Longitudinal analysis of growth over the first 3 years of life in Turner's syndrome.

OBJECTIVE: To evaluate longitudinal growth in Turner's syndrome (TS) over the first 3 years of life. METHODS: Growth of 47 patients with TS was compared with that of 40 age-matched control girls by using an analysis according to the Infancy-Childhood-Puberty and bi-exponential models. RESULTS: A mean of 1.2 SDs were lost before birth and a total of 3.0 SDs were lost by age 3 years. According to the Infancy-Childhood-Puberty model, intrauterine growth retardation contributed -1.24 SDs, a 5-month delay in childhood growth spurt contributed -0.96 SDs, and slow childhood growth contributed an additional -0.8 SDs by age 3 years. The bi-exponential analysis disclosed a quasi-linear first exponent and a confining second exponent, which merged at age 18 months in control subjects and 24 months in patients with TS. The first exponent confers an average annual growth rate of 8.4 cm/y in control subjects and 6.7 cm/y in patients with TS. CONCLUSIONS: Intrauterine growth retardation and the initial 3 years of life contribute most of the deficit in the final height of patients with TS. These data provide a reference of standards for longitudinal growth in patients with TS at age 3 months to 3 years.

Effect of long-term growth hormone therapy on bone age and pubertal maturation in boys with and without classic growth hormone deficiency.

We evaluated the effect of growth hormone (GH) therapy on bone age, pubertal maturation and predicted adult height in two groups of boys treated for 4 years: 40 growth hormone-deficient boys who had growth hormone response to provocative stimulation < 10 micrograms/L (GHD group) and 43 boys whose stimulated growth hormone > or = 10 micrograms/L (group with neurosecretory dysfunction (NSD)). All patients had a subnormal integrated concentration of growth hormone < or = 3.2 micrograms/L, height < -2 SD, growth velocity < 4.5 cm/yr, and bone age < or = -2 SD for chronologic age. Patients were treated with recombinant growth hormone, 0.1 mg/kg per dose given three times a week. The pretreatment height SD of the GHD group (-3.6 +/- 1.0) was less than that of the NSD group (-2.7 +/- 0.7; p < 0.001). After 4 years of therapy, both groups had catch-up growth (GHD group to -2.0 +/- 1.3 height SD (n = 35), and NSD group to -1.4 +/- 0.7 height SD (n = 32)); the rate of height SD gain was better in patients with GHD (p < 0.01). The response to growth hormone was inversely related to pretreatment chronologic age (p < 0.001). The Tanner-Whitehouse II predicted adult height improved for both groups: +9.3 +/- 7.7 cm in the GHD group, giving an adult height SD of -0.9 +/- 1.0, and +5.4 +/- 5.5 cm in patients with NSD, for an adult height SD if -0.8 +/- 0.7. Testosterone levels became higher in the NSD group after 2 years and remained higher at year 4. We conclude that patients respond favorably to growth hormone therapy and in a manner similar to patients with GHD. Initiation of therapy at a younger age gives a greater improvement in gained height and predicted adult height.

Calcium therapy for calcitriol-resistant rickets.

Ten patients with calcitriol-resistant rickets caused by a defect in the ligand-binding domain of the vitamin D receptor are described. Eight patients, 1.7 to 13.8 years of age, received high doses of elemental calcium (range, 0.4 to 1.4 gm/m2) through indwelling intracaval catheters for periods of 1.8 to 3.8 years. Two other patients, aged 1.1 and 2.2 years, were given oral calcium therapy as the sole mode of treatment. In five of the intravenously treated patients, oral calcium therapy was initiated after radiologic evidence of healing of the rickets. To maintain normal serum calcium concentration, the patients required daily doses of elemental calcium of 3.5 to 9 gm/m2 body surface area. Clinical improvement was observed within a week of the start of intravenous therapy, with disappearance of bone pain; several of the younger patients started to walk for the first time. Growth velocity increased within 2 to 3 months, from a pretreatment rate of -0.8 to -6.3 standard deviation score (SDS), to a posttreatment rate of +0.1 to +5.1 (SDS). Serum calcium, parathyroid hormone, phosphorus, and alkaline phosphatase values returned to normal within a year. Radiologic signs of healing occurred more rapidly in the intravenous treatment groups and in younger patients. Episodes of septicemia occurred frequently in those receiving parenteral therapy and required replacement of the catheter. We recommend that in the treatment of calcitriol-resistant rickets, oral calcium therapy be started at the youngest possible age, in doses to the limit of intestinal tolerance. When rickets is present, calcium should be infused through a large vessel in doses high enough to produce normocalcemia, normophosphatemia, and suppression of parathyroid hormone. Only after radiologic healing has been observed can oral calcium therapy be introduced.