Joan Li1, Michael Guandalini2, Helena Mcinnes3, Yogavijayan Kandasamy3, Peter Trnka4, Karen Moritz5. 1. Faculty of Medicine, University of Queensland, Brisbane, Queensland, Australia. 2. Medical Imaging and Nuclear Medicine, Queensland Children's Hospital, Brisbane, Queensland, Australia. 3. Department of Neonatology, Townsville Hospital University of Newcastle, Douglas, Queensland, Australia. 4. Department of Nephrology, Queensland Children's Hospital, Brisbane and School of Medicine, University of Queensland, Brisbane, Queensland, Australia. 5. Centre for Children's Health Research, and School of Biomedical Science, University of Queensland, Brisbane, Queensland, Australia.
Abstract
AIM: In humans, nephrogenesis ceases before birth, but the renal medulla compartment continues to develop after birth. We aim to evaluate the relative growth of different renal compartments in preterm babies compared with age-matched term babies, and explore the impact of premature birth on postnatal renal maturation, remodelling and possible long-term implications. METHODS: This retrospective study compared the renal ultrasonographic images between preterm babies and term infants. Ultrasound images were obtained at 32 weeks (preterm), 37 weeks and at 6 months of age. Kidney volume, length, renal cortex and medulla thickness were measured and compared between preterm and term babies. RESULTS: Preterm babies were lighter in body weight and shorter for crown-heel length at age-matched 37 weeks. All kidney growth parameters were also smaller compared with term babies. However, by 6 months of age kidney volume and length measurements were no longer significantly different between the two groups though preterm babies were still significantly lighter and shorter. The catch-up of the overall kidney growth in preterm babies was mainly attributed to the hypertrophic growth of the renal cortex while the postnatal renal medulla growth was disrupted. This trend continued as the renal cortical thickness became significantly larger while the medulla became smaller in preterm babies at 6 months of age, compared with age-matched term baby. CONCLUSIONS: In preterm babies, the renal cortical region undergoes accelerated growth after birth while the renal medulla growth lags behind. Further investigations will be necessary to determine whether this has a negative impact on renal function later in life.
AIM: In humans, nephrogenesis ceases before birth, but the renal medulla compartment continues to develop after birth. We aim to evaluate the relative growth of different renal compartments in preterm babies compared with age-matched term babies, and explore the impact of premature birth on postnatal renal maturation, remodelling and possible long-term implications. METHODS: This retrospective study compared the renal ultrasonographic images between preterm babies and term infants. Ultrasound images were obtained at 32 weeks (preterm), 37 weeks and at 6 months of age. Kidney volume, length, renal cortex and medulla thickness were measured and compared between preterm and term babies. RESULTS: Preterm babies were lighter in body weight and shorter for crown-heel length at age-matched 37 weeks. All kidney growth parameters were also smaller compared with term babies. However, by 6 months of age kidney volume and length measurements were no longer significantly different between the two groups though preterm babies were still significantly lighter and shorter. The catch-up of the overall kidney growth in preterm babies was mainly attributed to the hypertrophic growth of the renal cortex while the postnatal renal medulla growth was disrupted. This trend continued as the renal cortical thickness became significantly larger while the medulla became smaller in preterm babies at 6 months of age, compared with age-matched term baby. CONCLUSIONS: In preterm babies, the renal cortical region undergoes accelerated growth after birth while the renal medulla growth lags behind. Further investigations will be necessary to determine whether this has a negative impact on renal function later in life.
Authors: Jaime M Restrepo; Laura Torres-Canchala; Juan Carlos Arias Cadavid; Michael Ferguson; Adriana Villegas; Oscar Ramirez; Martin Rengifo; Guido Filler Journal: J Pediatr (Rio J) Date: 2021-09-08 Impact factor: 2.990