Quality of growth in premature infants fed their own mothers' milk

Philippe Chessex; Brian Reichman; Gaston Verellen; Guy Putet; John M. Smith; Tibor Heim; Paul R. Swyer

doi:10.1016/S0022-3476(83)80303-5

Quality of growth in premature infants fed their own mothers' milk

Philippe Chessex, Brian Reichman, Gaston Verellen, Guy Putet, John M. Smith^*, Tibor Heim, Paul R. Swyer

^*Corresponding author for this work

University of Toronto

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

With the renewed interest in the feeding of human milk to preterm infants, we have evaluated the partition of energy metabolism and of macronutrient utilization and accretion in growing very low birth weight infants fed their own mother's milk. Fifteen studies combining macronutrient balance, computerized continuous open-circuit indirect calorimetry, and anthropometric measurements were performed in 11 growing, very low birth weight (<1,300 gm) preterm infants. The mean milk intake of 172 ml/kg/day provided a gross energy intake of 111 kcal/kg/day. Energy losses in excreta were 11 kcal/kg/day, and the metabolic energy expenditure was 56 kcal/kg/day. The remainder (44 kcal/kg/day) represented the energy stored in the components of new tissue. The infants were gaining weight (15.3 g/kg/day), length (0.98 cm/wk), and head circumference (0.76 cm/wk) at rates approximating intrauterine growth rates. The metabolic energy expenditure was derived from the oxidation (mean ±SE) of carbohydrate, 9.5±0.7 gm/kg/day; fat, 1.63±0.34 gm/kg/day; and protein, 0.68±0.07 gm/kg/day. The stored energy comprised 2.98±0.86 gm/kg/day as carbohydrate, 2.25±0.54 gm/kg/day as fat, and 1.97±0.1 gm/kg/day as protein. The accretion rates of fat and protein, as well as the composition of the weight gain (fat, 16.6±4.1%; protein, 13.4±0.5%), were similar to those reported for the fetus of comparable gestational age.

Original language	English
Pages (from-to)	107-112
Number of pages	6
Journal	Journal of Pediatrics
Volume	102
Issue number	1
DOIs	https://doi.org/10.1016/S0022-3476(83)80303-5
State	Published - Jan 1983
Externally published	Yes

Funding

Funders	Funder number
National Health and Welfare of Canada	606-1482
Research Institute of The Hospital for Sick Children
Physicians' Services Incorporated Foundation

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title = "Quality of growth in premature infants fed their own mothers' milk",

abstract = "With the renewed interest in the feeding of human milk to preterm infants, we have evaluated the partition of energy metabolism and of macronutrient utilization and accretion in growing very low birth weight infants fed their own mother's milk. Fifteen studies combining macronutrient balance, computerized continuous open-circuit indirect calorimetry, and anthropometric measurements were performed in 11 growing, very low birth weight (<1,300 gm) preterm infants. The mean milk intake of 172 ml/kg/day provided a gross energy intake of 111 kcal/kg/day. Energy losses in excreta were 11 kcal/kg/day, and the metabolic energy expenditure was 56 kcal/kg/day. The remainder (44 kcal/kg/day) represented the energy stored in the components of new tissue. The infants were gaining weight (15.3 g/kg/day), length (0.98 cm/wk), and head circumference (0.76 cm/wk) at rates approximating intrauterine growth rates. The metabolic energy expenditure was derived from the oxidation (mean ±SE) of carbohydrate, 9.5±0.7 gm/kg/day; fat, 1.63±0.34 gm/kg/day; and protein, 0.68±0.07 gm/kg/day. The stored energy comprised 2.98±0.86 gm/kg/day as carbohydrate, 2.25±0.54 gm/kg/day as fat, and 1.97±0.1 gm/kg/day as protein. The accretion rates of fat and protein, as well as the composition of the weight gain (fat, 16.6±4.1%; protein, 13.4±0.5%), were similar to those reported for the fetus of comparable gestational age.",

author = "Philippe Chessex and Brian Reichman and Gaston Verellen and Guy Putet and Smith, {John M.} and Tibor Heim and Swyer, {Paul R.}",

note = "Funding Information: From the Departments of Paediatrics and Medical Engineering, University of Toronto; and Research Institute, The Hospital for Sick Children. Supported by National Health and Welfare of Canada (Grant 606-1482), the Physicians Services Incorporated Foundation (Fund 9357), and the Research Institute of The Hospital for Sick Children (Fund 8073). Dr. Philippe Chessex was a Fellow of the Medical Research Council of Canada. Dr. Brian Reichman was a Fellow of The Hospital for Sick Children Foundation. Dr. Gaston Verellen held a NA TO Fellowship. Dr. Guy Putet was a Fellow of the National Research Council of Canada (Franco-Canadian Cultural Exchange). Reprint address: Dr. Paul R. Swyer, Chief Division of Perinatal Medicine, The Hospital for Sick Children, 555 University Ave., Toronto, Ont., Canada M5G 1X8.",

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doi = "10.1016/S0022-3476(83)80303-5",

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AU - Heim, Tibor

AU - Swyer, Paul R.

N1 - Funding Information: From the Departments of Paediatrics and Medical Engineering, University of Toronto; and Research Institute, The Hospital for Sick Children. Supported by National Health and Welfare of Canada (Grant 606-1482), the Physicians Services Incorporated Foundation (Fund 9357), and the Research Institute of The Hospital for Sick Children (Fund 8073). Dr. Philippe Chessex was a Fellow of the Medical Research Council of Canada. Dr. Brian Reichman was a Fellow of The Hospital for Sick Children Foundation. Dr. Gaston Verellen held a NA TO Fellowship. Dr. Guy Putet was a Fellow of the National Research Council of Canada (Franco-Canadian Cultural Exchange). Reprint address: Dr. Paul R. Swyer, Chief Division of Perinatal Medicine, The Hospital for Sick Children, 555 University Ave., Toronto, Ont., Canada M5G 1X8.

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N2 - With the renewed interest in the feeding of human milk to preterm infants, we have evaluated the partition of energy metabolism and of macronutrient utilization and accretion in growing very low birth weight infants fed their own mother's milk. Fifteen studies combining macronutrient balance, computerized continuous open-circuit indirect calorimetry, and anthropometric measurements were performed in 11 growing, very low birth weight (<1,300 gm) preterm infants. The mean milk intake of 172 ml/kg/day provided a gross energy intake of 111 kcal/kg/day. Energy losses in excreta were 11 kcal/kg/day, and the metabolic energy expenditure was 56 kcal/kg/day. The remainder (44 kcal/kg/day) represented the energy stored in the components of new tissue. The infants were gaining weight (15.3 g/kg/day), length (0.98 cm/wk), and head circumference (0.76 cm/wk) at rates approximating intrauterine growth rates. The metabolic energy expenditure was derived from the oxidation (mean ±SE) of carbohydrate, 9.5±0.7 gm/kg/day; fat, 1.63±0.34 gm/kg/day; and protein, 0.68±0.07 gm/kg/day. The stored energy comprised 2.98±0.86 gm/kg/day as carbohydrate, 2.25±0.54 gm/kg/day as fat, and 1.97±0.1 gm/kg/day as protein. The accretion rates of fat and protein, as well as the composition of the weight gain (fat, 16.6±4.1%; protein, 13.4±0.5%), were similar to those reported for the fetus of comparable gestational age.

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Quality of growth in premature infants fed their own mothers' milk

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