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DOI: 10.1055/s-0030-1247604
Postnatal Changes in Adrenal Size in Very Low-Birth-Weight Infants: Sonographic Evaluation for the Prediction of Late-Onset Glucocorticoid-Responsive Circulatory Collapse
Publikationsverlauf
Publikationsdatum:
29. Januar 2010 (online)
ABSTRACT
We investigated the postnatal pattern of changes in adrenal size in very low-birth-weight (VLBW) infants and its relation to late-onset glucocorticoid-responsive circulatory collapse (LGCC) that may be associated with adrenal insufficiency. In 36 VLBW infants born at <33 weeks' gestation, ultrasound examinations of postnatal changes in adrenal size during the first 3 weeks of life were performed. VLBW infants were classified into three groups: group A (n = 6), the actual adrenal area was greater than or equal to the predicted value at birth and unchanged at 3 weeks; group B (n = 24), the actual adrenal area was greater than or equal to the predicted value and decreased at 3 weeks; and group C (n = 6), the actual adrenal area was less than the predicted value and unchanged at 3 weeks. Five infants developed LGCC, and all five were in group A. These observations suggest that the life of the adrenal fetal zone might be extended beyond 3 weeks after birth in some VLBW infants and that prolonged fetal zone activity might correlate with LGCC. On the other hand, adrenal maturation might have already occurred at birth in some VLBW infants. Sonographic evaluation of adrenal size may enable prediction of subsequent LGCC in VLBW infants.
KEYWORDS
Very low-birth-weight infant - adrenal gland - ultrasonography - circulatory collapse - adrenal insufficiency
REFERENCES
- 1 Helbock H J, Insoft R M, Conte F A. Glucocorticoid-responsive hypotension in extremely low birth weight newborns. Pediatrics. 1993; 92 715-717
- 2 Ng P C, Lee C H, Lam C W et al.. Transient adrenocortical insufficiency of prematurity and systemic hypotension in very low birthweight infants. Arch Dis Child Fetal Neonatal Ed. 2004; 89 F119-F126
- 3 Efird M M, Heerens A T, Gordon P V, Bose C L, Young D A. A randomized-controlled trial of prophylactic hydrocortisone supplementation for the prevention of hypotension in extremely low birth weight infants. J Perinatol. 2005; 25 119-124
- 4 Huysman M WA, Hokken-Koelega A CS, De Ridder M AJ, Sauer P JJ. Adrenal function in sick very preterm infants. Pediatr Res. 2000; 48 629-633
- 5 Hingre R V, Gross S J, Hingre K S, Mayes D M, Richman R A. Adrenal steroidogenesis in very low birth weight preterm infants. J Clin Endocrinol Metab. 1994; 78 266-270
- 6 Kusuda S, Fujimura M, Sakuma I Neonatal Research Network, Japan et al. Morbidity and mortality of infants with very low birth weight in Japan: center variation. Pediatrics. 2006; 118 e1130-e1138
- 7 Masumoto K, Kusuda S, Aoyagi H et al.. Comparison of serum cortisol concentrations in preterm infants with or without late-onset circulatory collapse due to adrenal insufficiency of prematurity. Pediatr Res. 2008; 63 686-690
- 8 Watterberg K L. Adrenal insufficiency and cardiac dysfunction in the preterm infant. Pediatr Res. 2002; 51 422-424
- 9 Wallace A M, Beesley J, Thomson M, Giles C A, Ross A M, Taylor N F. Adrenal status during the first month of life in mature and premature human infants. J Endocrinol. 1987; 112 473-480
- 10 Rosenberg E R, Bowie J D, Andreotti R F, Fields S I. Sonographic evaluation of fetal adrenal glands. AJR Am J Roentgenol. 1982; 139 1145-1147
- 11 Oppenheimer D A, Carroll B A, Yousem S. Sonography of the normal neonatal adrenal gland. Radiology. 1983; 146 157-160
- 12 Al-Alwan I, Navarro O, Daneman D, Daneman A, Daneman A. Clinical utility of adrenal ultrasonography in the diagnosis of congenital adrenal hyperplasia. J Pediatr. 1999; 135 71-75
- 13 Chang C H, Yu C H, Chang F M, Ko H C, Chen H Y. Assessment of fetal adrenal gland volume using three-dimensional ultrasound. Ultrasound Med Biol. 2002; 28 1383-1387
-
14 Winter J SD.
Fetal and neonatal adrenocortical physiology . In: Polin RA, Fox WW, Abman H Fetal and Neonatal Physiology. 3rd ed. Philadelphia; WB Saunders 2003: 1915-1926 - 15 Mesiano S, Jaffe R B. Developmental and functional biology of the primate fetal adrenal cortex. Endocr Rev. 1997; 18 378-403
- 16 Watterberg K L, Gerdes J S, Cook K L. Impaired glucocorticoid synthesis in premature infants developing chronic lung disease. Pediatr Res. 2001; 50 190-195
- 17 Hauffa B P, Menzel D, Stolecke H. Age-related changes in adrenal size during the first year of life in normal newborns, infants and patients with congenital adrenal hyperplasia due to 21-hydroxylase deficiency: comparison of ultrasound and hormonal parameters. Eur J Pediatr. 1988; 148 43-49
- 18 Honour J H, Wickramaratne K, Valman H B. Adrenal function in preterm infants. Biol Neonate. 1992; 61 214-221
- 19 Midgley P C, Russell K, Oates N, Shaw J C, Honour J W. Activity of the adrenal fetal zone in preterm infants continues to term. Endocr Res. 1996; 22 729-733
- 20 Sulyok E, Németh M, Tényi I et al.. Postnatal development of renin-angiotensin-aldosterone system, RAAS, in relation to electrolyte balance in premature infants. Pediatr Res. 1979; 13 817-820
- 21 Rayson B M, Edelman I S. Glucocorticoid stimulation of Na-K-ATPase in superfused distal segments of kidney tubules in vitro. Am J Physiol. 1982; 243 F463-F470
- 22 Kobayashi S, Fujimoto S, Fukuda S et al.. Periventricular leukomalacia with late-onset circulatory dysfunction of premature infants: correlation with severity of magnetic resonance imaging findings and neurological outcomes. Tohoku J Exp Med. 2006; 210 333-339
- 23 Ng P C, Kwok A K, Lee C H et al.. Early pituitary-adrenal responses and retinopathy of prematurity in very low birth weight infants. Pediatr Res. 2004; 55 114-119
- 24 Sucheston M E, Cannon M S. Development of zonular patterns in the human adrenal gland. J Morphol. 1968; 126 477-491
Shigeo IijimaM.D.
Department of Neonatology, Toho University School of Medicine
6-11-1 Omori-nishi, Ota-ku, Tokyo 143-8541, Japan
eMail: sige_pd@yahoo.co.jp