Abstract
When studying short slowly growing children, several investigators have found differences in spontaneous circulating growth hormone (GH) levels in some short children as compared with children of normal stature. The circadian and ultradian characteristics of GH secretion have not been considered in most of those studies. With the aim to study possible differences in rhythm characteristics of plasma GH with stature, we analyzed data from a total of 141 prepubertal children: 1)13 GH-deficient children; 2) 36 children with short stature (up to 2 standard deviations below their peer group mean); 3) 61 children with very short stature (up to 4 standard deviations below their peer group mean); and 4) a reference group of 31 children with standard stature. Subjects were living at the hospital setting on a diurnal waking (07:30 a.m. to 10:30 p.m.), nocturnal resting routine during sampling, consuming the usual hospital diet at fixed times. GH concentrations were determined by immunoradiometric assay in plasma obtained at about 2–3 hour intervals during most of the day and at about half-hour intervals between 9:00 p.m. and 3:00 a.m. Circadian rhythm characteristics obtained by least-squares estimation were compared between groups divided according to gender and stature with a parameter test. Results show a statistically significant circadian rhythm in GH secretion for all groups studied (p<0.001 for standard, short and very short children; p=0.013 for GH-deficient children). A comparison of circadian parameters indicates similar characteristics between subjects of short, very short and standard stature. The difference in rhythm-adjusted mean and amplitude is, however, of borderline statistically significance when comparing non-deficient with GH-deficient children.
Similar content being viewed by others
References
Halberg F., Lakatua D., Lodeiro C, García L, Hermida R.C, Ayala D.E., Tarquini B., Haus E., Cornélissen G. Chronobiology, growth hormone and healthy and malignant growth. J. Endocrinol. Invest. 12(Suppl. 3): 41, 1989.
Hermida R.C., García L, Lodeiro C., Ayala D.E., Iglesias T., Halberg F. Circadian and ultradian characteristics of plasma growth hormone in children with normal and short stature. J. Endocrinol. Invest, 12(Suppl. 3): 69, 1989.
Rochiccioli P.E., Tauber M.T., Uboldi F., Coude F.X., Morre M. Effect of overnight constant infusion of human growth hormone (GH)-releasing hormone-(1–44) on 24-hour GH secretion in children with partial GH deficiency. J. Clin. Endocrinol. Metab. 63: 1100, 1986.
Iglesias T., Hermida R.C., García L, Lodeiro C, Ayala D.E., Fernández J.R. Circannual rhythm of plasma growth hormone in girls (but not boys) with constitutional short stature. In: Hayes D.K., Pauly J.E., Reiter R.J. (Eds.), Chronobiology: Its Role in Clinical Medicine, General Biology and Agriculture, Part A. Progress in Clinical and Biological Research. Wiley-Liss, New York, 1990, vol. 341 A, p. 721.
Brazeau P., Rivier I., Vale W., Guillemin R. Inhibition of growth hormone secretion in the rat by synthetic somatostatin. Endocrinology 94: 184, 1974.
Guillemin R., Brazeau P., Bohlen P., Esch F., Ling N., Wehrenberg W.D. Growth hormone releasing factor from a human pancreatic tumor that caused acromegaly. Science 218: 585, 1982.
Tannenbaum G.S., Ling N. The interrelationship of growth hormone (GH) releasing factor and somatostatin in generation of the ultradian rhythm of GH secretion. Endocrinology 115: 1952, 1984.
Gelato M.C., Malozowski S., Nicoletti M.C., Ross J., Pescovitz CH., Rose S., Loriaux D.L., Cassorla F., Merriam G.R. GH-releasing hormone during pubertal development in normal boys and girls: Comparison to idiopathic short stature and GH deficiency. Clin. J. Endocrinol. Metab. 63: 174, 1986.
Spiliotis B.E., August G.P., Hung W., Sonis W., Mendelson W., Bereu B.B. Growth hormone neurosecretory dysfunction; a treatable cause of short stature. JAMA 251: 2223, 1984.
Takano D., Hizuka N., Shizume D., Asakawa K., Miyakawa M., Hirose N., Shibasaki T., Ling NC. Plasma growth hormone (GH) response to GH-releasing factor in normal children with short stature and patients with pituitary dwarfism. J. Clin. Endocrinol. Metab. 58: 236, 1984.
Bierich I.R. Treatment of constitutional delay of growth and adolescence with human growth hormone. Klin. Pediatr. 195: 309, 1983.
Ayala D.E., Hermida R.C., García L, Iglesias T., Lodeiro C. Multiple component analysis of plasma growth hormone in children with standard and short stature. Chronobiol. Internat. 7: 217, 1990.
Martha P.M. Jr, Rogol A.D., Veldhuis J.D., Kerrigan J.R., Goodman D.W., Blizzard R.M. Alterations in the pulsatile properties of circulating growth hormone concentrations during puberty in boys. J. Clin. Endocrinol. Metab. 69: 563, 1989.
Sanayama K., Nöda H., Konda S., Ikeda F., Murata A., Sasaki N., Niimi H., Nakajima H. Spontaneous growth hormone secretion and plasma somatomedin-C in children of short stature. Endocrinol. Jpn. 34: 627, 1987.
Zadik Z., Chalew S.A., Raiti S., Kowarski A.A. Do short children secrete insufficient growth hormone? Pedriatrics 76: 355, 1985.
Rogol A.D. Patterns of growth hormone release during childhood and adolescent development in the human. In: Touitou Y., Haus E. (Eds.), Biological Rhythms in Clinical and Laboratory Medicine. Springer-Verlag, New York, 1992, p. 167.
Hermida R.C., Ayala D.E., Garcia L., Lodeiro C, Iglesias T. Circadian characteristics of plasma growth hormone in children with standard and short stature. In: Surowiak J., Lewandowski M.H. (Eds.), Chronobiology & Chronomedicine: Basic Research and Applications. Peter Lang, Frankfurt am Main, 1991, p. 191.
Kerrigan J.R., Martha P.M. Jr, Blizzard R.M., Christie C, Rogol A.D. Variations of pulsatile growth hormone release in healthy short prepubertal boys. Pedriatr. Res. 28: 11, 1990.
Haus E., Nicolau G.Y., Lakatua D., Sackett-Lundeen L. Reference values for chronopharmacology. In: Reinberg A., Smolensky M., Labrecque G. (Eds.), Annual Review of Chronopharmacology. Pergamon Press, Oxford, 1988, Vol. 4, p. 333.
Hermida R.C. Cronobiologic data analysis systems with emphasis in chronotherapeutic marker rhythmometry and chronoepidemiologic risk assessment. In: Scheving L.E., Halberg F., Ehret C.F. (Eds.), Chronobiotechnology and Chronobiological Engineering. NATO ASI series no 120. Martinus Nijhoff, Dordrecht, The Netherlands, 1987, p. 88.
Bingham C, Arbogast B., Cornelissen G., Lee J.K., Halberg F. Inferential statistical methods for estimating and comparing cosinor parameters. Chronobiologia 9: 397, 1982.
Mojón A., Fernández J.R., Hermida R.C. Chronolab: An interactive software package for chronobiologic time series analysis written for the Macintosh™ computer. Chronobiol. Internat. 9: 403, 1992.
Ayala D.E., Hermida R.C. Modelling of biologie times series by least squares rhythmometry. In: Hamza M.H. (Ed.), Proc 39th ISMM Int Conf Mini and Microcomputers and Their Applications. Zurich, Switzerland, June 26–29, 1989. Acta Press, Anaheim, 1989, p. 80.
Halberg F. Chronobiology. Ann. Rev. Physiol. 31: 675, 1969.
Halberg F. Chronobiology: methodological problems. Acta Med. Rom. 18: 399, 1980.
Halberg F., Tong Y.L., Johnson E.A. Circadian system phase—an aspect of temporal morphology; procedures and illustrative examples. In: The Cellular Aspects of Biorhythms, Symposium on Biorhythms. Springer-Verlag, Berlin, 1967, p. 20.
Halberg F., Johnson E.A., Nelson W., Runge W., Sothern R. Autorhythmometry—procedures for physiologic self-measurements and their analysis. Physiol. Teacher 1: 1, 1972.
Nelson W., Tong L, Lee J.F., Halberg F. Methods for cosinor rhythmometry. Chronobiologia 6: 305, 1979.
Nelson W., Cornélissen G., Hinkley D., Bingham C, Halberg F. Construction of rhythm-specified reference intervals and regions, with emphasis on ‘hybrid’ data, illustrated for plasma Cortisol. Chronobiologia 10: 179, 1983.
Veldhuis J.D., Johnson M.L. Cluster analysis: a simple, versatile and robust algorithm for endocrine pulse detection. Am. J. Physiol. 250: E486, 1986.
Sackett-Lundeen L, Haus E., Halberg F., Kawasaki T., Uezono K., Lakatua D., Cornélissen G., Lundeen W., Omae T. Circadian rhythm in pulsatile secretion characteristics of Cortisol in american and Japanese women (Abstract). Proc. XXI Conference of the International Society for Chronobiology. Quebec City, Canadá, July 11–15, 1993, p. XIX-8
Albertsson-Wikland K., Rosberg S. Analyses of 24-hour growth hormone profiles in children; relation to growth. J. Clin. Endocrinol. Metab. 67: 493, 1988.
Hindmarsh P., Smith P.J., Brook C.G.D., Matthews D.R. The relationship between height velocity and growth hormone secretion in short prepuberal children. Clin. Endocrinol. (Oxf.) 27: 581, 1987.
Fernandez J.R., Hermida R.C. Estimation of population parameters from rhythmometric models with multiple components (Abstract). Biological Rhythm Research 26: 388, 1995.
Reinberg A., Lagoguey M., Cesselin Y., Touitou J.C., Legrand A., Delasalle J., Antreassian J., Lagoguey A. Circadian and circannual rhythms in plasma hormone and other variables of five healthy young human males. Acta Endocrinol. (Copenh.) 88: 417, 1978.
Halberg, Cornélissen G. About-7-day (circaseptan) pattern of DNA labelling under daily STH stimulation in mouse tissues: a metachronoanalysis (Abstract). Perspectives in Immunology and Medicine 1944–1994: A Symposium in Honor of Robert A. Good, St. Petersburg, Florida, May 20–21, 1994.
Nettesheim H., Oehlert W. Die Wirkung des Wachstumshormons auf die parenchymatösen Organe der ausgewachsenen weilβen Maus unter Berüchsichtigung der Leber. Beitr. Path. Anat. 127: 193, 1962.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Hermida, R.C., García, L. & Ayala, D.E. Circadian variation of growth hormone secretion in normal prepubertal children. Comparison to constitutional growth delay and growth hormone deficiency. J Endocrinol Invest 19, 273–283 (1996). https://doi.org/10.1007/BF03347863
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/BF03347863