Frequency of congenital anomalies of the kidney and urinary tract and their relationship with maternal and newborn associated factors

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Pahola Atehortúa Baena
Susana Mejia Mesa
Laura Arango Gutierrez
Santiago Carvalho Saldarriaga
Vanessa Morales Ospina
Libia María Rodriguez Padilla

Abstract

Introduction: Congenital malformations of the kidney and urinary tract are very common and represent the main cause of chronic kidney failure in children. Objective: To determine the frequency of congenital malformations of the kidney and urinary tract and its association with maternal and neonate factors. Methods: A retrospective cohort study. Sociodemographic and clinical variables were collected, such as age, sex, diabetes, hypertension, obesity, volume alterations in the amniotic fluid, gestational age, and child weight. The association between these factors and congenital renal malformations was established using the chi-square or Fisher´s test. Relative risks with their respective confidence intervals were estimated and adjusted using binomial regression. Results: 2 137 patients were included; 54.4 % were men, the median gestational age was 38.8 weeks, interquartile range of 37.57 – 39.71). Median maternal age was 26 years, interquartile range of 21 – 30; 67 neonates (3.1 %) presented some malformation, the most frequent was the dilation of the urinary tract, found in 59 patients (93.6 %). Maternal factors such as polyhydramnios and oligohydramnios were shown to be associated with the appearance of malformations. Conclusion: The frequency of the malformations was high compared to that reported in the literature. Changes in the amount of amniotic fluid, especially polyhydramnios, were found as significant associated factors.

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Atehortúa Baena, . P. ., Mejia Mesa, S., Arango Gutierrez , L. ., Carvalho Saldarriaga , S. ., Morales Ospina , V. ., & Rodriguez Padilla , L. M. . (2021). Frequency of congenital anomalies of the kidney and urinary tract and their relationship with maternal and newborn associated factors. Pediatría, 54(2), 46–53. https://doi.org/10.14295/rp.v54i2.211
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Originals

References

Stoll C, Dott B, Alembik Y, Roth M-P. Associated nonurinary congenital anomalies among infants with congenital anomalies of kidney and urinary tract (CAKUT). Eur J Med Genet. 2014;57(7):322–8.

Sahay M. Congenital anomalies of kidney and urinary tract (CAKUT). Clin Queries Nephrol. 2013;2(4):156–65.

Murugapoopathy V, Gupta IR. A Primer on Congenital Anomalies of the Kidneys and Urinary Tracts (CAKUT). Clin J Am Soc Nephrol. 2020;15(5):723-731. doi: 10.2215/CJN.12581019.

Langstaff CHF, Mallik M. Antenatally detected urinary tract abnormalities (AUTA). Paediatr Child Health. 2014;24(7):303–10.

Queisser-Luft A, Stolz G, Wiesel A, Schlaefer K, Spranger J. Malformations in newborn: results based on 30,940 infants and fetuses from the Mainz congenital birth defect monitoring system (1990-1998). Arch Gynecol Obstet. 2002;266(3):163–7.

Li Z-Y, Chen Y-M, Qiu L-Q, Chen D-Q, Hu C-G, Xu J-Y, et al. Prevalence, types, and malformations in congenital anomalies of the kidney and urinary tract in newborns: a retrospective hospital-based study. Ital J Pediatr. 201945(1):50.

Saura Hernández M del C, Brito Machado E, Duménigo Lugo D, Viera Pérez I, González Ojeda GR. Malformaciones renales y del tracto urinario con daño renal en Pediatría. Rev Cuba Pediatría. 2015;87(1):40–9.

Halty M, Caggiani M, Notejane M, Bertinat A, Giachetto G. Anomalías nefrourológicas congénitas en niños hospitalizados. Arch Pediatría Urug. 2013;84:48–54.

Manoharan A, Krishnamurthy S, Sivamurukan P, Ananthakrishnan R, Jindal B. Screening for Renal and Urinary Tract Anomalies in Asymptomatic First Degree Relatives of Children with Congenital Anomalies of the Kidney and Urinary Tract (CAKUT). Indian J Pediatr. 2020;87(9):686-691.

Wiesel A, Queisser-Luft A, Clementi M, Bianca S, Stoll C, EUROSCAN Study Group. Prenatal detection of congenital renal malformations by fetal ultrasonographic examination: an analysis of 709,030 births in 12 European countries. Eur J Med Genet. 2005;48(2):131–44.

Seikaly MG, Ho PL, Emmett L, Fine RN, Tejani A. Chronic renal insufficiency in children: the 2001 Annual Report of the NAPRTCS. Pediatr Nephrol Berl Ger. 2003;18(8):796–804.

Gimpel C, Masioniene L, Djakovic N, Schenk J-P, Haberkorn U, Tönshoff B, et al. Complications and long-term outcome of primary obstructive megaureter in childhood. Pediatr Nephrol Berl Ger. 2010;25(9):1679–86.

Dias T, Sairam S, Kumarasiri S. Ultrasound diagnosis of fetal renal abnormalities. Best Pract Res Clin Obstet Gynaecol. 2014;28(3):403–15.

Nguyen H, Benson C, Bromley B, et al. Multidisciplinary consensus on the classification of prenatal and postnatal urinary tract dilation (UTD classification system). J Pediatr Urol. 2014;10(6):982-98.

Melo BF, Aguiar MB, Bouzada MCF, Aguiar RL, Pereira AK, Paixão GM, et al. Early risk factors for neonatal mortality in CAKUT: analysis of 524 affected newborns. Pediatr Nephrol Berl Ger. 2012 (6):965–72.

Jadresić L, Au H, Woodhouse C, Nitsch D. Pre-pregnancy obesity and risk of congenital abnormalities of the kidney and urinary tract (CAKUT)-systematic review, meta-analysis and ecological study. Pediatr Nephrol. 2021;36(1):119-132.

Tain Y-L, Luh H, Lin C-Y, Hsu C-N. Incidence and Risks of Congenital Anomalies of Kidney and Urinary Tract in Newborns: A Population-Based Case-Control Study in Taiwan. Medicine (Baltimore). 2016 (5):e2659.

Calderón J, Zarante I. Anomalías congénitas urológicas: Descripción epidemiológica y factores de riesgo asociados en Colombia 2001-2004. Arch Esp Urol Ed Impresa. 2006 1;59.

Song R, Yosypiv IV. Genetics of congenital anomalies of the kidney and urinary tract. Pediatr Nephrol Berl Ger. 2011;26(3):353–64.

Shnorhavorian M, Bittner R, Wright JL, Schwartz SM. Maternal risk factors for congenital urinary anomalies: results of a population-based case-control study. Urology.

;78(5):1156–61.

Dart AB, Ruth CA, Sellers EA, Au W, Dean HJ. Maternal diabetes mellitus and congenital anomalies of the kidney and urinary tract (CAKUT) in the child. Am J Kidney Dis Off J Natl Kidney Found. 2015;65(5):684–91.

Dyck RF, Karunanayake C, Pahwa P, Stang M, Erickson RL, Osgood ND. Congenital Anomalies of the Kidney and Urinary Tract (CAKUT): An Emerging Relationship With Pregestational Diabetes Mellitus Among First Nations and Non-First Nations People in Saskatchewan-Results From the DIP: ORRIIGENSS Project. Can J Diabetes. 2021;45(4):346-354.

Ulkumen BA, Pala HG, Baytur YB, Koyuncu FM. Outcomes and management strategies in pregnancies with early onset oligohydramnios. Clin Exp Obstet Gynecol. 2015;42(3):355–7.

Hogan J, Dourthe M-E, Blondiaux E, Jouannic J-M, Garel C, Ulinski T. Renal outcome in children with antenatal diagnosis of severe CAKUT. Pediatr Nephrol Berl Ger. 2012;27(3):497–502.

Groen In ’t Woud S, Renkema KY, Schreuder MF, Wijers CHW, van der Zanden LFM, Knoers NVAM, et al. Maternal risk factors involved in specific congenital anomalies of the kidney and urinary tract: A case-control study. Birt Defects Res A Clin Mol Teratol. 2016;106(7):596–603.

Stothard KJ, Tennant PWG, Bell R, Rankin J. Maternal overweight and obesity and the risk of congenital anomalies: a systematic review and meta-analysis. JAMA. 2009;11;301(6):636–50.

López Yepes JC, Vanegas Ruiz JJ, Piedrahíta Echeverry V, Cornejo Ochoa W. Características clínicas del reflujo vesicoureteral en niños atendidos en el Hospital Universitario San Vicente de Paúl de Medellín, 1960-2004. Iatreia. 2006;19(2):141–54.

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