Volume regulation and renal function at high altitude across gender.

AIMS: We investigated changes in volume regulating hormones and renal function at high altitudes and across gender. METHODOLOGY: Included in this study were 28 subjects (n = 20 males; n = 8 females. ages: 19 - 65 yrs), who ascended to a height of 3440m (HA1), on the 3rd day and to 5050m (HA2), on the 14th day. Plasma and urinary creatinine and urinary osmolality as well as plasma levels of plasma renin activity (PRA), Aldosterone, antidiuretic hormone (ADH), and atrial natriuretic peptide (ANP) were measured. The plasma volume loss (PVL) was estimated from plasma density and hematocrit. Glomerular filtration rate (GFR) was measured based on nocturnal (9 hour) creatinine clearance; this was compared with various methods for estimation of GFR. RESULTS: The mean 24-hour urine production increased significantly in both sexes across the expedition. But PVL reached significance only in males. No changes in Na+ in plasma, urine or its fractional excretion were seen at both altitudes. Urinary osmolality decreased upon ascent to the higher altitudes. ADH and PRA decreased significantly at both altitudes in males but only at HA2 in females. However, no changes in aldosterone were seen across the sexes and at different altitudes. ANP increased significantly only in males during the expedition. GFR, derived from 9-h creatinine clearance (CreaCl), decreased in both sexes at HA1 but remained stable at HA2. Conventional Crea[p]-based GFR estimates (eGFR) showed only poor correlation to CreaCl. CONCLUSIONS: We report details of changes in hormonal patterns across high altitude sojourn. To our knowledge we are not aware of any study that has examined these hormones in same subjects and across gender during high altitude sojourn. Our results also suggest that depending on the estimation formula used, eGFR underestimated the observed decrease in renal function measured by CreaCl, thus opening the debate regarding the use of estimated glomerular filtration rates at high altitudes.

Adaptation of ghrelin and the GH/IGF axis to high altitude.

OBJECTIVE: High altitude (HA) provokes a variety of endocrine adaptive processes. We investigated the impact of HA on ghrelin levels and the GH/IGF axis. DESIGN: Observational study as part of a medical multidisciplinary project in a mountainous environment. METHODS: Thirty-three probands (12 females) were investigated at three timepoints during ascent to HA (A: d -42, 120 m; B: d +4, 3440 m; C: d +14, 5050 m). The following parameters were obtained: ghrelin; GH; GH-binding protein (GHBP); IGF1; IGF2; IGF-binding proteins (IGFBPs) -1, -2, and -3; acid-labile subunit (ALS); and insulin. Weight was monitored and general well being assessed using the Lake Louise acute mountain sickness (AMS) score. RESULTS: Ghrelin (150 VS 111PG/ML; P0.01) and GH (3.4 VS 1.7G/L; P0.01) were significantly higher at timepoint C compared with A whereas GHBP, IGF1, IGF2, IGFBP3, ALS, and insulin levels did not change. IGFBP1 (58 VS 47G/L; P0.05) and, even more pronounced, IGFBP2 (1141 VS 615G/L; P0.001) increased significantly. No correlation, neither sex-specific nor in the total group, between individual weight loss (females: -2.1 kg; males: -5.1 kg) and rise in ghrelin was found. Five of the subjects did not reach investigation point C due to AMS. CONCLUSIONS: After 14 days of exposure to HA, we observed a significant ghrelin and GH increase without changes in GHBP, IGF1, IGF2, IGFBP3, ALS, and insulin. Higher GH seems to be needed for acute metabolic effects rather than IGF/IGFBP3 generation. Increased IGFBP1 and -2 may reflect effects from HA on IGF bioavailability.

Mutations and pituitary morphology in a series of 82 patients with PROP1 gene defects.

BACKGROUND/AIMS: Defects of the PROP1 gene are the most prevalent genetic cause of combined pituitary hormone deficiency. Previous observations in affected patients have shown pituitary size ranging from hypoplasia to overt pituitary mass and evolution of size over the lifespan. METHODS: We evaluated pituitary size and morphology in PROP1-mutation carriers who originated from Central and Eastern Europe. We analyzed 112 pituitary magnetic resonance imaging (MRI) scans from 82 patients (42 males) aged 2.5-72.7 (median 16.6) years from 60 kindreds. RESULTS: Among the 120 independent PROP1 alleles, the most prevalent mutations were delGA301/302 (99 alleles) and delA150 (13 alleles). Median pituitary height at first MRI was 4.7 mm (range 1.0-20.7) and median volume was 127.6 mm(3) (range 7.5-3,087.0). Pituitary size did not differ between sexes and did not correlate with hormonal phenotype, but significantly decreased with increasing age. However, evaluation of individual values suggested a biphasic mode with increasing volume during childhood, peak in adolescence, and subsequent regression in adulthood. CONCLUSION: Although pituitary size was increased in a number of PROP1-deficient patients, none of them suffered permanent damage from pituitary mass; therefore, any proposed surgery should be postponed as long as possible and ultimately may not be necessary due to the self-limiting nature of the pituitary enlargement.

Brain natriuretic peptide at altitude: relationship to diuresis, natriuresis, and mountain sickness.

BACKGROUND: Acute mountain sickness (AMS) affects some new arrivals above an altitude of 2500 m. Hypobaric hypoxia is known to produce diuresis and has natriuretic effects due to the release of natriuretic peptides. We tested the hypothesis that increases in brain natriuretic peptide (BNP) at altitude correlates with increased urination and natriuresis as well as symptomatic AMS. METHODS: Subjects were 14 mountaineers who undertook a Himalayan expedition that began at 100 m and passed through 3440 m en route to a final altitude of 5050 m. We measured the severity of AMS (Lake Louise Score), BNP values, nocturnal urine volume, and urine sodium concentration. RESULTS: Nocturnal urine volume increased from 490 +/- 90 mi at 3440 m to 1100 +/- 104 ml at 5050 m. BNP levels at the higher altitude were 10.6 +/- 4.7 pg x ml(-1) and were correlated with the severity of AMS in all mountaineers (Lake Louise Score 4 +/- 0.5 for AMS subjects). However, AMS severity did not correlate with urine volume or urine sodium concentration. CONCLUSIONS: Our results suggest that BNP secretion is not the cause of high-altitude diuresis. Further studies are needed to evaluate the possible role of BNP in individual responses to high altitude.

Refining clinical phenotypes in septo-optic dysplasia based on MRI findings.

Septo-optic dysplasia (SOD) is a heterogeneous brain midline anomaly associated with ophthalmological, endocrinological, and/or neurodevelopmental symptoms. The clinical phenotype correlates with abnormal brain magnetic resonance imaging (MRI) findings. However, variations of the septum pellucidum (SP) appearance and their clinical impact have not been studied in depth. Sixty-eight patients with optic nerve hypoplasia (ONH) were investigated for the presence of associated SP anomalies and correlations between clinical findings and their MRI abnormalities established. Thirty patients had either complete (n = 22) or partial (n = 8) absence of the SP. Pituitary hormone deficiencies were present in 64% or 25% of the cases, respectively. Neurological symptoms did not occur in patients with SP remnants or unilateral ONH. Hippocampus abnormalities (43%) that have not been described before in SOD and falx abnormalities (17%) correlated significantly with neurological symptoms and developmental delay (p < 0.05 and p < 0.01, respectively). Maternal age at birth was low (21.2 years) and drug abuse during pregnancy was reported in 27% of the patients. Twelve patients with pituitary anomaly and ONH but normal SP showed similar clinical and MRI features, and were classified as SOD-like. The remaining 26 patients were not assigned to SOD. We conclude that unilateral ONH and SP remnants are associated with a milder SOD phenotype. Hippocampus abnormalities and falx abnormalities seem to constitute important features of severe clinical disease, irrespective of SP appearance. Our anamnestic data support the hypothesis of vascular disruption during embryogenesis.

Primary growth hormone (GH) insensitivity and insulin-like growth factor deficiency caused by novel compound heterozygous mutations of the GH receptor gene: genetic and functional studies of simple and compound heterozygous states.

CONTEXT: Primary GH insensitivity (GHI) or Laron syndrome, caused by mutations of the GH receptor (GHR) gene, has a clinical phenotype of postnatal growth failure associated with normal elevated serum concentrations of GH and low serum levels of IGF-I. OBJECTIVE: We investigated the clinical and biochemical implications of molecular defects in the GHR gene in an Austrian family with two daughters who were GHI. PATIENTS: Patient 1 [height, -4.8 sd score (SDS)] and patient 2 (height, -5.0 SDS) had elevated circulating levels of GH, low-normal levels of GH-binding protein, and abnormally low IGF-I (-5.0 SDS and -2.6 SDS, respectively) and IGF-binding protein-3 (-2.6 SDS and -2.0 SDS, respectively). RESULTS: Both patients carry novel compound, missense, heterozygous GHR mutations, C94S and H150Q. In vitro reconstitution experiments demonstrated that whereas each of the mutants could be stably expressed, GHR(C94S) lost its affinity for GH and could neither activate signal transducer and activator of transcription (STAT)-5b nor drive STAT5b-dependent gene transcription in response to GH (1-100 ng/ml). GHR(H150Q) showed normal affinity for GH but impaired capacity for signal transduction. The compound heterozygote and C94S heterozygote, but not the H150Q heterozygote, showed significant deficiency in activating GH-induced gene expression, corroborating diminished GH-induced STAT5b activation in fibroblasts carrying GHR(C94S) as either a compound heterozygote (in the patients) or a simple heterozygote (in one parent). CONCLUSIONS: Each of the compound heterozygous mutations contributed additively to the pathological condition seen in the patients, and the more detrimental of the two mutations, C94S, may cause (partial) primary GHI, even in a heterozygous state.

Effects of growth hormone (GH) and insulin-like growth factor-I therapy in patients with gene defects in the GH axis.

We report on four patients (3 F) who were diagnosed as having either a 6.7 kb GH1 gene deletion, a GH1 signalling peptide mutation, or a GH receptor mutation, with particular regard to treatment modalities (GH, rhIGF-I) and final height. Patients with GH1 gene defects developed anti-GH antibodies (GH-Ab) following GH treatment. Surprisingly, growth response to GH was unrestricted in one girl, who reached a final height within her target height range, whereas her cousin with the identical genetic defect responded far less favourably. Variability in the growth inhibiting potency of GH-Ab may therefore depend on genetic disposition, specific epitopes, or induction of immunological tolerance. Growth response during rhIGF-I treatment carried out in three of the patients was moderate, but pubertal development and bone age acceleration occurred in the two patients treated at pubertal age. GH resistance, either caused by GH-Ab or GH receptor mutations, is still difficult to treat and results in a heterogeneous outcome.

Total absence of functional acid labile subunit, resulting in severe insulin-like growth factor deficiency and moderate growth failure.

CONTEXT: Primary IGF deficiency (IGFD) describes the condition in which serum concentrations of IGF-I are low in the face of normal to elevated GH production. Because IGF-I, which circulates as part of a ternary complex with IGF binding protein (IGFBP)-3 and acid-labile subunit (ALS), mediates the growth-promoting effects of GH, IGFD is associated with severe growth failure in humans. OBJECTIVE: We investigated a case of IGFD in which serum IGF-I and IGFBP-3 were abnormally low, yet growth failure was modest (-2.1 sd score at 15.5 yr of age). RESULTS: The young male subject, from a consanguineous pedigree, had a postnatal growth profile consistently below the third percentile. The subject had a normal fasting GH level of 3.7 muU/ml and normal serum GH binding protein level (1258 pmol/liter; normal range 431-1892 pmol/liter), but serum IGF-I and IGFBP-3 were profoundly reduced (-5.8 and -7.2 sd score, respectively, at age 12.3 yr), even through puberty. A novel homozygous missense mutation was subsequently identified in the ALS gene, which resulted in severe deficiency of serum ALS (undetectable). CONCLUSIONS: ALS is critical for maintaining normal serum concentrations of IGF-I and IGFBP-3, most likely by prolonging the half-lives of both proteins. ALS deficiency can be associated with moderate growth failure, but in this patient, the onset and progression of puberty appear to be normal. Altogether the results support a modest role for the ternary complex in the regulation of stature.

Death in two female Prader-Willi syndrome patients during the early phase of growth hormone treatment.

UNLABELLED: Reports on sudden death in Prader-Willi syndrome (PWS) patients after the start of growth hormone (GH) treatment have been published recently. We observed a 4.7-y-old girl who showed a continuous increase in pulmonary artery pressure and died of cardiorespiratory failure 7 wk after GH therapy had been initiated, and a 9.3-y-old girl with additional trisomy 21 who died during a minor respiratory infection 6 mo after GH had been started. Both patients were overweight (weight for height 127% and 224%, respectively). GH-induced fluid retention may have occurred in the younger girl. In contrast to the reported cases, our PWS patients were female. CONCLUSION: Our cases illustrate the difficulty of differentiation between possible GH side effects and the natural course of disease, in particular with respect to obesity-related comorbidity and mortality.

Estimation of the false-negative rate in newborn screening for congenital adrenal hyperplasia.

OBJECTIVE: Newborn screening based on measurement of 17alpha-hydroxyprogesterone (17-OHP) in a dried blood spot on filter paper is an effective tool for early diagnosis of congenital adrenal hyperplasia (CAH) due to 21-hydroxylase deficiency. Its most important rationale is prevention of a life-threatening salt-wasting (SW) crisis; in moderate forms of CAH, early diagnosis and treatment may prevent permanent negative effects of androgen overproduction. Our target was to analyse if all CAH patients who had been identified clinically before puberty would have been detected by the newborn screening. METHODS: Newborn screening cards of 110 CAH patients born between 1988 and 2000 in five Middle-European countries and diagnosed prior to puberty (77 SW and 33 moderate) and cards from 920 random, healthy newborn controls were analysed. CAH screening had not yet been introduced during this time. The diagnosis was based on clinical and laboratory signs and, in most cases, on CYP21 gene mutation analysis. All 17-OHP measurements in dried blood spots were carried out using a time-resolved fluoroimmunoassay kit. RESULTS: In the newborn screening blood spots, the median of 17-OHP levels was 561 nmol/l (range 91-1404 nmol/l) in subjects with the SW form and 40 nmol/l (4-247 nmol/l) in the moderate form. All 77 SW patients would have been detected by newborn screening using the recommended cut-off limits (30 nmol/l). However, 10 of 33 patients with moderate CAH would have been missed. 17-OHP levels of all controls were below the cut-off. CONCLUSION: Newborn screening is efficient for diagnosing the SW form of CAH, but is inappropriate for identifying all patients with a moderate form of CAH. It appears that the false-negative rate is at least one-third in children with the moderate form of CAH.

Growth hormone (GH) treatment to final height in children with idiopathic short stature: evidence for a dose effect.

OBJECTIVES: To investigate in an open-label randomized study, the effect of two doses of growth hormone (GH) on final height and height velocity during the first 2 years of treatment of children with idiopathic short stature (mean baseline height standard deviation score [SDS] -3.2). STUDY DESIGN: Patients were treated with GH at 0.24 mg/kg/week, 0.24 mg/kg/week for the first year and at 0.37 mg/kg/week thereafter (0.24-->0.37), or 0.37 mg/kg/week. Final height was evaluated in 50 patients at study completion (mean treatment duration, 6.5 years). RESULTS: Patients who received 0.37 mg/kg/week (n = 72) experienced a significantly greater increase in height velocity than those who received 0.24 mg/kg/week (n = 70) (treatment difference = 0.8 cm/year; P = .003) or 0.24-->0.37 mg/kg/week (n = 67) (treatment difference = 0.9 cm/year; P = .001). For the 50 patients for whom final height measurements were available, mean height SDS increased by 1.55, 1.52, and 1.85 SDS, respectively, for the three dose groups. For the primary comparison between the 0.37 mg/kg/week and 0.24 mg/kg/week dose groups, the mean treatment difference (adjusted for differences in baseline predicted height SDS) was 0.57 SDS (3.6 cm; P = .025). Mean overall height gains (final height minus baseline predicted height) were 7.2 cm and 5.4 cm for the 0.37 mg/kg/week and 0.24 mg/kg/week dose groups, respectively, without dose effects on safety parameters. Final height measurements were within the normal adult height range for 94% of patients randomized to 0.37 mg/kg/week who continued to final height. CONCLUSION: GH treatment dose-dependently increases height velocity and final height in children with idiopathic short stature.

Increase in 6-hydroxymelatonin excretion in humans during ascent to high altitudes.

Melatonin (MLT), the pineal gland hormone involved in the regulation of circadian rhythms, shows characteristic diurnal variation. Its physiological role in humans is not clear. Exposure to high altitudes may disrupt the circadian rhythm and lead to various endocrine changes. MLT in humans has not been studied under these conditions. Urinary 6-hydroxy-MLT sulfate (aMT6s) excretion was analyzed during the day (0700-2200 h) and night (2200-0700 h) phases. A cohort of 33 healthy volunteers, aged 19-65 yr, was studied during an ascent to a high altitude in the Himalayas on three occasions (at a lower altitude, at 3400 m, and after reaching maximal altitudes of 5600-6100 m). aMT6s excretion during the daytime remained unchanged during exposure to high altitudes. As expected, nocturnal values were higher than diurnal values at each point in time. However, there was a significant increase in nocturnal MLT excretion after the ascent to high altitudes. Ascent to high altitudes is associated with increased nocturnal excretion of aMT6s. The mechanism and physiological significance of this MLT increase are unclear.

SHOX haploinsufficiency and Leri-Weill dyschondrosteosis: prevalence and growth failure in relation to mutation, sex, and degree of wrist deformity.

SHOX mutations causing haploinsufficiency were reported in Leri-Weill dyschondrosteosis (LWD), which is characterized by mesomelic short stature and Madelung deformity of the wrists. The aim of this study was to determine the prevalence of SHOX mutations in LWD and to investigate the degree of growth failure in relation to mutation, sex, age of menarche, and wrist deformity. We studied 20 families with 24 affected children (18 females) and nine affected parents (seven females). All patients presented with bilateral Madelung deformity and shortening of the limbs. Height, sitting height, parental height, birth length, age of menarche, and presence of minor abnormalities were recorded. The degree of Madelung deformity was estimated by analysis of left hand radiographs. Microsatellite typing of the SHOX locus was used for detection of SHOX deletions and PCR direct sequencing for the detection of SHOX point mutations. In 14 of 20 families (70%), SHOX mutations were detected, with seven deletions (four de novo) and seven point mutations (one de novo). The latter included five missense mutations of the SHOX homeodomain, one nonsense mutation (E102X) truncating the whole homeodomain, and one point mutation (X293R) causing a C-terminal elongation of SHOX. Median age of the affected children was 13.4 yr (range, 6.1-18.3), mean height sd score (SDS) (sd in parentheses) was -2.85 (1.04), and mean sitting height/height ratio SDS was +3.06 (1.09). Mean birth length SDS was -0.59 (1.26). Growth failure occurred before school age. Height change during a median follow-up of 7.4 yr (range, 2.3-11.3) was insignificant with a mean change in height SDS of -0.10 (0.52). Mean height SDS of affected parents was -2.70 (0.85) vs. -0.91 (1.10) in unaffected parents. Height loss due to LWD was estimated calculating delta height defined by actual height SDS minus target height SDS of the unaffected parent(s). In the children, mean delta height SDS was -2.16 (1.06), the loss being greater in girls at -2.30 (1.02) than in boys at -1.72 (1.09) (P = 0.32). In patients with SHOX deletions, it was -2.14 (1.15) vs. -1.67 (0.73) for the SHOX point mutation group (P = 0.38). Mean delta height SDS was -2.26 (0.68) for the girls with early menarche (<12 yr) vs. -2.08 (0.91) for the other postmenarcheal girls (P = 0.72). Height loss in patients with radiologically severe wrist deformities in comparison with those having milder radiological signs was -2.81 (1.01) vs. -1.70 (1.04) (P = 0.03). GH treatment in five children during a median duration of 3.4 yr (range, 1.5-9.8 yr) with a median dosage of 0.23 mg/kg.wk (range, 0.14-0.25) resulted in a mean height SDS gain of +0.82 (0.34). In conclusion, SHOX defects were the main cause of LWD. Growth failure occurred during the first years of life with a mean height loss of 2.16 SDS whereas pubertal growth may only be mildly or not affected. Children with a severe degree of wrist deformity were significantly shorter than those with mild deformities. No statistically significant effects of type of mutation, age of menarche, or sex on height were observed. The effect of GH therapy varied between individuals and needs to be examined in controlled studies.

Effects of 12 months of recombinant growth hormone therapy on parameters of bone metabolism and bone mineral density in patients on chronic hemodialysis.

BACKGROUND: Renal osteodystrophy is common in patients with chronic renal failure (CRF) on hemodialysis (HD), leading to reduced bone mineral density (BMD) and higher bone fracture incidences. Since growth hormone (GH) and insulin-like growth factor 1 (IGF-1) are known to enhance bone metabolism and BMD, and CRF patients exhibit GH and IGF-1 resistance, recombinant human GH (rhGH) therapy could be beneficial for these patients. METHODS: This study evaluated the effects of a 12-month rhGH therapy on bone metabolism parameters; alkaline phosphatase (AP), osteocalcin (OC), procollagen I carboxyterminal propeptide (PICP), telopeptide ICTP, serum crosslaps, n-terminal propeptide of type III procollagen (PIIINP) and intact parathyroid hormone (iPTH), as well as on BMD of the lumbar spine and the femoral neck in 19 malnourished HD patients (10 females, 9 males) with a mean age of 59.3 +/- 13.4 yrs. Fourteen patients completed the 12-month study. RhGH (0.25 IU/kg) was given subcutaneously 3x/week after each dialysis session. RESULTS: IGF-1 concentrations rose significantly from 169.2 +/- 95.6 to 262.9 +/- 144.4 ng/mL (p<0.01) after 3 months, followed by a slight decline over the next 9 months. PICP as a bone formation marker significantly increased after 3 months from 250.1 +/- 112.6 to 478.5 +/- 235.2 ug/L (p<0.01), as well as PIIINP, whereas OC and bone resorption parameters like ICTP showed only a slight increase (ICTP: 50.3 +/- 18.5 to 70.0 +/- 39.5 ug/L after 3 months (ns)). All bone metabolism parameters slightly declined in the following 9 months, but remained above baseline values after 12 months. PTH rose from 198.0 +/- 139.2 to 456.0 +/- 268.7 ng/ml, p<0.01 after 6 months. BMD of the lumbar spine showed a significant reduction after 3-month rhGH therapy (0.80 +/- 0.17 vs. 0.77 +/- 0.16 g/cm2, p<0.01), but returned to baseline values after 12 months. BMD of the femoral neck remained stable during the entire study. CONCLUSIONS: In summary, 12-month rhGH treatment in patients on chronic HD caused a significant increase in IGF-1, together with an increase in bone turnover. In addition, there was a temporary reduction in BMD of the lumbar spine seen, which returned to baseline values after 12 months.

Neurofibromatosis 1: a novel NF1 mutation in an 11-year-old girl with a giant cell granuloma.

We report an 11-year-old girl who presented with a painless unilateral enlargement of the nasal bridge. Because of multiple café-au-lait spots and a positive family history, neurofibromatosis 1was diagnosed. On a computed tomographic scan, a unilocular radiolucency measuring 1.2 x 2 cm was seen in the anterior wall of the maxillary sinus, which was surgically removed. Histology revealed a central giant cell granuloma. Hyperparathyroidism, which can present with an osseous tumor and similar histology, was excluded. Molecular analysis uncovered a novel splice mutation (A4268G) in this neurofibromatosis 1 family, affecting our patient as well as her mother and brother. This article focuses on the variability of the neurofibromatosis 1 phenotype in this family and the possible relationship between central giant cell granuloma and neurofibromatosis 1.

One-year growth hormone therapy improves granulocyte function without major effects on nutritional and anthropometric parameters in malnourished hemodialysis patients.

BACKGROUND/AIMS: Growth hormone (GH) resistance leads to enhanced protein catabolism and contributes to the malnutrition of patients with chronic renal failure (CRF). In short-term trials anabolic effects of rhGH therapy have been demonstrated in patients on chronic hemodialysis. METHODS: This study was initiated to determine the effects of 12 months of rhGH therapy on polymorphonuclear leukocyte (PMNL) function as well as on nutritional and anthropometric parameters. 0.125 IU/kg rhGH was given 3 times a week during the first 4 weeks and 0.25 IU/kg thereafter to 19 malnourished hemodialysis patients with a mean age of 59.3 +/- 13.4 years. RESULTS: Insulin-like growth factor I (IGF-I) concentrations rose significantly from 169.2 +/- 95.6 to 262.9 +/- 144.4 ng/ml (p < 0.01) in the first 3 months, but declined thereafter. Phagocytic activity of PMNLs also increased significantly in response to rhGH therapy and this activation remained stable over the whole 12-month period. Other parameters of PMNL function were not influenced by rhGH therapy. In addition, nutritional parameters such as albumin, prealbumin, transferrin, cholesterol, HDL-cholesterol, cholinesterase, predialytic creatinine and blood urea nitrogen were not affected by rhGH therapy. A decline of total body fat (TBF) was observed after 3 and 9 months of rhGH therapy (17.5 +/- 10 vs. 16.7 +/- 10% after 3 months, p < 0.017 and 16.8 +/- 8.7% after 9 months, p < 0.049), whereas lean body mass remained stable. CONCLUSIONS: Twelve months of rhGH therapy caused a significant increase in IGF-I levels, stimulated phagocytic activity of PMNLs and induced a decline of TBF. Other anthropometric and nutritional parameters were not affected, which might be related to the persistence of GH resistance.

Growth data in large series of 587 children and adolescents with type 1 diabetes mellitus.

OBJECTIVE: Discordant data were found in recent growth studies in children with type-1 diabetes mellitus. This study focuses on growth data and final height in the largest cohort of diabetic children studied so far. METHODS: 7598 growth data collected in a longitudinal/cross sectional way between 1971 and 1996 in 587 diabetic subjects (317 males, 270 females) were available for analysis of height and BMI, together with 3889 HbA1c measurements. Final height data were correlated with target height in 123 subjects. The individual growth and BMI linear regression curve of each patient was compared to growth standards and correlated with HbA1c. RESULTS: Children of both sexes were taller at the first observation (males, SDS 0.15 +/- 1.10, mean +/- SD, P=0.02, females, SDS 0.74 +/- 1.46, P<0.001) and tended to lose height afterwards (males, P<0.001, females, n.s.). Males reached a final height of 176.5 cm (n=62, target height 176.8, n.s.) and females 167.0 cm (n=61, target height 165.6, n.s.). Children of both sexes had a higher than normal BMI at first observation (males, SDS 0.32 +/- 1.31, P<0.001, females, SDS 0.10 +/- 0.52, P=0.02). Females but not males gained weight over-proportionally afterwards. HbA1c did not predict any of the variables. CONCLUSION: Diabetic children are taller close to the diabetes onset, which may be due to the synchronization of onset of diabetic symptoms with the mid-childhood growth spurt or the pubertal growth spurt accompanied by elevated growth hormone and/or androgen levels and increased insulin resistance. The subsequent growth deceleration may represent a physiological lag-down growth. This concept is supported by normal adult heights following growth deceleration.