovine growth hormone, or sheep growth hormone, is abbreviated oGH). GH can refer either to the natural hormone produced by the pituitary (somatotropin), or biosynthetic GH for therapy.
Cadaver growth hormone is the term for GH extracted from human pituitary glands between 1960 and 1985 for therapy of deficient children. In the U.S., cadaver GH, also referred to as NPA growth hormone, was provided by the National Pituitary Agency, and by other national programs and commercial firms as well. In 1985 it was associated with the development of
Creutzfeldt-Jakob Disease, and was withdrawn from use.
rhGH refers to recombinant human growth hormone (somatropin). It contains the identical amino acid sequence of human GH and is "natural sequence" GH. It is chemically identical to the growth hormone produced by the pituitary gland. A long-acting somatropin was previously available, but has recently (March 2007) been put on hold by the FDA. Human growth hormone is currently available through multiple pharmaceutical companies in the US.
Coincidentally, rhGH also refers to rhesus monkey GH, using the accepted naming convention. Rhesus growth hormone was never used by physicians to treat human patients, but rhesus GH was part of the lore of the underground
anabolic steroidcommunity in those years and fraudulent versions may have been bought and sold in gyms.
met-GH refers to methionyl-growth hormone. This was the first recombinant GH product marketed (Protropin by Genentech). It had the same
amino acidsequence as human GH with an extra methionineat the end of the chain to facilitate the manufacturing process. It was discontinued in the late 1990s.
rBST refers to recombinant
bovine somatropin(cow growth hormone), or more properly, recombinant bovine GH (rbGH).
Treatment of GH deficiency in children
Growth hormone deficiencyis treated by replacing GH. All GH prescribed in North America, Europe, and most of the rest of the world is a human GH, manufactured by recombinant DNA technology. As GH is a large protein molecule, it must be injected into subcutaneous tissue or muscle to get it into the blood. Nearly painless insulin syringes make this less trying than is usually anticipated but perceived discomfort is a subjective value.
When a person has had a long-standing deficiency of GH, benefits of treatment are often obvious, and side effects of treatment are rare. When treated with GH, a deficient child will begin to grow faster within months. Other benefits may be noticed, such as increased strength, progress in
motor development, and reduction of body fat. Side effects of this type of physiologic replacement are quite rare. Known risks and unsettled issues are discussed below, but GH deficient children receiving replacement doses are at the lowest risk for problems and receive Still, costs of treatment in terms of money, effort, and perhaps quality of life, are substantial. Treatment of children usually involves daily injections of growth hormone, usually for as long as the child is growing. Lifelong continuation may be recommended for those most severely deficient as adults. Most pediatric endocrinologists monitor growth and adjust dose every 3-4 months. Assessing the psychological value of treatment is difficult but most children and families are enthusiastic once the physical benefits begin to be seen. Treatment costs vary by country and by size of child, but $US 10,000 to 30,000 a year is common.
Little except the cost of treating severely deficient children is controversial, and most children with severe growth hormone deficiency in the developed world are offered treatment. Most accept. The story is very different for adult deficiency.
Treatment of adult GH deficiency
Research has shown that GH treatment can provide a number of measurable benefits to severely GH-deficient adults, such as enhanced energy and strength, and improved
bone density[cite journal |author=Götherström G, Bengtsson BA, Bosaeus I, Johannsson G, Svensson J |title=Ten-year GH replacement increases bone mineral density in hypopituitary patients with adult onset GH deficiency |journal=Eur. J. Endocrinol. |volume=156 |issue=1 |pages=55–64 |year=2007 |month=January |pmid=17218726 |doi=10.1530/eje.1.02317 |url=] . Musclemass may increase at the expense of adipose tissue. Blood lipidlevels improve, but long term mortality benefit has not yet been demonstrated [cite journal |author=Götherström G, Bengtsson BA, Bosaeus I, Johannsson G, Svensson J |title=A 10-year, prospective study of the metabolic effects of growth hormone replacement in adults |journal=J. Clin. Endocrinol. Metab. |volume=92 |issue=4 |pages=1442–5 |year=2007 |month=April |pmid=17284638 |doi=10.1210/jc.2006-1487 |url=] . Treatment of healthy, normally aging individuals found the only benefit to be a slight increase in muscle mass, with frequent side-effects and no evidence that it is safe to use long-termcite journal |author=Liu H, Bravata DM, Olkin I, "et al" |title=Systematic review: the safety and efficacy of growth hormone in the healthy elderly |journal=Ann. Intern. Med. |volume=146 |issue=2 |pages=104–15 |year=2007 |month=January |pmid=17227934 |doi= |url=] .
GH for severe adult deficiency is usually prescribed as daily injections at a weekly dose about 25% of children's doses and comparably lower cost. Despite the potential benefits, most adults with GH deficiency are not being treated due to a combination of factors such as unwillingness of young adults to seek medical care, unacceptability of injections, inadequate insurance coverage, and significantly lower rates of diagnosis and treatment offered by internist endocrinologists.
Other GH uses and treatment indications
In the last two decades, GH has also been increasingly used for children and adults who are not severely deficient, either to enhance growth or for other reasons [cite journal |author=Krysiak R, Gdula-Dymek A, Bednarska-Czerwińska A, Okopień B |title=Growth hormone therapy in children and adults |journal=Pharmacol Rep |volume=59 |issue=5 |pages=500–16 |year=2007 |pmid=18048950 |doi= |url=http://www.if-pan.krakow.pl/pjp/pdf/2007/5_500.pdf] .
GH treatment for other types of shortness
Many conditions besides GH deficiency cause poor growth. GH therapy has been shown to improve short-term growth in many conditions, but long-term height gains are usually poorer than those achieved when GH deficiency is the cause of shortness. Higher ("pharmacologic") doses are typically required to achieve efficacy; side effects are uncommon and vary according to the condition being treated.
As of 2004, GH has been approved by the U.S.
Food and Drug Administrationfor treatment of five other types of short stature:
Turner syndromeepitomizes the response of non-deficient shortness. At doses 20% higher than those used in GH deficiency, growth accelerates. With several years of treatment the median gain in adult height is about 2-3 inches (5-7.5 cm) on this dose. The gains appear to be dose-dependent. [cite journal |author=Bolar K, Hoffman AR, Maneatis T, Lippe B |title=Long-term safety of recombinant human growth hormone in turner syndrome |journal=J. Clin. Endocrinol. Metab. |volume=93 |issue=2 |pages=344–51 |year=2008 |month=February |pmid=18000090 |doi=10.1210/jc.2007-1723 |url=] . It has been used successfully in toddlers with Turner syndrome [cite journal |author=Davenport ML, Crowe BJ, Travers SH, "et al" |title=Growth hormone treatment of early growth failure in toddlers with Turner syndrome: a randomized, controlled, multicenter trial |journal=J. Clin. Endocrinol. Metab. |volume=92 |issue=9 |pages=3406–16 |year=2007 |month=September |pmid=17595258 |doi=10.1210/jc.2006-2874 |url=] , as well as in older girls [cite journal |author=Backeljauw P |title=Does growth hormone therapy before 4 years of age enhance the linear growth of girls with Turner's syndrome? |journal=Nat Clin Pract Endocrinol Metab |volume=4 |issue=2 |pages=78–9 |year=2008 |month=February |pmid=17971794 |doi=10.1038/ncpendmet0678 |url=] .
Chronic renal failureresults in many problems, including growth failure. GH treatment for several years both before and after transplantation may prevent further deceleration of growth and may narrow the height deficit, though even with treatment net adult height loss may be about 4 inches (10 cm).
Prader-Willi syndromerepresents a unique combination both encouraging and discouraging GH treatment. Many of the children have at least partial deficiency, so that the adipose reduction and muscle strength benefits are amplified. These two benefits are specifically helpful in this syndrome. On the other hand, these children are intellectually and socially limited by their condition such that it is difficult to imagine that 2 or 3 more height inches would make much difference to quality of life. Furthermore, a handful of sudden deaths during treatment of older children has raised questions about safety and an official warning.
* Children short because of
intrauterine growth retardationare small for gestational age at birth for a variety of reasons. If early catch-up growthdoes not occur and their heights remain below the third percentile by 2 or 3 years of age, adult height is likely to be similarly low. High dose GH treatment has been shown to accelerate growth, but data on long term benefits and risks is limited [cite journal |author=Chatelain P, Carrascosa A, Bona G, Ferrandez-Longas A, Sippell W |title=Growth hormone therapy for short children born small for gestational age |journal=Horm. Res. |volume=68 |issue=6 |pages=300–9 |year=2007 |pmid=17823537 |doi=10.1159/000107935 |url=] .
Idiopathic short stature(ISS) is one of the most controversial indications for GH as pediatric endocrinologists do not agree on its definition, diagnostic criteria, or limits. [cite journal |author=Czernichow P |title=Which children with idiopathic short stature should receive growth hormone therapy? |journal=Nat Clin Pract Endocrinol Metab |volume=4 |issue=3 |pages=118–9 |year=2008 |month=March |pmid=18040291 |doi=10.1038/ncpendmet0700 |url=] The term has been applied to children with severe unexplained shortness that will result in an adult height below the 3rd percentile. In the late 1990s, the pharmaceutical manufacturer Eli Lilly and Companysponsored trials of Humatrope (their brand of rhGH) in children with extreme ISS, those at least 2.25 standard deviations below mean (in the lowest 1.2 percent of the population). These boys and girls appeared to be headed toward heights of less than 63" (160 cm) and 59" (150 cm) respectively. They were treated for about 4 years and gained 1.5 to 3 inches (3.8-7.6 cm) in adult height. Controversy has arisen as to whether all of these children were truly "short normal" children, since the average IGF1was low. Not surprisingly, approval for this extreme degree of shortness led to an increase in the number of parents seeking treatment to make otherwise healthy children a little taller [cite journal |author=Hannon TS, Danadian K, Suprasongsin C, Arslanian SA |title=Growth hormone treatment in adolescent males with idiopathic short stature: changes in body composition, protein, fat, and glucose metabolism |journal=J. Clin. Endocrinol. Metab. |volume=92 |issue=8 |pages=3033–9 |year=2007 |month=August |pmid=17519313 |doi=10.1210/jc.2007-0308 |url=] .
A variety of other causes of shortness is occasionally treated with growth hormone off-label.
Chronic high dose
glucocorticoiduse results in growth failure, diminished bone density, reduced muscle mass and strength, increased fat, skin fragility, and poor healing. Growth hormone reduces many of these complications without interfering with the anti-inflammatory benefits of the steroid. Unfortunately, GH cannot completely prevent or reverse them. GH is currently used for only a small percentage of people with this problem.
Post-transplant growth failure sometimes improves with GH. Many children who suffer from chronic renal,
liver, and heartdisease grow poorly for years before a transplant is required (or available). While growth may improve after correction of organ function by successful transplantation, the immunosuppressive drugs taken to protect the transplanted organ may continue to interfere with growth. Growth hormone may help offset these effects and is often offered in these circumstances.
hypophosphatemic ricketsis an inherited disorder of phosphorusmetabolism that results in growth failure and rickets. GH has been shown to accelerate growth modestly. Inflammatory bowel disease(ulcerative colitis and Crohn's disease) can impair growth before producing obvious bowel symptoms. Trials of GH have shown at least modest acceleration of growth.
Poor growth is a part of
Noonan syndromeand many other genetic syndromes. Many short children with various syndromes have been treated with GH. As a broad generalization, GH for several years usually produces faster growth, and perhaps 1-2 inches (2.5-5 cm) of extra adult height.
Small numbers of children with various forms of bone dysplasia (
dwarfismin common parlance) have been treated with GH with modest increases in short-term height velocity. No long-term studies have demonstrated increased adult height, and dwarfism due to bone dysplasia remains the prime example of extreme shortness considered "not" very amenable to GH treatment.
If the onset of Coeliac Disease occurs in children prior to reaching their growth potential then stunted growth can result due to Coeliac Disease damaging the intestines and preventing proper nutrient absorption. HGH treatment can be used to recover lost growth due to this effect once a gluten free diet is followed and the instestines begin to repair themselves.
GH treatment for other benefits beyond height
GH has occasionally been used for other purposes than accelerating growth or replacing deficiency. Nearly every hormone available for administration has been given to non-deficient people in hope of obtaining improvement for various conditions for which other treatments are unsatisfactory. With a few exceptions, benefits are modest and side effect risk is higher. Experience with GH has yielded the same results. The following is not an exhaustive list.
Advanced acquired immunodeficiency syndrome is often accompanied by muscle wasting ("AIDS wasting"). GH has been shown to ameliorate this condition.
GH has been given to promote healing of large burns by reducing the amount of protein breakdown during the early post-injury period.
GH has been used as an adjunct to caloric restriction for
obesity. GH promotes lipolysisand reduces proteolysis. It was hoped that GH would reduce muscle breakdown without interfering with use and reduction of fat as the body shifted to a near- starvationeconomy. Results showed benefit, but this has not been widely adopted for a variety of reasons (cost, injections, potential aggravation of insulin resistance, etc). Recent studies suggest that side-effects, particularly insulin resistance, may outweigh the potential benefits of such therapy [cite journal |author=Pasarica M, Zachwieja JJ, Dejonge L, Redman S, Smith SR |title=Effect of growth hormone on body composition and visceral adiposity in middle-aged men with visceral obesity |journal=J. Clin. Endocrinol. Metab. |volume=92 |issue=11 |pages=4265–70 |year=2007 |month=November |pmid=17785361 |doi=10.1210/jc.2007-0786 |url=] . Fibromyalgiaand chronic fatigue syndromeare poorly understood and vaguely defined conditions with overlapping features. After demonstration of disorderd GH secretion and higher rates of tissue breakdown in patients with these conditions, a few people tried growth hormone treatment to see if energy or healing could be improved. Disturbances of GH secretion may be secondary phenomena and not causal. Despite anecdotal reports of improvement, no large, controlled trials have demonstrated significant, persistent improvement and GH is not a common or standard treatment for either condition.
GH has been used to slow or reverse some of the debilities of
agingbased on the following observations: (1) as adults get older, production and levels of GH and IGF1 decline, and (2) many of the effects of aging (diminished muscle strength and bone mass, reduced energy, reduced resilience) also occur with adult growth hormone deficiencyand are improved with GH treatment. See HGH controversiesfor more on GH use to retard aging.
GH has been taken by athletes and to increase recovery, strength and power. Rumors of surreptitious athletic use date back to the days of cadaver GH. Since GH is a protein hormone, it is not detected by assays that screen for steroids and similar drugs-- the primary laboratory clue would be elevated
IGF1levels. However, despite decades of rumors and presumably some amount of black marketor surreptitious use, the magnitudes of both benefits and risks remain unestablished. See HGH controversiesfor more.
Risks of GH treatment
Known risks of GH are few and rare. Few reasonable parents or physicians would incur a high risk of harm to a child to add a few inches to height. Most of the complications have been reported in children over 10 years of age or in adults. Though rare, the following harmful side effects have been reported during GH treatment often enough to be assumed noncoincidental.
Slipped capital femoral epiphysis(SCFE) causes hippain due to separation of the head of the femurfrom the shaft. Incidence in GH-treated children may be about 1 in 1000. SCFE usually requires casting or surgical pinning to reverse. Pseudotumor cerebri(also known as benign intracranial hypertension) is manifested by severe headache, papilledema, nausea, and visual changes. Incidence is also perhaps 1 in 1000. All cases have been reversed, usually by temporary discontinuation or reduced dose of the GH.
Fluid retention and edema in early months of treatment is rare in children but more common and occasionally more severe in adults. It typically disappears with temporary interruption of treatment.
Pancreatitishas been reported in a few patients receiving GH, but a causal relationship seemed unlikely but possible.
Joint pains are occasionally experienced by children or adults being treated with GH.
Carpal tunnel syndromehas also occurred in adults being treated with GH, presumably due to a combination of tissue growth and fluid retention causing pressure on the tightly confined nerves and tendons of the wrists.
A small but controlled study of GH given to severely ill adults in an
intensive careunit setting for the purpose of increasing strength and reducing the muscle wasting of critical illness showed a higher mortality rate for the patients who received GH [cite journal |author=Takala J, Ruokonen E, Webster NR, "et al" |title=Increased mortality associated with growth hormone treatment in critically ill adults |journal=N. Engl. J. Med. |volume=341 |issue=11 |pages=785–92 |year=1999 |month=September |pmid=10477776 |doi= |url=http://content.nejm.org/cgi/pmidlookup?view=short&pmid=10477776&promo=ONFLNS19] . The reason is unknown, but GH is now rarely used in ICU patients unless they have severe growth hormone deficiency. The following effects are common, but of questionable harm.
body compositionrefers to the tendency of GH to build bone and muscle mass and reduce body fat.
GH treatment usually decreases
insulin sensitivity[cite journal | author=Bramnert M, Segerlantz M, Laurila E, Daugaard JR, Manhem P, Groop L | title=Growth hormone replacement therapy induces insulin resistance by activating the glucose-fatty acid cycle | journal=The Journal of Clinical Endocrinology & Metabolism| year=2003| volume=88 | issue=4 | pages=1455–1463 | url=http://jcem.endojournals.org/cgi/content/full/88/4/1455 | pmid=12679422 | doi=10.1210/jc.2002-020542] . This effect does not seem to cause problems in most people but it is possible to envision a combination of factors which would make this a more significant effect.
When GH is given to children and adults who are not deficient,
IGF1levels may be raised above normal. Though no effects are obvious, prolonged periods of extremely high IGF1 levels occur in acromegaly, and a small amount of evidence suggests that higher IGF1 levels in older adults (not receiving GH) are associated with a slightly higher risk of certain cancers; a causal relationship has not been established.
When GH is given to a child in high doses for many years, it can subtly affect the
facial bonestructure. It rarely is recognized as a change by patients and parents and even less often causes problems.
The following serious problems have been linked by one or two small reports but a true risk has not been confirmed by larger surveillance studies.
Type 2 diabetes has been reported in a few adolescents treated with GH. It's uncertain whether this is a causal association because the incidence of adolescent type 2 diabetes is rising so rapidly in most countries that we no longer have reliable incidence statistics for diabetes in the untreated adolescent population.
Leukemiais the most common childhood cancer, occurring in about 1 in 40,000 children each year. Because leukocytes have GH receptors, leukemia cases have been carefully counted since recombinant GH was introduced. Although a few children with no risk factors treated with GH have developed leukemia, the numbers have been no more than would be expected in a similarly sized group. For a variety of reasons, it has been harder to achieve the same level of reassurance for children who "do" have a higher leukemia risk. These are primarily children who became GH deficient as a result of treatment for leukemia or a brain tumor. Available statistics are reassuring, but numbers are not large enough to exclude any amplification of risk.
Several extra cases of
colon cancerwere found in a study of lifelong health and mortality of a group of middle-aged British adults with severe GH deficiency from childhood. All had been treated as children with cadaver GH. This association has not been confirmed and even if it were, it would need to be established whether the GH treatment in childhood or the untreated GH deficient state in adult life represented the true association. Both obesity and elevated levels of IGF-1 have been associated with colon cancer.
Finally, in any discussion of side effects, our experience with
Creutzfeldt-Jacob disease20 years after cadaver GH treatment reminds us that side effects of an apparently safe treatment may be unforeseeable and long-delayed.
Perhaps the most famous person who exemplified the appearance of untreated congenital
growth hormone deficiencywas Charles Sherwood Stratton(1838-1883), who was exhibited by P.T. Barnumas General Tom Thumb, and married Lavinia Warren. Pictures of the couple show the typical adult features of untreated severe growth hormone deficiency. Despite the severe shortness, limbs and trunks are proportional.
Like many other nineteenth century medical terms which lost precise meaning as they gained wider currency, “
midget” as a term for someone with extreme proportional shortness acquired pejorative connotations and is no longer used in medical contexts.
By the middle of the twentieth century endocrinologists understood the clinical features of growth hormone deficiency. GH is a protein hormone, like
insulin, which had been purified from pig and cow pancreases for treatment of type 1 diabetes since the 1920s. However pig and cow GH did not work as well in humans, due to greater species-to-species variation of molecular structure (i.e., insulin is considered more "evolutionarily conserved" than GH).
Extraction for treatment
In the late 1950s Maurice Raben purified enough GH from human
pituitary glands to successfully treat a GH-deficient boy. A few endocrinologists began to help parents of severely GH deficient children to make arrangements with local pathologists to collect human pituitary glands after removal at autopsy. Parents would then contract with a biochemist to purify enough growth hormone to treat their child. Few families could manage such a complicated undertaking.
In 1960 the
National Pituitary Agencywas formed as a branch of the U.S. National Institutes of Health. The purpose of this agency was to supervise the collection of human pituitary glands when autopsies were performed, arrange for large scale extraction and purification of GH, and distribute it to a limited number of pediatric endocrinologists for treating GH-deficient children under research protocols. Canada, UK, Australia, New Zealand, France, Israel, and other countries establish similar government-sponsored agencies to collect pituitaries, purify GH, and distribute it for treatment of severely GH deficient children.
Supplies of this “cadaver growth hormone” were limited and only the most severely deficient children were treated. From 1963 to 1985 about 7700 children in the U.S. and 27,000 children worldwide were given GH extracted from human pituitary glands to treat severe GH deficiency. Physicians trained in the relatively new specialty of
pediatric endocrinologyprovided most of this care, but in the late 1960’s there were only a hundred of these physicians in a few dozen of the largest university medical centers around the world.
In 1976 physicians became aware that
Creutzfeldt-Jacob diseasecould be transmitted by neurosurgical procedures and cornea transplantation. CJD is a rapidly fatal dementing disease of the brain also known as spongiform encephalopathy, related to “ mad cow disease”.
In 1977 the NPA GH extraction and purification procedure was refined and improved.
A shortage of available cadaver GH worsened in the late 1970’s as the autopsy rate in the U.S. declined, while the number of pediatric endocrinologists able to diagnose and treat GH deficiency increased. GH was "rationed." Often treatment would be stopped when a child reached an arbitrary minimal height, such as 5 feet (152 cm). Children who were short for reasons other than severe GH deficiency were told that they would not benefit from treatment. Only those pediatric endocrinologists who remained at university medical centers with departments able to support a research program had access to NPA growth hormone.
In the late 1970’s a Swedish pharmaceutical company, Kabi, contracted with a number of hospitals in Europe to buy pituitary glands for the first commercial GH product, Crescormon. Although an additional source of GH was welcomed, Crescormon was greeted with ambivalence by pediatric endocrinologists in the United States. The first concern was that Kabi would begin to purchase pituitaries in the U.S., which would quickly undermine the NPA, which relied on a donation system like blood transfusion. As the number of autopsies continued to shrink, would pathologists sell pituitaries to a higher bidder? The second offense was Kabi-Pharmacia’s marketing campaign, which was directed at
primary care physicians under the slogan, “Now, you determine the need,” implying that the services of a specialist were not needed for growth hormone treatment anymore and that any short child might be a candidate for treatment. Although the Crescormon controversy in the U.S. is long forgotten, Kabi’s pituitary purchase program continued to generate scandal in Europe as recently as 2000.
=Recombinant human growth hormone (rhGH)=
In 1981, the new American corporation Genentech, after collaboration with Kabi, developed and started trials of recombinant human growth hormone (rhGH) made by a new technology (recombinant DNA) in which human
genes were inserted into bacteria so that they could produce unlimited amounts of the protein. Because this was new technology, approval was deferred as lengthy safety trials continued over the next four years.
In 1985 four young adults in the U.S. who had received NPA growth hormone in the 1960’s developed CJD. The connection was recognized within a few months and use of human pituitary GH rapidly ceased. Between 1985 and 2003, a total of 26 cases of CJD occurred in adults who had received NPA GH before 1977 (out of 7700), comparable numbers of cases occurred around the world. By 2003 there had been no cases in people who received only GH purified by the improved 1977 methods.
Discontinuation of human cadaver growth hormone led to rapid Food and Drug Administration approval of Genentech’s recombinant human growth hormone, which was introduced in 1985 as Protropin in the United States. Although this previously scarce commodity was suddenly available in “bucketfuls,” the price of treatment (US$10,000–30,000 per year) was the highest at the time. Genentech justified it by the prolonged research and development investment,
orphan drugstatus, and a pioneering post-marketing surveillance registry for tracking safety and effectiveness ( National Cooperative Growth Study).
Within a few years, GH treatment had become “big business” in more than one sense. In the United States, Eli Lilly launched a competing natural sequence growth hormone, and in Europe, Pharmacia (formerly Kabi, now
Pfizer), Novo Nordisk, and Seronomarketed nearly identical recombinant human growth hormone products and competed with dozens of different marketing strategies (but without cutting price). Most children with severe deficiency in the developed world are now likely to have access to a pediatric endocrinologist and be diagnosed and offered treatment. Pediatric endocrinologybecame a recognizable specialty in the 1950s, but did not reach board status in the U.S. until the late 1970s. Even 10 years later, as a cognitive, procedureless specialty dealing with mostly rare diseases, it was one of the smallest, lowest paid, and more obscure of the medical specialities. Pediatric endocrinologists were the only physicians interested in the arcana of GH metabolism and children’s growth, but their previously academic arguments took on new practical significance with major financial implications.
The major scientific arguments dated back to the days of GH scarcity:
* Everyone agrees on the nature and diagnosis of severe GH deficiency, but what are the edges and variations?
* How should marked constitutional delay be distinguished from partial GH deficiency?
* To what extent is “normal shortness” a matter of short children naturally making less growth hormone?
* Can a child make GH in response to a stimulation test but fail to make enough in “daily life” to grow normally?
* If a stimulation test is used to define deficiency, what GH cutoff should be used to define normal?
It was the ethical questions that were new. Is GH not a wise use of finite health care resources, or is the physician’s primary responsibility to the patient? If GH is given to most extremely short children to make them taller, will the definition of “extremely short” simply rise, negating the expected social benefit? If GH is given to short children whose parents can afford it, will shortness become a permanent mark of lower social origins? More of these issues are outlined in the ethics section. Whole meetings were devoted to these questions; pediatric endocrinology had become a specialty with its own
Despite the price, the 1990s became an era of experimentation to see what else growth hormone could help. The medical literature of the decade contains hundreds of reports of small trials of GH use in nearly every type of growth failure and shortness imaginable. In most cases the growth responses were modest. For conditions with a large enough potential market, more rigorous trials were sponsored by growth hormone companies to achieve approval to market for those specific indications.
Turner syndromeand chronic renal failurewere the first of these “non GH deficient causes of shortness” to receive FDA approval for GH treatment, and Prader-Willi syndromeand intrauterine growth retardationfollowed. Similar expansion of use occurred in Europe.
One obvious potential market was adult GH deficiency. By the mid-1990s, several GH companies had sponsored or publicized research into the
quality of lifeof adults with severe GH deficiency. Most were people who had been treated with GH in childhood for severe deficiency. Nearly all of them had been happy to leave the injections behind as they reached final heights in the low normal range. However as adults in their 30s and 40s, these people had more than their share of common adult problems: reduced physical, mental, and social energy, excess adipose and diminished muscle, diminished libido, poor bone density, higher cholesterol levels, and higher rates of cardiovascular disease. Research trials soon confirmed that a few months of GH could improve nearly all of these parameters. However, despite marketing efforts, most GH deficient adults remain untreated.
Though GH use was slow to be accepted among adults with GH deficiency, similar research to see if GH treatment could slow or reverse some of the similar effects of aging attracted much public interest. The most publicized trial was reported by Daniel Rudman in 1990 [cite journal |author=Rudman D, Feller AG, Nagraj HS, "et al" |title=Effects of human growth hormone in men over 60 years old |journal=N. Engl. J. Med. |volume=323 |issue=1 |pages=1–6 |year=1990 |month=July |pmid=2355952 |doi= |url=] . As with other types of hormone supplementation for aging (
testosterone, estrogen, DHEA), confirmation of benefit and accurate understanding of risks has been only slowly evolving. Use of GH for effects of aging is discussed in more detail in HGH controversies.
There are always entrepreneurs who don't need much evidence to see a business opportunity. In 1997, Ronald Klatz published "Grow Young With HGH: The Amazing Medically Proven Plan To Reverse the Effects Of Aging" [New York: Harper-Collins] , an uncritical touting of GH as the answer to aging. This time the internet amplified the proposition and spawned a hundred frauds and scams. Fortunately, their adoption of the "HGH" term has provided an easy way to distinguish the hype from the evidence. For more, see
In 2003, growth hormone hit the news again, when the US FDA granted Eli Lilly approval to market Humatrope for the treatment of
idiopathic short stature. The indication was controversial for several reasons, the primary one being the difficulty in defining extreme shortness with normal test results as a disease rather than the extreme end of the normal height range; in fact, the definition offered by Lilly for ISS is a height in the shortest 1.2% of the population. While this is an extreme degree of shortness, critics suggested that the company could afford to be extremely restrictive to earn approval, yet be confident that the definition, as well as actual use, would be driven upward by parents and physicians. Meanwhile, pediatric endocrinologists are still arguing about whether ISS is a "pathologic" or a statistical condition.
As of 2004, GH use continues to rise, though it is no longer the most expensive prescription drug in the formulary. Recombinant growth hormone available in the U.S. (and their manufacturers) included "Nutropin" (
Genentech), "Humatrope" ( Eli Lilly and Company), "Genotropin" ( Pfizer), "Norditropin" ( Novo Nordisk), "Tev-Tropin" (Teva) and " Saizen" ( Merck Serono). The products are nearly identical in composition, efficacy, and cost, varying primarily in the formulations and delivery devices.
* [http://magicfoundation.org/www/docs/108.1020/growth_hormone_questions_children-short-small-shots.html The Most Frequently Asked Questions when Beginning GH Treatment-The MAGIC Foundation for Children's Growth]
* [http://www.hgfound.org/ Human Growth Foundation]
* [http://www.hormone.org/public/growth.cfm Growth Section] of
The Hormone Foundation
* [http://www.magicfoundation.org/ Magic Foundation for Children's Growth]
* [http://www.gghjournal.com/pdf/volume_7/3/feature_3.pdf Other support groups]
* [http://www.gghjournal.com/pdf/volume_14/14-1/14_1_related_ab2.pdf General overview of GH use for physicians]
* [http://www.nossaonline.org/ National Organization of Short Statured Adults]
* [http://www.shortsupport.org/Health/Children/index.html Short Persons Support]
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