The impact of intrauterine growth restriction and prematurity on nephron endowment

doi:10.1038/s41581-022-00668-8

Review

. 2023 Apr;19(4):218-228.

doi: 10.1038/s41581-022-00668-8. Epub 2023 Jan 16.

The impact of intrauterine growth restriction and prematurity on nephron endowment

Megan R Sutherland¹, Mary Jane Black²

Affiliations

¹ Department of Anatomy and Developmental Biology and Monash Biomedicine Discovery Institute, Monash University, Clayton, VIC, Australia.
² Department of Anatomy and Developmental Biology and Monash Biomedicine Discovery Institute, Monash University, Clayton, VIC, Australia. jane.black@monash.edu.

PMID: 36646887
DOI: 10.1038/s41581-022-00668-8

Review

The impact of intrauterine growth restriction and prematurity on nephron endowment

Megan R Sutherland et al. Nat Rev Nephrol. 2023 Apr.

. 2023 Apr;19(4):218-228.

doi: 10.1038/s41581-022-00668-8. Epub 2023 Jan 16.

Authors

Megan R Sutherland¹, Mary Jane Black²

Affiliations

¹ Department of Anatomy and Developmental Biology and Monash Biomedicine Discovery Institute, Monash University, Clayton, VIC, Australia.
² Department of Anatomy and Developmental Biology and Monash Biomedicine Discovery Institute, Monash University, Clayton, VIC, Australia. jane.black@monash.edu.

PMID: 36646887
DOI: 10.1038/s41581-022-00668-8

Abstract

In humans born at term, maximal nephron number is reached by the time nephrogenesis is completed - at approximately 36 weeks' gestation. The number of nephrons does not increase further and subsequently remains stable until loss occurs through ageing or disease. Nephron endowment is key to the functional capacity of the kidney and its resilience to disease; hence, any processes that impair kidney development in the developing fetus can have lifelong adverse consequences for renal health and, consequently, for quality and length of life. The timing of nephrogenesis underlies the vulnerability of developing human kidneys to adverse early life exposures. Indeed, exposure of the developing fetus to a suboptimal intrauterine environment during gestation - resulting in intrauterine growth restriction (IUGR) - and/or preterm birth can impede kidney development and lead to reduced nephron endowment. Furthermore, emerging research suggests that IUGR and/or preterm birth is associated with an elevated risk of chronic kidney disease in later life. The available data highlight the important role of early life development in the aetiology of kidney disease and emphasize the need to develop strategies to optimize nephron endowment in IUGR and preterm infants.

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References

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1. Barker, D. J., Osmond, C., Golding, J., Kuh, D. & Wadsworth, M. E. Growth in utero, blood pressure in childhood and adult life, and mortality from cardiovascular disease. BMJ 298, 564–567 (1989). - PubMed - PMC - DOI
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[1] Blencowe, H. et al. National, regional, and worldwide estimates of low birthweight in 2015, with trends from 2000: a systematic analysis. Lancet Glob. Health 7, e849–e860 (2019). - PubMed - PMC - DOI

[2] Blencowe, H. et al. National, regional, and worldwide estimates of low birthweight in 2015, with trends from 2000: a systematic analysis. Lancet Glob. Health 7, e849–e860 (2019). - PubMed - PMC - DOI

[3] Hughes, M. M., Black, R. E. & Katz, J. 2500-g Low birth weight cutoff: history and implications for future research and policy. Matern. Child. Health J. 21, 283–289 (2017). - PubMed - DOI

[4] Hughes, M. M., Black, R. E. & Katz, J. 2500-g Low birth weight cutoff: history and implications for future research and policy. Matern. Child. Health J. 21, 283–289 (2017). - PubMed - DOI

[5] Hanson, M., Godfrey, K. M., Lillycrop, K. A., Burdge, G. C. & Gluckman, P. D. Developmental plasticity and developmental origins of non-communicable disease: theoretical considerations and epigenetic mechanisms. Prog. Biophys. Mol. Biol. 106, 272–280 (2011). - PubMed - DOI

[6] Hanson, M., Godfrey, K. M., Lillycrop, K. A., Burdge, G. C. & Gluckman, P. D. Developmental plasticity and developmental origins of non-communicable disease: theoretical considerations and epigenetic mechanisms. Prog. Biophys. Mol. Biol. 106, 272–280 (2011). - PubMed - DOI

[7] Barker, D. J., Osmond, C., Golding, J., Kuh, D. & Wadsworth, M. E. Growth in utero, blood pressure in childhood and adult life, and mortality from cardiovascular disease. BMJ 298, 564–567 (1989). - PubMed - PMC - DOI

[8] Barker, D. J., Osmond, C., Golding, J., Kuh, D. & Wadsworth, M. E. Growth in utero, blood pressure in childhood and adult life, and mortality from cardiovascular disease. BMJ 298, 564–567 (1989). - PubMed - PMC - DOI

[9] Barker, D. J., Winter, P. D., Osmond, C., Margetts, B. & Simmonds, S. J. Weight in infancy and death from ischaemic heart disease. Lancet 2, 577–580 (1989). - PubMed - DOI

[10] Barker, D. J., Winter, P. D., Osmond, C., Margetts, B. & Simmonds, S. J. Weight in infancy and death from ischaemic heart disease. Lancet 2, 577–580 (1989). - PubMed - DOI

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The impact of intrauterine growth restriction and prematurity on nephron endowment

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The impact of intrauterine growth restriction and prematurity on nephron endowment

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