Unrecognized persistence of beta-hydroxybutyrate in diabetic ketoacidosis.

We quantitated serial serum beta-hydroxybutyrate (beta-OHB) levels using the Ketosite method in 9 children with IDDM who were treated for diabetic ketoacidosis (DKA) and compared them to urinary ketone measurements by dipstick. Persistent elevations of serum beta-OHB were seen in six patients when the urine became clear of ketones; five of these patients had a recurrence of ketonuria. We conclude that many patients recovering from ketoacidosis have continuing elevations of beta-OHB after the urine is free of ketones and this unrecognized abnormality is the likely cause of recurrence of the ketonuria. We recommend that fluid therapy be continued beyond clearance of ketonuria and suggest using the Ketosite method to document restoration of normal serum beta-OHB levels in patients recovering from DKA.

Growth hormone therapy in childhood-onset growth hormone deficiency: adult anthropometric and psychological outcomes.

The current adult heights of hypopituitary children treated with recombinant human growth hormone (rGH) now range between -1.5 and -0.7 height standard deviations (Ht SDS) of control populations. These height outcomes are markedly better than the ones observed following treatment with pituitary-derived human growth hormone (pGH) (between -4.7 and -2.0 Ht SDS). Although treatment with rGH has not yielded adult heights that are equal to genetic target heights, the discrepancy is much less now than in previous decades. Higher rGH dose, longer duration of treatment, early age at diagnosis, correction of height deficit prior to onset of puberty, and daily rGH injections have had beneficial effects on final adult heights. The current dosing regimens (0.3-0.18 mg/kg/wk) have not had an adverse effect on bone maturation and have not stimulated an earlier onset of puberty. Although height gains in puberty are less than controls, a majority of treated subjects reach heights within the normal range for adults. Higher doses of rGH during puberty have been studied in limited numbers of adolescents with positive effects; however, standard dosing will likely continue to be used because of financial considerations and safety concerns. Further improvements in adult heights are likely to be reported when the youngest children who began rGH in 1985 complete their growth. Several studies have investigated the quality of life (QOL) of GH-deficient (GHD) patients who, as children, had been treated with GH predominantly during the pGH era. Domains of functioning assessed include educational attainment, employment, and marital status. Although some studies have reported a generally positive adaptation, others have shown this group to exhibit marked deficits. Limited adult height outcomes in the pGH era of GH therapy has sometimes been used to account for poor outcomes. Variable behavioral findings are likely related to sample heterogeneity and disparate research methodologies and designs, most particularly the choice of control or comparison groups. In addition to summarizing this older literature, we report on a recently completed investigation in which the QOL adjustment of GHD patients is compared to that of same-sex siblings. Comparisons between GHD cases and norms for standardized questionnaires indicated both better and worse functioning in several domains. In contrast, very limited differences were detected between GHD cases and same-sex siblings. IGHD (isolated growth hormone deficiency) patients were functioning better than those with MPHD (multiple pituitary hormone deficiencies), but the effect sizes of these differences in most areas were relatively small. Adult height and degree of growth over the course of GH therapy were generally unrelated to QOL outcomes. Findings from the present study underscore the importance of selecting unbiased control/comparison groups in evaluating psychological outcomes among GHD adults.

Growth hormone use in pediatric growth hormone deficiency and other pediatric growth disorders.

The diagnosis and management of growth disorders in children, particularly disorders that respond to therapy with growth hormone (GH), raise challenging clinical and economic issues. Several such issues are presented in the following article in which Dr. Ron Rosenfeld examines the evaluation and diagnosis of the child with short stature; Dr. David B. Allen discusses the anabolic and metabolic indications for GH treatment in children; Dr. Margaret H. MacGillivray reviews GH dosing, height outcomes, and follow up; and Dr. Craig Alter presents the payer's perspective on the diagnosis and treatment of pediatric GH deficiency. In addressing the use of GH in other pediatric populations, Dr. Paul Saenger focuses on Turner syndrome, Dr. Henry Anhalt on chronic renal insufficiency of childhood, and Dr. Ray Hintz on idiopathic short stature. Dr. Harvey P. Katz presents one managed care organization's policy and implementation plan that is used to guide decisions regarding coverage for GH treatment.

Growth hormone use in transitioning patients--clinician and payer concerns.

Determining which patients with childhood-onset growth hormone (GH) deficiency will require continuing GH therapy into and/or throughout adulthood raises clinical and economic issues, such as retesting, appropriate dosing, and the risks and benefits of uninterrupted GH treatment versus the discontinuation of therapy. In his review of the evaluation and management of patients transitioning from GH therapy in childhood to GH therapy in adulthood, Dr. Stephen LaFranchi focuses on the odds of having ongoing GH deficiency, the changes that occur when therapy is discontinued, appropriate follow up of patients who discontinue treatment, and issues regarding the reinitiation of therapy. Dr. Margaret H. MacGillivray addresses appropriate monitoring and follow up of patients in transition, as well as their classification by etiology and severity of GH deficiency. Dr. Pete Fullerton explores new issues regarding GH deficiency treatment from a managed care perspective.

Current dosing of growth hormone in children with growth hormone deficiency: how physiologic?

The current doses of recombinant growth hormone (rGH) are two to three times those used in the pituitary growth hormone era. These rGH doses (0.025 to 0.043 mg/kg/d) are similar to or moderately greater than the physiologic requirements. Growth velocity and height gains have been shown to be greater with 0.05 mg/kg/d of rGH than with 0.025 mg/kg/d. Larger doses of GH and early initiation of treatment result in greater heights at the onset of puberty and greater adult heights. Earlier onset of puberty and more rapid maturation, as indicated by bone age, were not observed in children who were given 0.18 to 0.3 mg/kg/wk of rGH. The frequency of adverse events is very low, but diligent surveillance of all children who are treated with rGH is essential.

Pediatric endocrinology update: an overview. The essential roles of estrogens in pubertal growth, epiphyseal fusion and bone turnover: lessons from mutations in the genes for aromatase and the estrogen receptor.

The goals of this presentation are to review the essential roles of aromatase, estrogens and the estrogen receptor in pubertal growth. Estrogen deficiency due to mutations in the aromatase gene (CYP19) and estrogen resistance due to disruptive mutations in the estrogen receptor gene have no effect on normal male sexual maturation in puberty. However, they lead to absence of the pubertal growth spurt, delayed bone maturation, unfused epiphyses, continued growth into adulthood and very tall adult stature in both sexes. Gonadotropin and androgen levels are elevated in patients with either estrogen deficiency (aromatase deficiency) or estrogen resistance (estrogen receptor mutation). Glucose intolerance, hyperinsulinemia and lipid abnormalities are also present. Skeletal integrity is compromised. Increased bone turnover, reduced bone mineral density and osteoporosis develop in both sexes. Sexual orientation is appropriate in males and females. In females, aromatase deficiency in the ovary causes pubertal virilization and multicystic ovaries because of elevated gonadotropins and androgens. Simultaneously, secondary sexual maturation fails to occur. Placental aromatase deficiency results in virilization of the mother and her female fetus because of the accumulation of potent androgens which are not converted to estrogens. The male fetus has normal genitalia. In conclusion, estrogens are essential for normal female secondary sexual maturation, bone maturation, epiphyseal fusion, pubertal growth spurt and achievement of normal bone mineral mass. Estrogens also influence insulin sensitivity and lipid homeostasis. However, estrogens do not appear to be essential for fetal survival, placental growth, or female sexual differentiation.

Comparison of final heights of growth hormone-treated vs. untreated children with idiopathic growth failure.

We measured adult heights (Ht) of 94 healthy GH-sufficient children (peak GH > 10 ng/mL, polyclonal RIA) whose Ht at presentation were more than 2 SD below the mean for chronological age, with normal weight-to-Ht ratios, normal body proportions, and pathologic growth velocity for chronological age. Group 1 (n 36, 6 females) received standardized doses (0.3 mg/kg x week) of GH (mean duration = 41 months), while group 2 (n = 58, 17 females) received no treatment. Our conclusion was that the mean final Ht SD score in the GH-treated group (-1.5) was significantly greater than in the untreated group (-2.1); P < .001. Genetic predisposition to short stature was evident in both groups: the midparental Ht SD score was -1.1 in the treated and -1.0 in the untreated group. Midparental Ht was met or exceeded by 42% of the GH-treated group but only 15% of the untreated group. Final Ht was not significantly different from predicted Ht, except from GH-treated girls, who exceeded their predicted Ht. Although the mean Ht gains (6.8 cm in girls and 3 cm in boys) were modest and variable, GH treatment provided significantly better Ht outcomes for the majority of children with idiopathic growth failure.

Quality of life among formerly treated childhood-onset growth hormone-deficient adults: a comparison with unaffected siblings.

Several studies have investigated the quality of life (QOL) of GH-deficient (GHD) adults who, as children, had been treated with GH. Variable findings are probably related to sample heterogeneity and disparate research methodologies and designs, particularly the choice of control or comparison groups. In addition to comparing a relatively large sample to questionnaire norms, the present study is the first to compare the QOL adjustment of GHD patients to that of same sex siblings. A total of 140 former patients (76% of those eligible; mean age, 26 yr; n = 95 isolated GHD, n = 45 multiple pituitary hormone deficiencies; 117 males and 23 females) and 53 same sex siblings (84% participation), 18 yr and older, participated in the telephone questionnaire survey. The majority of interviews with GHD patients (78%) and siblings (87%) were conducted blind to the subject's clinical status. Comparisons between GHD patients and norms for standardized questionnaires indicated both better and worse functioning in several domains. In contrast, very limited differences were detected between GHD cases and same sex siblings. Isolated GHD patients were functioning better than those with multiple pituitary hormone deficiencies, but the effect sizes of these differences in most areas were relatively small. Adult height and degree of growth over the course of GH therapy were generally unrelated to QOL outcomes. Findings from the present study underscore the importance of selecting unbiased control/comparison groups in evaluating psychological outcomes among GHD adults.

A risk-benefit assessment of growth hormone use in children.

Growth hormone prepared by recombinant DNA technology (somatropin) has been commercially available for over 11 years. More than 38,000 children have been treated with different growth hormone products. While the best response to treatment occurs in children with severe growth hormone deficiency, therapy with growth hormone will increase the rate of statural growth in children with short stature of many different aetiologies. There are few studies of the effect of growth hormone treatment of final adult height, and the magnitude of this effect is harder to gauge, particularly in children with idiopathic short stature. Other benefits of growth hormone treatment in children include improvement in psychosocial functioning and physiological parameters, such as bone mineral density. Adverse effects associated with growth hormone treatment have been relatively uncommon. Most of the safety data on growth hormone have come from large postmarketing databases maintained by 2 pharmaceutical companies. The adverse event profile reported in children treated with growth hormone is different from that found in adults. Peripheral oedema and carpal tunnel syndrome, which are common in adults treated with growth hormone and frequently result in treatment discontinuation, are rare in children. Intracranial hypertension is rare, but can occur in children with growth hormone deficiency, Ullrich-Turner syndrome or renal insufficiency during the first 8 to 12 weeks after the start of growth hormone treatment; it has seldom been reported in adults with growth hormone deficiency. Children with growth hormone deficiency, Ullrich-Turner syndrome or renal insufficiency are prone to develop slipped capital femoral epiphyses both before and during growth hormone treatment. Therefore, limping and complaints of hip or knee pain should be carefully investigated.

Outcome of a four-year randomized study of daily versus three times weekly somatropin treatment in prepubertal naive growth hormone-deficient children. Genentech Study Group.

A comparison was made of the growth responses of prepubertal naive GH-deficient children who were randomly assigned to receive 0.3 mg/kg.week recombinant human GH administered either daily (QD) or three times weekly (TIW) over 4 yr. The effects of the two regimens on annual growth velocity, change in height SD score, bone maturation, and age at onset of puberty are presented as the mean +/- SD. During each of the 4 yr, the annual growth velocity was significantly greater in the QD vs. TIW group. At 48 months, the mean total gain in height was 9.7 cm greater in the QD group (38.4 +/- 5.5) than that in the TIW group 28.7 +/- 3.2; P = 0.0002). The mean height SD score at the end of each year was significantly greater in the QD group. After 4 yr, the total gain in height SD score was 3.2 +/- 1.2 in the QD group compared to 1.5 +/- 0.5 in the TIW group (P = 0.0003). The height SD score at 4 yr was 0.2 in the QD group (pretreatment, -2.9) compared to -1.4 in the TIW group (pretreatment, -2.9). After 4 yr of rhGH treatment, the increment in bone age was similar in the QD (4.9 +/- 1.0 yr) and TIW (4.8 +/- 1.1 yr) groups. The change in height age minus the change in bone age was more favorable in the QD (1.2 +/- 0.8 yr) than in the TIW (0.0 +/- 0.9 yr) group (P = 0.003). The mean age at onset of puberty in boys was the same in the QD (13.2 yr) and TIW (13.0 yr) groups (P = 0.71), and the mean bone age at the start of puberty was also similar (11.5 in QD and 11.3 in TIW groups; P = 0.66). The advantages of QD rhGH treatment in prepubertal GH-deficient children after 4 yr were additional gains of 1.7 height SD score and 9.7 cm in height over those treated with the TIW regimen (P = 0.0002).

Outcome of lower L-thyroxine dose for treatment of congenital hypothyroidism.

The appropriateness of the recommended L-thyroxine dose (10-15 micrograms/kg/day) for the treatment of congenital hypothyroidism has been questioned because of the risk of iatrogenic hyperthyroidism. We report the outcome of 23 newborns with congenital primary hypothyroidism treated with 25 micrograms L-thyroxine per day (5.3-9.2 micrograms/kg/day) and followed for an average of 59 months. Serum thyroxine (T4) values increased (X = 11.4 +/- 2.7 micrograms/dL) within 4 weeks posttherapy; eight infants had T4 levels > or = 13 micrograms/dL on only half the currently recommended dose. Thyroid-stimulating hormone (TSH) values remained elevated in 18 of 21 patients for 2-21 months despite a high-normal T4. Psychometric tests were performed in 19 of the 23 patients. The mean Full Scale IQ for the congenital hypothyroid group (n = 16) was 101.4 +/- 13.2 with comparable Verbal and Performance IQ scores. Patients with a bone age (BA) of < or = 32 weeks or T4 < 2 micrograms/dL at initial evaluation had significantly Lower Verbal IQ scores. A standardized parent-report assessment of behavioral and emotional functioning revealed subgroup scale scores that were indistinguishable from nonclinical norms. We conclude that (1) average range IQ scores and positive behavioral adaptation are observed in congenitally hypothyroid children treated with L-thyroxine doses lower than currently recommended; (2) the L-thyroxine dose should be individualized to prevent iatrogenic hyperthyroidism; (3) TSH normalization should not be a primary objective of treatment, and (4) a prospective study comparing the advantages and risks of different doses of L-thyroxine is needed.

Blunted adrenarche in patients with classical congenital adrenal hyperplasia due to 21-hydroxylase deficiency.

Dehydroepiandrosterone sulfate (DHEAS) concentration levels were measured by a specific RIA in 23 female and 7 male patients with classical congenital adrenal hyperplasia (CAH) salt-losing type due to steroid 21-hydroxylase (21-OH) deficiency. The patients were divided into four groups by age and the DHEAS concentrations (mean +/- SD; micrograms/dl) for each age group were: 5 to 8 years (10.2 +/- 6.5; range 5-23 micrograms/dl); 8 to 10 years (18.3 +/- 14.9; range 5-44 micrograms/dl); 10 to 18 years (41.9 +/- 40; range 5-160 micrograms/dl); and above 18 years (49.7 +/- 65.9; range 9 to 242 micrograms/dl). These DHEAS levels were compared to age-matched normal values and it was found that DHEAS concentrations in 29 of the 30 patients were less than or in the lower part of the normal range for all age groupings. The DHEAS levels did not correlate with 17 alpha-hydroxyprogesterone (17-OHP), androstenedione, and testosterone values. The data indicate that blunted adrenarche occurs in classical CAH patients with 21-OH deficiency.

Effect of dietary protein intake on renal growth: possible role of insulin-like growth factor-I.

Insulin-like growth factor-I (IGF-I) has been implicated as a possible mediator of renal hypertrophy after uninephrectomy and diabetes mellitus. Because renal hypertrophy is also a consequence of high protein intake, we studied the effect of varying concentrations of dietary protein on circulating levels and renal tissue content of IGF-I. Male Sprague-Dawley rats were fed isocaloric diets containing high (50%, HP), normal (20%, NP) or low (6%, LP) dietary protein for up to 14 days before they were killed. As expected, renal size (dry kidney weight) was greater in HP-fed rats and smaller in LP-fed rats when compared with NP-fed animals (HP, 1415 +/- 26 mg [p < 0.01 vs NP]; NP, 1148 +/- 27 mg; LP, 838 +/- 16 mg [p < 0.01 vs NP]), and most of the relative changes in kidney size occurred during the first week of ingestion of the experimental diet. Renal hypertrophy in the HP-fed animals was accompanied at day 3 by a significant rise in kidney tissue IGF-I that remained elevated at day 7 but had fallen to baseline values by day 14. The rise in renal IGF-I content in the HP-fed rat was accompanied by increases in circulating IGF-I on day 3 only. Both circulating and renal tissue IGF-I levels were suppressed in the LP-fed animals at 3, 7, and 14 days. These data confirm that varying dietary protein intake has profound effects on both circulating and renal IGF-I levels.(ABSTRACT TRUNCATED AT 250 WORDS)

Urinary insulin-like growth factor-II excretion in healthy infants and children with normal and abnormal growth.

The output of urinary IGF-II was measured by RIA in 12-h overnight urine samples obtained from 22 preterm and 15 full-term infants, 40 normal children, 18 children with growth hormone (GH) deficiency, and 25 patients with idiopathic short stature. GH deficiency was defined as a peak to GH provocative tests < or = 9.9 micrograms/L during two provocative tests. The authenticity of urinary IGF-II was confirmed by size exclusion chromatography. Statistical analysis was performed by one-way analysis of variance using the Student Neuman-Keuls test to detect intergroup differences at the level of p < 0.05. The preterm and full-term infants excreted significantly higher amounts of urinary IGF-II (18.4 +/- 1.7 and 5.7 +/- 1.0 pmol/kg, respectively) compared with normal children (2.4 +/- 0.25 pmol/kg; p < 0.001). The output of urinary IGF-II in preterm infants was greater than that observed in full-term infants (F = 84.7, p < 0.001). The control children excreted significantly more IGF-II (2.4 +/- 0.2 pmol/kg) than children with GH deficiency (0.9 +/- 0.1 pmol/kg) or idiopathic short stature (1.0 +/- 0.1 pmol/kg; F = 13.5; p < 0.001). Analysis of urinary IGF-II excretion based on creatinine output yielded similar results. Data on urinary IGF-I and GH previously published were correlated and compared with the excretion pattern of urinary IGF-II.(ABSTRACT TRUNCATED AT 250 WORDS)

Psychosexual behavior in hypopituitary men: a controlled comparison of gonadotropin and testosterone replacement.

Nine gonadotropin-deficient hypopituitary men were cycled through periods of treatment with testosterone (T), gonadotropin (Gn), and placebo (Pl) using a blind cross-over design. Self-reports of sexual behavior, recordings of nocturnal penile tumescence (NPT), and sex steroid levels were obtained during each treatment period. Subjects had significantly higher plasma T during the T and Gn treatments than during the control periods. Similarly, self-reported frequency of ejaculation and ratings of libido as well as duration measures of NPT were significantly higher on T and Gn. Two thirds of the sample had no sociosexual experience. Behavioral differences between the T and Gn periods were minimal. These data support the hypothesis that Gn and T are equally effective in stimulating specific aspects of male psychosexual behavior.

Urinary growth hormone and insulin-like growth factor I. Effects of growth-hormone injection schedule.

Urinary growth hormone (GH) and insulin-like growth factor I (IGF-I) excretion profiles were compared in children receiving biosynthetic GH. Group 1 included 18 healthy controls. Group 2 included nine children given biosynthetic GH three times a week. Group 3 included 14 children given daily GH injections. Overnight urine samples were collected for three consecutive nights in all groups. No significant day-to-day variation in urinary GH output was observed in group 1. In group 2, urinary GH output was significantly higher on day one following injection than on days two and three. Urine GH outputs in group 2 were significantly lower on days two and three than the values observed on all days in group 3. Throughout the three-day study, subjects in group 3 excreted similar amounts of GH significantly higher than those of controls. Urinary IGF-I output (nmol/kg) was similar on all three study days in groups 1 and 3. Group 2 had significantly lower urinary IGF-I output on day three compared with day one. Urinary IGF-I output on day three was also significantly lower in group 2 than in group 3. We conclude that urinary GH and IGF-I outputs are influenced by the frequency of GH administration.

Urinary excretion of IGF-I and growth hormone in children with IDDM.

OBJECTIVE: To compare the urinary output of insulinlike growth factor I (IGF-I) and growth hormone (GH) in prepubertal and pubertal children with insulin-dependent diabetes mellitus (IDDM) versus nondiabetic subjects and to analyze the relationship between the urinary excretion of these peptides and degree of metabolic control. RESEARCH DESIGN AND METHODS: Group 1 included 30 IDDM patients who had had diabetes for 4.9 +/- 0.7 yr and had normal renal function (mean age 11.6 +/- 0.9 yr); group 2 consisted of 31 control subjects (mean age 9.2 +/- 0.6 yr). Sensitive radioimmunoassays were used to measure IGF-I and GH in urine aliquots from 12-h timed overnight collections that had been dialyzed, concentrated 50-fold, and lyophilized. RESULTS: Significantly lower IGF-I and GH outputs per kilogram body weight per 12 h were observed in IDDM subjects compared with control subjects. When data were expressed per kilogram of body weight, no difference was observed between the urinary output of IGF-I and GH between prepubertal and pubertal subjects within group 1 or group 2. The prepubertal children had significantly lower HbA1 than the pubertal population; however, no correlation was found between urinary output of IGF-I or GH and HbA1. A positive correlation was observed between urinary IGF-I and GH (r = 0.85, P less than .001). CONCLUSIONS: Patients with long-standing IDDM excrete significantly lower urinary levels of IGF-I and GH compared with normal subjects. Serial measurements of these peptides from onset of IDDM are needed to define whether the changes observed are present at diagnosis or are secondary to duration of disease.

Identification of a splice-site mutation in the human growth hormone-variant gene.

The human growth-hormone-variant (hGH-V) gene normally expresses two alternatively spliced forms of mRNA--hGH-V and hGH-V2--in the placenta. hGH-V2 mRNA differs from hGH-V rDNA by the retention of intron 4 and represents approximately 15% of transcripts at term. In a survey of hGH-V gene expression in 20 placentas of gestational age 8-40 wk, we detected a single placenta that contained, in addition to the two normal hGH-V mRNA species, a set of two slightly larger hGH-V mRNAs. Sequence analysis of the elongated hGH-V mRNA demonstrated retention of the first 12 bases of intron 2, resulting from both a base substitution at the intron 2 splice-donor dinucleotide (GT----AT) and activation of a cryptic splice-donor site 12 bases downstream. Survey of a total of 60 additional chromosomes failed to reveal additional incidence of this mutation. The mutation, which we have designated hGH-Vintron 2, pos 1 (G----A), represents both an initial example of a nondeletional mutation within the hGH-V gene and corresponding structural alteration in the encoded hGH-V hormone.