Short-Term Growth Response to GH Treatment and Considerations upon the Limits of Short-Term Growth Predictions

Hermanussen, M.
Gausche, R.
Keller, A.
Kiess, W.
Brabec, M.
Keller, E.

^aAschauhof, Altenhof, ^bChildren's Hospital, University of Leipzig, Germany, and ^cDepartment of Biostatistics and Computing Services, National Institute of Public Health, Prague, Czech Republic

Received February 25, 2002; previously published online August 23, 2002

Hormone Research in Paediatrics 58(2):p 71-77, 2002. | DOI: 10.1159/000064656

Abstract

Objectives:

To investigate the impact of short-term growth measurements on predicting the individual growth response to GH treatment, and to elucidate the possible reasons for the limited accuracy of current growth prediction models for GH-treated children.

Methods:

Short-term growth measurements by knemometry and stadiometer in 99 short, GH-treated children (27 girls, 72 boys), aged 10.3 ± 2.3 years, from the Children's University Hospital, Leipzig, Germany.

Results:

GH treatment significantly accelerated the mean height velocity (HV) from 4.3 ± 1.0 to 8.1 ± 1.8 cm/year during the first year of treatment, the average height standard deviation score (SDS) shifted by +0.52 SD. The variation in HV also increased, from S² = 1.0 before to S² = 3.4 cm²/year² during treatment. Lower leg length (LLL) velocity accelerated from 1.6 ± 0.7 before treatment to 3.4 ± 1.0 cm/year during the first 8 weeks of treatment. Four coefficients of correlation appeared clinically meaningful: (1) LLL velocity vs. body HV during the first year of GH treatment (r = 0.87), indicating that GH acts simultaneously on leg and rump growth; (2) early (first 8 weeks) LLL velocity vs. 1-year body HV during treatment, with r = 0.61 (R² = 0.38), indicating that 38% of the variation in HV during the first year of treatment is already predictable by an initial 8-week period of knemometry; (3) early (first 8 weeks) LLL velocity vs. 1-year LLL velocity during treatment, with r = 0.63 (R² = 0.39), and (4) early (first 8 weeks) LLL velocity vs. later LLL velocity, up to the end of the first year, with r = 0.53 (R² = 0.28) indicating that the early response on lower leg growth persists for at least 1 year of GH treatment.

Conclusions:

(1) Thirty-eight percent of the variation in HV during the first year of GH treatment is predictable by an initial 8-week period of knemometry. This parallels early changes in biochemical markers of bone turnover after GH treatment. (2) There is evidence for a baseline variability in HV both in healthy children and in children with growth disorders that make growth prediction difficult.