The Kidney from Prenatal to Adult Life: Perinatal Programming and Reduction of Number of Nephrons during Development

Puddu, Melania; Fanos, Vassilios; Podda, Francesca; Zaffanello, Marco

doi:10.1159/000211324

Cited by 91 publications

(70 citation statements)

References 177 publications

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“…Although the Values are given as the mean ± SD B2MG, Beta-2 microglobulin; NAG, β-N-acetyl-D-glucosaminidase; GFR, glomerular filtration rate pathogenesis is still unclear, it has been proposed that fetal growth retardation may be associated with impaired nephronogenesis, resulting in fewer nephrons and an increased chance of renal disease later in life. Glomerular hyperfiltration resulting from a reduced number of nephrons could lead to systemic hypertension, glomerular sclerosis and progressive deterioration of renal function [22]. Nephrogenesis is a complex process that requires many factors.…”

Section: Discussionmentioning

confidence: 99%

Ambulatory blood pressure monitoring and renal functions in term small-for-gestational age children

et al. 2010

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The aim of this study was to investigate the relationship between birth weight and blood pressure (BP) by means of ambulatory BP monitoring (ABPM) and renal functions in non-obese children who were born small-for-gestational age (SGA) at term. The study group consisted of 39 (19 female, 20 male; mean age 8.8 ± 2.6 years) children born SGA. Their data were compared to those of 27 (13 female, 14 male; mean age 8.2 ± 2.9 years) children born appropriate-for-gestational age (AGA). No difference between SGA and AGA children was observed based on office BP measurements and daytime, nighttime and 24-h ABPM. Seventeen SGA (48.6%) and nine AGA (37.5%) children had a 24-h systolic BP (SBP) load over 25%, and seven of these (5 SGA, 2 AGA) were hypertensive according to mean SBP values. The prevalence of the non-dipping phenomenon in SGA and AGA children was similar. Renal functions were normal and similar in both groups. Three children (2 SGA, 1 AGA) with normal glomerular filtration rate had higher microalbumin excretion and one SGA child had systolic hypertension according to the office BP. Our findings demonstrate that the influence of intrauterine growth restriction on BP is not manifested during the childhood period, and they do not support the existence of a negative relationship between birth weight and BP in children.

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Section: Discussionmentioning

confidence: 99%

Ambulatory blood pressure monitoring and renal functions in term small-for-gestational age children

et al. 2010

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“…Key considerations for prevention include developing ways to motivate young girls and women to adopt nutritional supplementation in the preconception period when there are clear benefits for doing so. There is increasing evidence (human and animal studies) that even modest levels of vitamin A deficiency can reduce nephron number in developing fetuses (Puddu et al 2009). These simple and easily treated risks should not be overlooked.…”

Section: Preconceptionmentioning

confidence: 99%

“…In infancy/childhood, the most overt cause of CKD and end-stage renal disease is birth defects or congenital anomalies of the kidney and urinary tract that result in inadequate renal mass to provide internal physiologic homeostasis for the provision of growth and development (NAPRTCS 2011;Chen et al 2012;Bagby 2015;Puddu et al 2009;Chiang et al 2010;Hsu et al 2014;Greenbaum et al 2011;Horbar et al 2012;Hack et al 2002;Stelloh et al 2012;Gilbert et al 1990;Lelievre-Pegorier et al 1998;Sutherland et al 2012a;Ortiz et al 2001;Brenner and Anderson 1987;Reidy and Kaskel 2007;Fogo 2007;Lopez-Hernandez and Lopez-Novoa 2012;Gubhaju et al 2009;Sutherland et al 2012b;White et al 2009;Bacchetta et al 2009;KeijzerVeen et al 2010;Rademacher and Sinaiko 2009;Salgado et al 2009; Centers for Disease Control and Prevention (CDC) 2007; Hodgin et al 2009a;Harambat et al 2012;Warady and Chadha 2007;Tabel et al 2010;Sanna-Cherchi et al 2009). The long-term consequences of prematurity on renal mass are more subtle but, as mentioned above, are becoming increasingly clear.…”

Section: Prematurity: An Underrecognized Risk Factor For Ckdmentioning

confidence: 99%

Chronic Kidney Disease: A Life Course Health Development Perspective

Brophy

Charlton

Carmody

et al. 2017

Handbook of Life Course Health Development

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Chronic kidney disease (CKD) reflects life events that range from maternal-fetal influences to geriatric exposures. The global direct and indirect costs of CKD are high and include maternal-neonatal hospitalization and treatment, acute kidney injury, dialysis and transplant, missed work, and medications, to name a few. The impact of poor diet, adverse childhood experiences, medication use, and failure to follow consistent public health standards are increasingly appreciated as key influences in the development of CKD. Socioeconomic factors can significantly influence the timing and phenotypic expression in people at risk for developing CKD, although more research is needed to understand these mechanisms. In general, biomedicine has been focused on treating well-established CKD morbidity. This strategy has been short sighted and costly. A more cost-effective approach would focus on early life interventions that hold the potential for mitigating CKD risk and its sequelae. This chapter applies the life course health development principles to review determinants and pathways for CKD evolution and identifies of the gaps in our knowledgebase. We also discuss several research strategies for evaluating the life course health development of CKD.

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“…Consequently, a mismatch between pre-and postnatal nutrient environments may induce an altered cardiovascular, renal, pulmonary, and metabolic function in the adult age. Approaches such as individualized fortification of human milk may be very useful in this setting with long-term beneficial effects and should be considered in Neonatal Intensive Care Units and (NICUs) [22][23][24].…”

Section: Vassilios Fanos and Murat Yurdakö Kmentioning

confidence: 99%