Anna Maria Pasquino

Etiology and age incidence of precocious puberty in girls: a multicentric study.

We review the etiology and age incidence of precocious puberty in 438 girls examined between 1988-1998; 428 (97.7%) had central precocious puberty (CPP), the remaining 10 (2.3%) gonadotropin-independent precocious puberty (GIPP) of ovarian origin. The majority of CPP girls (59.6%) were aged between 7-7.9 yr, 22.4% were 6 year olds, and only 18% were under 6 years old. Cranial CT and/or MRI performed in 304/428 girls, showed neurogenic abnormalities in 56/304 (18.4%) CPP girls; 30 (9.9%) were due to previously diagnosed intracranial abnormalities and the remaining 26 (8.5%) were detected at the diagnosis of CPP. The frequency of neurogenic CPP tended to be higher in girls under 4 years of age while the frequency of idiopathic CPP tended to be higher in girls aged between 7-7.9 years, but no statistically significant differences were found. Interestingly, some CNS anomalies either of tumoral or congenital origin were detected at presentation in 7% of the girls aged over 7 years. Other related or coincidental clinical anomalies, mainly due to genetic diseases, were observed in 22/304 (7.2%) patients. History of precocious maternal menarche was found in 12/304 (4%) girls. In conclusion, idiopathic CPP was observed in 74% of the girls in this study. Neurogenic anomalies or other coincidental or related clinical findings were observed in the remaining 26%. The increased frequency of idiopathic CPP in girls aged over 7 years may suggest an early, but otherwise normal onset of puberty in many of these girls as a consequence of the trend towards earlier maturation. Nonetheless, the finding of CNS anomalies also in the older patients, raises the question of whether these patients should undergo a complete diagnostic work-up.

Progression of premature thelarche to central precocious puberty

To evaluate whether girls with premature thelarche progress to central precocious puberty (CPP) and to analyze their clinical and hormonal characteristics, we retrospectively examined 100 girls with premature thelarche who were followed for several years. Fourteen of the patients with characteristics diagnostic of premature thelarche (isolated breast development before age 8 years, bone age advancement within 2 SD of normal, normal growth velocity, follicle-stimulating hormone-predominant response to luteinizing hormone-releasing hormone) progressed during follow-up to precocious or early central puberty (progressive breast size increase, bone age acceleration, and significant decrease in predicted adult height). The chronologic age of this group of 14 girls was 5.1 +/- 2.0 years at the onset of premature thelarche and 7.8 +/- 0.6 years (mean +/- SD) after progression to central early or precocious puberty. Pelvic ultrasonography showed significant differences in measurements between the time of diagnosis of premature thelarche and progression to CPP. Nine of these patients required treatment, three with cyproterone acetate and six with luteinizing hormone-releasing hormone analogs, and all responded as expected for classic CPP. At baseline evaluation, no clinical or hormonal characteristics could be established that separated the 14 children who progressed to precocious or early puberty from the 86 girls who did not. We conclude that premature thelarche is not always a self-limited condition and may sometimes accelerate the timing of puberty.

Etiology of central precocious puberty in males: the results of the Italian Study Group for Physiopathology of Puberty.

We reviewed the hospital records of 45 boys, followed in 13 pediatric departments throughout Italy, who had undergone computed tomography and/or magnetic resonance imaging for central precocious puberty (CPP). Twenty-seven patients (60%) had idiopathic CPP and 18 (40%) neurogenic CPP. A hamartoma of the tuber cinereum was found in six patients (33%). All patients with hypothalamic hamartoma had earlier onset of symptoms than patients with idiopathic CPP. Five patients (27%) were affected by type 1 neurofibromatosis, two had ependymoma and five patients had an intracranial anomaly. Basal LH and basal and peak LH/FSH ratio were greater, but not significantly, in boys with neurogenic CPP than in boys with idiopathic CPP. The highest LH peak levels were observed in patients with hamartoma; however, no correlation was observed between LH peak and the size of the hamartomas. In addition, bone age at diagnosis was more advanced in patients with hamartoma than in patients with other conditions. In conclusion, gonadotrophin-dependent precocious puberty may be of idiopathic origin or may occur in association with any CNS disorder. Further studies are needed in order to evaluate the effects of nutritional, environmental and psychosocial factors on the timing of sexual maturation, to explain the high incidence of idiopathic CPP in our male patients.

Final height in Turner syndrome patients treated with growth hormone.

Growth hormone (GH), alone or in combination with anabolic steroids, seems to improve the growth rate in Turner syndrome, but to exert a less striking effect on the final height (FH). Reports on the FH usually lack a control group, and the GH effect is determined using the gain in centimeters over projected height. Out of a cohort of 32 Turner syndrome girls under recombinant human GH (rhGH) therapy (0.5 IU/kg/week during the 1st year and 1 IU/kg/week subsequently), 18 (treated for 3-6 years) attained FH. The mean chronological age at the first examination was 9.6 +/- (SD) 2.1 years and at the start of GH therapy 13.0 +/- 2.0 (range 8.8-17.2) years. Eighteen untreated subjects matched for chronological age and karyotype served as control group. The FH as SDS according to Lyon and to unpublished Italian Turner syndrome girl standards was not significantly different as compared with pretreatment. In comparison with Italian cross-sectional Turner syndrome standards (FH 142.5 +/- 7.0 cm), the FH of the control group was quite similar (142.2 +/- 4.9 cm), whereas the rhGH-treated group showed a FH of 147.6 +/- 7.3 cm with a mean increment of about 5 cm. The height gain during therapy (as delta height in SDS either according to Lyon or to Italian SDS standards) was compared for each girl with that of a matched girl of the control group during a comparable observation period. A significantly different delta height was observed in the treated versus control groups: 0.3 +/- 1.1 vs. -1.0 +/- 0.8 according to Lyon (p < 0.001) and 0.8 +/- 0.7 vs -0.3 +/- 0.5 according to Italian standards (p < 0.001). If we compared the FH with the projected height according to Lyon standards, the height gain (as delta height in cm) was significantly higher than in the untreated subjects (-1.1 +/- 4.8 vs. -6.2 +/- 3.9 cm; p < 0.05). It seems worthwhile to undertake GH treatment in Turner syndrome girls who represent a very short stature population, even though the response is less significant than in classic GH deficiency and shows a striking variability, probably due to a sort of peripheral resistance.

Turner's syndrome in Italy: familial characteristics, neonatal data, standards for birth weight and for height and weight from infancy to adulthood.

In 1990, the Italian Study Group for Turners Syndrome (ISGTS) undertook a nationwide survey, involving the retrospective collection of cross‐sectional data and longitudinal growth profiles of 772 girls with Turners syndrome born between 1950 and 1990. The study was carried out in 29 pediatric endocrinological centers. In this first report, the familial characteristics and neonatal data of Turner girls are described, compared to those of the general population, and related to postnatal somatic development. Furthermore, charts for birth weight and growth standards for height and weight from infancy to adulthood are presented (these are the first charts based on a large sample from the Mediterranean area). The main findings were: (1) incidence of Turner births increases with parental age or parity; (2) most of the neonates are small for dates; (3) girls with normal birth weight tend to be both taller and heavier than girls with low birth weight during the whole growth period; and (4) a 10‐cm difference in midparental height leads to a 6.5‐cm difference in adult stature.

Effects of combined gonadotropin-releasing hormone agonist and growth hormone therapy on adult height in precocious puberty: a further contribution.

Out of 35 girls with idiopathic central precocious puberty (CPP) treated with gonadotropin-releasing hormone agonist (GnRHa) (depot-triptorelin) at a dose of 100 microg/kg every 21 days i.m. for at least 2-3 years whose growth velocity fell below the 25th percentile for chronological age (CA), 17 received growth hormone (GH) in addition at a dose of 0.3 mg/kg/week, s.c., 6 days per week, for 2-4 years. The other 18, matched for bone age (BA), CA and duration of GnRHa treatment, who showed the same growth pattern but refused GH treatment, remained on GnRHa alone, and were used as a control group to evaluate GH efficacy. No patient was GH deficient. Both groups discontinued treatment at a comparable BA (mean +/- SD): BA 13.4 +/- 0.6 in GnRHa plus GH group vs 13.0 +/- 0.5 years in the GnRHa alone group. The 35 patients have reached adult height (i.e. growth during the preceding year was less than 1 cm, with a BA of over 15 years). Patients of the group treated with GH plus GnRHa showed an adult height (161.2 +/- 4.8 cm) significantly higher (p < 0.001) than pre-treatment predicted adult height (PAH) calculated according to tables either for accelerated girls (153.2 +/- 5.0 cm) or for average girls (148.6 +/- 4.3 cm). The adult height of the GnRH alone treated group (156.6 +/- 5.7) was not significantly higher than pre-treatment PAH if calculated on Bayley and Pinneau tables for accelerated girls (153.9 +/- 3.8 cm), whilst it remained significantly higher if calculated on tables for average girls (149.6 +/- 4.0 cm) (p < 0.001). The gain between pre-treatment PAH and final height was 8.2 +/- 4.8 cm according to tables for accelerated girls and 12.7 +/- 4.8 cm according to tables for average girls in patients treated with GH plus GnRHa; while in patients treated with GnRH alone the gain calculated between pre-treatment PAH for accelerated girls was just 2.3 +/- 2.9 cm and 7.1 +/- 2.7 cm greater than pre-treatment PAH for average girls. The difference between the gain obtained in the two groups (about 6 cm) remained the same, however PAH was calculated. The addition of GH to GnRHa in a larger cohort of patients with CPP with a longer follow-up confirms the safety of the combined treatment and the still significant but more variable gain in the group with the combined treatment, probably due to the larger number of patients analyzed. Caution is advised in using such an invasive and expensive treatment, and there is need for further studies before widespread clinical use outside a research setting.

Use of Combined Gn-RH Agonist and hGH Therapy for Better Attaining the Goals in Precocious Puberty Treatment

We studied 30 girls (age 6.36 +/- 1.21 years, range 4.6-8.8) affected by idiopathic precocious puberty with significant reduction of height velocity (below the 25th centile) at the end of 1 year of Gn-RHa (triptorelin intramuscular depot) treatment, to evaluate GH-IGF-I axis activity and the effects of combined Gn-RHa plus hGH therapy. After 12 months, 15 patients continued Gn-RHa and started hGH therapy for 12 months, while 15 continued treatment with Gn-RHa alone (control group). We evaluated height velocity, bone age, urinary GH, serum IGF-I and IGFBP-3 levels throughout the study; plasma GHBP levels were determined only in the first 12 months of Gn-RHa treatment. Height velocity decreased significantly during Gn-RHa treatment; it increased significantly and became higher than the control group after 12 months of Gn-RHa plus hGH treatment. During Gn-RHa therapy alone, bone age progressed less than chronological age, while in the 12 months of Gn-RHa plus hGH treatment there was a slight nonsignificant increase in bone age progression in comparison to controls. Serum IGF-I and IGFBP-3 levels decreased significantly at 12 months of Gn-RHa therapy and increased significantly after Gn-RHa plus hGH treatment. Urinary GH levels showed the same behavior. Plasma GH binding to peak II-BP, slightly lower than the prepubertal normal range before treatment, significantly increased after 12 months of Gn-RHa treatment. Therefore, in these girls, during Gn-RHa treatment alone, we have a reduction in GH-IGF-I axis activity. During Gn-RHa plus hGH therapy there was a significant increase in height velocity, in urinary GH levels, in serum IGF-I and IGFBP-3 levels. Bone age did not seem to advance faster than chronological age and this may imply a better prediction in adult height. In our opinion, only in a small percentage of patients affected by precocious puberty (with a very low predicted adult height or an important reduction of growth velocity during Gn-RHa treatment) may an association with hGH therapy be useful.

Adult height in sixty girls with Turner syndrome treated with growth hormone matched with an untreated group

The main clinical feature of Turner syndrome (TS) is growth failure, with a mean spontaneous adult height ranging between 136 and 147 cm, according to the specific curves of various populations. Though a classical deficiency of GH has not been generally demonstrated, GH has been administered since 1980 in trials, using replacement doses just initially, with a subsequent trend to increase it. We report the outcome of GH therapy given at the fixed dose of 0.33 mg/kg/week in 60 TS girls observed until adult height; 59 untreated TS girls, matched for auxological, karyotypical characteristics and time of observation, born within the same decade served as controls to evaluate GH efficacy. The calculation of the gain in cm over PAH was performed on specific Italian Turner curves, as well as height evaluation as SD score and growth velocity. The same calculations were made using Lyon references and Tanner standards. The mean CA at the beginning of GH treatment was 10.9±2.76 yr (range 4.5–15.9). Mean adult height of treated group was 151±6.1 cm with a gain over the PAH calculated at start of therapy (142.9±5.3 cm) of 8.2±3.9 cm. Ns change was observed between the PAH at first observation (143.6±7.0 cm) and adult height (144.3±5.6 cm) in the control group. Treatment was well tolerated, no relevant side effects were observed, glucose metabolism resulted no more affected than in untreated subjects, IGF-I levels remained within 2 SD. Our results in 60 TS girls, though the dose remained unchanged throughout the treatment, show a good response, characterized by a striking variability in each patient (mean gain in cm over PAH at adult height of 8.17±3.9, range 3–21 cm), and significant also in comparison with the control group. As the chronological age at start of therapy ranged between 4.5 to 15.9 yr, the results were further evaluated dividing the patients into two groups, according to the age, < or >11 yr. Thirty girls were <11 yr (mean 8.7±1.76 yr) and 30 were >11 yr (mean 13.2±1.4 yr). The gain in cm over the PAH in each group was, respectively, 8.1±3.4 and 8.2±4.3 cm without any significant difference between the two groups, showing no negative correlation between the CA at the beginning of GH and the response to treatment.

Growth Hormone Treatment in Noonan Syndrome: Report of Four Cases Who Reached Final Height

Final height of 4 patients with Noonan syndrome and short stature treated with growth hormone (GH) is reported. Four prepubertal girls (chronological age 12.3-15.1 years, bone age 11.0-11.5 years) were treated with recombinant human growth hormone (0.5 IU/kg/week s.c.) for at least 3 years. Stimulated GH secretion was normal, spontaneous nocturnal GH secretion was low in 1 patient. Final height, as standard deviation score according to Ranke-specific standards for Noonan syndrome, improved in 3 patients and 2 of the exceeded their corrected midparental height.

Combined therapy with GnRH analog plus growth hormone in central precocious puberty.

GnRH analogues (GnRHa) arrest pubertal development, and slow growth velocity (GV) and bone maturation, thus improving adult height in central precocious puberty (CPP). In some patients, however, GV decreases to such an extent that it compromises the improvement in predicted adult height (PAH) and therefore the addition of GH is suggested. Of 20 patients with idiopathic CPP (treated with GnRHa [depot-triptorelin] at a dose of 100 microg/kg every 21 days i.m. for at least 2-3 yr) whose GV fell below the 25th percentile for chronological age (CA), ten received, in addition to the GnRHa, GH at a dose of 0.3 mg/kg/wk, s.c. 6 days weekly, for 2-4 yr. Ten patients matched for BA, CA, and duration of GnRHa treatment who showed the same growth pattern but refused GH treatment, served to evaluate the efficacy of the addition of GH. No patient showed classical GH deficiency. Both groups discontinued treatment at a comparable BA (mean +/- SEM): 13.2 +/- 0.2 yr in GnRHa + GH vs 13.0 +/- 0.1 yr in the control group. At the conclusion of the study all the patients had achieved adult height. Adult height was considered to be attained when the growth during the preceding year was less than 1 cm, with a BA of over 15 yr. Patients of the group treated with GH + GnRHa showed an adult height significantly higher (p<0.001) than pretreatment PAH (160.6 +/- 1.3 vs 152.7 +/- 1.7 cm). Height SDS for BA significantly increased from -1.5 +/- 0.2 at start of GnRHa to -0.21 +/- 0.2 at adult height (p<0.001). Target height was significantly exceeded. The GnRH alone treated group reached an adult height not significantly higher than pretreatment PAH (157.1 +/- 2.5 vs 155.5 +/- 1.9 cm). Height SDS for BA did not change (from -1.0 +/- 0.3 at start of GnRHa to -0.7 +/- 0.4 at adult height). Target height was just reached but not significantly exceeded. The gain in centimeters obtained calculated between pretreatment PAH and final height was 7.9 +/- 1.1 cm in patients treated with GH combined with GnRH analogue while in patients treated with GnRH analogue alone the gain was just 1.6 cm +/- 1.2 (p=0.001). Furthermore, no side effects, bone age progression, or ovarian cysts, were observed in GnRHa + GH treated patients. In conclusion, a gain of 7.9 cm in adult height represents a significant improvement which justifies the addition of GH for 2-3 yr to conventional treatment with GnRH analogues in patients with central precocious puberty, and with a decrease in growth velocity so marked as to impair predicted adult height to below the third percentile.