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2 results

  • Chapter 1 - Normal Human Kidney Development and Congenital Anomalies of the Kidneys and Urinary Tract

  • from Section 1 - Normal and Abnormal Human Kidney Development
  • Edited by Helen Liapis, Ludwig Maximilian University, Nephrology Center, Munich, Adjunct Professor and Washington University St Louis, Department of Pathology and Immunology, Retired Professor
  • Book:
    Pediatric Nephropathology & Childhood Kidney Tumors
    Published online:
    10 August 2023
    Print publication:
    09 March 2023, pp 1-16

  • Summary

    We present the sequence of events leading to the permanent human kidney. Nephrogenesis begins around 22 days after fertilisation and completes around the 34–36th week of gestation. There are three pairs of kidneys in human development: the pronephros, mesonephros and metanephros, arising sequentially from intermediate mesoderm on the dorsal body wall. The first two pairs involute and are resorbed during fetal life, but they are essential precursors to the metanephros and normal adult kidneys do not develop if they are disrupted. Human metanephric kidney development begins around day 28 post conception when the ureteric bud arises as an outpouching of the distal mesonephric duct/Wolffian duct. Glomeruli form from 8–9 weeks and nephrogenesis continues in the outer rim of the cortex until 34 weeks. Perturbation of early pathways can lead to a range of phenotypes including renal agenesis, dysplasia and duplex kidneys, as well as malpositioning defects such as pelvic or horseshoe kidneys if they fail to ascend to their normal 12th thoracic to 3rd lumbar vertebral site during development.

  • Impact of prenatal and postnatal maternal environment on nephron endowment, renal function and blood pressure in the Lewis polycystic kidney rat

  • A. Ding, S. L. Walton, K. M. Moritz, J. K. Phillips
  • Journal:
    Journal of Developmental Origins of Health and Disease / Volume 10 / Issue 2 / April 2019
    Published online by Cambridge University Press:
    02 October 2018, pp. 154-163

  • Maternal insufficiency during fetal development can have long-lasting effects on the offspring, most notably on nephron endowment. In polycystic kidney disease (PKD), variability in severity of disease is observed and maternal environment may be a modifying factor. In this study, we first established that in a rodent model of PKD, the Lewis polycystic kidney (LPK) rat’s nephron numbers are 25% lower compared with wildtype animals. We then investigated the effects of prenatal and postnatal maternal environment on phenotype and nephron number. LPK pups born from and raised by homozygous LPK dams (control) were compared with LPK pups cross-fostered onto heterozygous LPK dams to improve postnatal environment; with LPK pups born from and raised by heterozygous LPK dams to improve both prenatal and postnatal environment and with LPK pups born from and raised by Wistar Kyoto-LPK heterozygous dams to improve both prenatal and postnatal environment on a different genetic background. Improvement in both prenatal and postnatal environment improved postnatal growth, renal function and reduced blood pressure, most notably in animals with different genetic background. Animals with improved postnatal environment only showed improved growth and blood pressure, but to a lesser extent. All intervention groups showed increased nephron number compared with control LPK. In summary, prenatal and postnatal environment had significant effect in delaying progression and reducing severity of PKD, including nephron endowment.