Energy Expenditure in Infants Weaned from a Convective Incubator

Shaul Dollberg; Francis B. Mimouni; Valentin Weintraub

doi:10.1055/s-2004-829866

American Journal of Perinatology, Inhaltsverzeichnis

Am J Perinatol 2004; 21(5): 253-256
DOI: 10.1055/s-2004-829866

Energy Expenditure in Infants Weaned from a Convective Incubator

Shaul Dollberg¹ , Francis B. Mimouni¹ , Valentin Weintraub¹

¹Department of Neonatology, Lis Maternity Hospital, Tel Aviv-Sourasky Medical Center, and the Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel

Abstract

Small preterm infants usually require a heated environment to survive. After weaning, some infants become hypothermic, and eventually require external thermal support for an additional period. We hypothesized that preterm infants respond to weaning from an incubator by increasing their resting metabolic rate. Thermally stable infants were studied when they had reached a weight of at least 1600 g. Resting energy expenditure was measured 2 hours before weaning and at 6, 23, 30, and 53 hours after weaning. Two-way analysis of variance for repeated measures was used for analysis. Sixteen infants with mean birthweight of 1270 ± 375 g and gestational age 31 ± 2.3 weeks were studied. After weaning, there was a significant increase in energy expenditure from 95.0 ± 21.9 kcal/d in the incubator, to a 30-hours peak of 111.9 ± 10.5 kcal/d after weaning. Weaning from a convective incubator results in an increase in metabolic rate in very low birth weight infants. We speculate that the infants' ability to increase metabolic rate might influence weaning success.

KEYWORDS

Preterm infants - energy metabolism - oxygen consumption

Volltext

Referenzen

REFERENCES

1 Gelhar D K, Miserendino C A, O'Sullivan P L, Vessey J A. Research from the research utilization project: environmental temperatures. J Obstet Gynecol Neonatal Nurs. 1994; 23 341-344
2 Medoff-Cooper B. Transition of the preterm infant to an open crib. J Obstet Gynecol Neonatal Nurs. 1994; 23 329-335
3 Sutter T W, Phan D, Pierchala C E, Rishel W. Weaning of premature infants from the incubator to an open crib. J Perinatol. 1988; 8 193-198
4 Heimler R, Sumners J E, Grausz J P, Kien C L, Glaspey J C. Thermal environment change in growing premature infants: effect on general somatic growth and subcutaneous fat accumulation. Pediatrics. 1981; 68 82-86
5 Thureen P J, Phillips R E, DeMarie M P et al.. Technical and methodologic consideration for performance of indirect calorimetry in ventilated and nonventilated preterm infants. Crit Care Med. 1997; 25 171-180
6 Jequier E, Felber J P. Indirect calorimetry. Baillieres Clin Endocrinol Metab. 1987; 1 911-935
7 Shortland G J, Fleming P J, Walter J H. Validation of a portable indirect calorimetry system for measurement of energy expenditure in sick preterm infants. Arch Dis Child. 1992; 67 1207-1211
8 Behrends M, Kernbach M, Brauer A, Braun U, Peters J, Weyland W. In vitro validation of a metabolic monitor for gas exchange measurements in ventilated neonates. Intensive Care Med. 2001; 27 228-235
9 LeBlanc M H. The physical environment. In: Fanaroff AA, Martin RJ Neonatal Perinatal Medicine, 7th ed. St. Louis; Mosby 2002: 512-529
10 Fleming P J, Azaz Y, Wigfield R. Development of thermoregulation in infancy: possible implications for SIDS. J Clin Pathol. 1992; 45 17-19

Shaul DollbergM.D.

Department of Neonatology, Lis Maternity Hospital, Tel Aviv-Sourasky Medical Center

6 Weizman Street

Tel Aviv 64239, Israel