Human Milk Feeding in Inherited Metabolic Disorders: A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes

Fatma Ilgaz; Alexander Höller; Cyril Marsaux; Sandra Banta-Wright; Turgay Coşkun; Kelly A. Dingess; Monika Jörg-Streller; Camille Newby; Rani Singh; Bernd Stahl; Clare Szwec; Annemiek van Wegberg; Willie Woestenenk; Anita MacDonald; Daniela Karall

doi:10.1002/jimd.70001

Human Milk Feeding in Inherited Metabolic Disorders: A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes

Fatma Ilgaz, Alexander Höller, Cyril Marsaux^*, Sandra Banta-Wright, Turgay Coşkun, Kelly A. Dingess, Monika Jörg-Streller, Camille Newby, Rani Singh, Bernd Stahl, Clare Szwec, Annemiek van Wegberg, Willie Woestenenk, Anita MacDonald, Daniela Karall

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

Abstract

Human milk (HM) is the optimal source of nutrition for infants. Yet the suitability of HM macronutrient composition, paired with the challenge of regulating HM intake, may deserve some consideration for infants with inherited metabolic disorders (IMDs) requiring restrictive and controlled dietary management. Except for classic galactosemia, HM feeding is expected to be feasible, allowing infants to maintain metabolic stability, while growing and developing optimally. However, information about HM feeding in nonphenylketonuria (PKU) literature is scarce. In this systematic review, 52 studies were included, representing 861 infants (86% PKU) receiving HM after IMD diagnosis (mean duration 4–10 months depending on the IMD). For non-PKU IMDs (e.g., other amino acidopathies, urea cycle disorders, organic acidemias, fatty acid oxidation disorders), outcomes of HM feeding were available for few infants, except for medium-chain acyl-CoA dehydrogenase (MCAD) deficiency (n = 48). In PKU, HM feeding combined with phenylalanine-free formula, led to adequate metabolic control (25 studies), growth (15 studies), and neurodevelopment (10 studies). For other IMDs, more evidence is required, but the limited data suggest that HM feeding is possible, with attentive monitoring and disease-specific formula supplementation where applicable. In MCAD deficiency, ensuring adequate HM intake is essential, as symptoms were more frequently reported in exclusively breastfed infants. No IMD-specific articles were found on the relationship between HM feeding and many other outcomes of interest (e.g., immune status or comorbidity risk later in life). With the exception of galactosemia, HM feeding is expected to benefit infants with IMD. More data should be published for IMDs other than PKU.

Original language	English
Article number	e70001
Number of pages	23
Journal	Journal of Inherited Metabolic Disease
Volume	48
Issue number	2
DOIs	https://doi.org/10.1002/jimd.70001
Publication status	Published - Mar 2025

Bibliographical note

Publisher Copyright:
© 2025 Danone Global Research & Innovation Center B.V. and The Author(s). Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM.

Funding

Funding: This research received no external funding. Publication costs were covered by Danone Research & Innovation. We would like to thank Danielle Starin (Children's National Hospital, Washington DC) and Jane Rice (Children's Health Ireland at Temple Street, Dublin) for providing important clarifications and additional data. We also wish to thank Daan Snoeks (Danone Research & Innovation) for carrying out the search in ProQuest. Fatma Ilgaz and Alexander H\u00F6ller received a small honorarium from Danone Research & Innovation as compensation for time spent screening the literature and extracting data. Camille Newby received honoraria from Danone Nutricia and Vitaflo International to attend study days and conferences. Annemiek van Wegberg has received travel grants from Danone Nutricia and Vitaflo. The UMCG and Radboudumc as employers of Annemiek van Wegberg have received a research grant from Danone Research & Innovation, and advisory board and lecture fees from Danone Research & Innovation and Vitaflo. Anita MacDonald's hospital has received research funding from Biomarin, PTC pharmaceuticals, Danone Research & Innovation, Vitaflo, Cambrooke, MetaX, Relief Therapeutics, Arla Food Ingredients. Advisory board/lecture fees have been received from: PTC pharmaceuticals, Danone Research & Innovation, Vitaflo, APR, and Arla Food Ingredients. Cyril Marsaux, Kelly A. Dingess, Bernd Stahl, Clare Szwec, Willie Woestenenk are employees of Danone Research & Innovation. The other authors declare no conflicts of interest.

Funders	Funder number
Children's National Hospital
Arla Food Ingredients
Relief Therapeutics
Danone Research & Innovation and Vitaflo
Danone Research & Innovation
Danone Nutricia and Vitaflo
Vitaflo
Danielle Starin

Keywords

breast milk
breastfeeding
inborn errors of metabolism
PKU
rare metabolic diseases

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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J of Inher Metab Disea - 2025 - Ilgaz - Human Milk Feeding in Inherited Metabolic Disorders A Systematic Review of Growth Final published version, 1.17 MBLicence: CC BY

Cite this

Ilgaz, F., Höller, A., Marsaux, C., Banta-Wright, S., Coşkun, T., Dingess, K. A., Jörg-Streller, M., Newby, C., Singh, R., Stahl, B., Szwec, C., van Wegberg, A., Woestenenk, W., MacDonald, A., & Karall, D. (2025). Human Milk Feeding in Inherited Metabolic Disorders: A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes. Journal of Inherited Metabolic Disease, 48(2), Article e70001. https://doi.org/10.1002/jimd.70001

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abstract = "Human milk (HM) is the optimal source of nutrition for infants. Yet the suitability of HM macronutrient composition, paired with the challenge of regulating HM intake, may deserve some consideration for infants with inherited metabolic disorders (IMDs) requiring restrictive and controlled dietary management. Except for classic galactosemia, HM feeding is expected to be feasible, allowing infants to maintain metabolic stability, while growing and developing optimally. However, information about HM feeding in nonphenylketonuria (PKU) literature is scarce. In this systematic review, 52 studies were included, representing 861 infants (86% PKU) receiving HM after IMD diagnosis (mean duration 4–10 months depending on the IMD). For non-PKU IMDs (e.g., other amino acidopathies, urea cycle disorders, organic acidemias, fatty acid oxidation disorders), outcomes of HM feeding were available for few infants, except for medium-chain acyl-CoA dehydrogenase (MCAD) deficiency (n = 48). In PKU, HM feeding combined with phenylalanine-free formula, led to adequate metabolic control (25 studies), growth (15 studies), and neurodevelopment (10 studies). For other IMDs, more evidence is required, but the limited data suggest that HM feeding is possible, with attentive monitoring and disease-specific formula supplementation where applicable. In MCAD deficiency, ensuring adequate HM intake is essential, as symptoms were more frequently reported in exclusively breastfed infants. No IMD-specific articles were found on the relationship between HM feeding and many other outcomes of interest (e.g., immune status or comorbidity risk later in life). With the exception of galactosemia, HM feeding is expected to benefit infants with IMD. More data should be published for IMDs other than PKU.",

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author = "Fatma Ilgaz and Alexander H{\"o}ller and Cyril Marsaux and Sandra Banta-Wright and Turgay Co{\c s}kun and Dingess, {Kelly A.} and Monika J{\"o}rg-Streller and Camille Newby and Rani Singh and Bernd Stahl and Clare Szwec and {van Wegberg}, Annemiek and Willie Woestenenk and Anita MacDonald and Daniela Karall",

note = "Publisher Copyright: {\textcopyright} 2025 Danone Global Research & Innovation Center B.V. and The Author(s). Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM.",

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Ilgaz, F, Höller, A, Marsaux, C, Banta-Wright, S, Coşkun, T, Dingess, KA, Jörg-Streller, M, Newby, C, Singh, R, Stahl, B, Szwec, C, van Wegberg, A, Woestenenk, W, MacDonald, A & Karall, D 2025, 'Human Milk Feeding in Inherited Metabolic Disorders: A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes', Journal of Inherited Metabolic Disease, vol. 48, no. 2, e70001. https://doi.org/10.1002/jimd.70001

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T2 - A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes

AU - Ilgaz, Fatma

AU - Höller, Alexander

AU - Marsaux, Cyril

AU - Banta-Wright, Sandra

AU - Coşkun, Turgay

AU - Dingess, Kelly A.

AU - Jörg-Streller, Monika

AU - Newby, Camille

AU - Singh, Rani

AU - Stahl, Bernd

AU - Szwec, Clare

AU - van Wegberg, Annemiek

AU - Woestenenk, Willie

AU - MacDonald, Anita

AU - Karall, Daniela

PY - 2025/3

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N2 - Human milk (HM) is the optimal source of nutrition for infants. Yet the suitability of HM macronutrient composition, paired with the challenge of regulating HM intake, may deserve some consideration for infants with inherited metabolic disorders (IMDs) requiring restrictive and controlled dietary management. Except for classic galactosemia, HM feeding is expected to be feasible, allowing infants to maintain metabolic stability, while growing and developing optimally. However, information about HM feeding in nonphenylketonuria (PKU) literature is scarce. In this systematic review, 52 studies were included, representing 861 infants (86% PKU) receiving HM after IMD diagnosis (mean duration 4–10 months depending on the IMD). For non-PKU IMDs (e.g., other amino acidopathies, urea cycle disorders, organic acidemias, fatty acid oxidation disorders), outcomes of HM feeding were available for few infants, except for medium-chain acyl-CoA dehydrogenase (MCAD) deficiency (n = 48). In PKU, HM feeding combined with phenylalanine-free formula, led to adequate metabolic control (25 studies), growth (15 studies), and neurodevelopment (10 studies). For other IMDs, more evidence is required, but the limited data suggest that HM feeding is possible, with attentive monitoring and disease-specific formula supplementation where applicable. In MCAD deficiency, ensuring adequate HM intake is essential, as symptoms were more frequently reported in exclusively breastfed infants. No IMD-specific articles were found on the relationship between HM feeding and many other outcomes of interest (e.g., immune status or comorbidity risk later in life). With the exception of galactosemia, HM feeding is expected to benefit infants with IMD. More data should be published for IMDs other than PKU.

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Human Milk Feeding in Inherited Metabolic Disorders: A Systematic Review of Growth, Metabolic Control, and Neurodevelopment Outcomes

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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