166 Chapter 6 References 1. Burjonrappa, S., E. Crete, and S. Bouchard, Comparative outcomes in intestinal atresia: a clinical outcome and pathophysiology analysis. Pediatr Surg Int, 2011. 27(4): p. 437-42. 2. Youssef, F., et al., Determinants of outcomes in patients with simple gastroschisis. Journal of Pediatric Surgery, 2017. 52(5): p. 710-714. 3. Jaffray, J., et al., Peripherally inserted central catheters lead to a high risk of venous thromboembolism in children. Blood, 2020. 135(3): p. 220-226. 4. Yamaguchi, R.S., et al., Peripherally inserted central catheters are associated with lower risk of bloodstream infection compared with central venous catheters in paediatric intensive care patients: a propensity-adjusted analysis. Intensive Care Med, 2017. 43(8): p. 1097-1104. 5. Vegting, I.L., et al., Prophylactic anticoagulation decreases catheter-related thrombosis and occlusion in children with home parenteral nutrition. JPEN J Parenter Enteral Nutr, 2012. 36(4): p. 456-62. 6. Riddle, S., et al., Gastroschisis with intestinal atresia leads to longer hospitalization and poor feeding outcomes. Journal of Perinatology, 2021. 7. Snyder, A.N. and S. Burjonrappa, Central line associated blood stream infections in gastroschisis patients: A nationwide database analysis of risks, outcomes, and disparities. J Pediatr Surg, 2020. 55(2): p. 286-291. 8. Castor, E.D.C. Castor Electronic Data Capture. 2019 August 28, 2019]; Available from: https://castoredc.com. 9. Martin, L.W. and J.T. Zerella, Jejunoileal atresia: A proposed classification. Journal of Pediatric Surgery, 1976. 11(3): p. 399-403. 10. Clavien, P.A., et al., The Clavien-Dindo classification of surgical complications: five-year experience. Ann Surg, 2009. 250(2): p. 187-96. 11. Wright, M.O., et al., Healthcare-associated infections studies project: An American Journal of Infection Control and National Healthcare Safety Network data quality collaboration: Location mapping. Am J Infect Control, 2018. 46(5): p. 577-578. 12. Bakhuizen, S.E., et al., Meta-analysis shows that infants who have suffered neonatal sepsis face an increased risk of mortality and severe complications. Acta Paediatr, 2014. 103(12): p. 1211-8. 13. Jarkman, C. and M. Salö, Predictive Factors for Postoperative Outcome in Children with Jejunoileal Atresia. Surg J (N Y), 2019. 5(4): p. e131-e136. 14. Youssef, F., et al., Determinants of outcomes in patients with simple gastroschisis. J Pediatr Surg, 2017. 52(5): p. 710-714. 15. Kolaček, S., J.W.L. Puntis, and I. Hojsak, ESPGHAN/ESPEN/ESPR/CSPEN guidelines on pediatric parenteral nutrition: Venous access. Clin Nutr, 2018. 37(6 Pt B): p. 2379-2391. 16. Dubbink-Verheij, G.H., et al., Bloodstream Infection Incidence of Different Central Venous Catheters in Neonates: A Descriptive Cohort Study. Front Pediatr, 2017. 5: p. 142. 17. Peng, Y.F., et al., Comparison of outcomes following three surgical techniques for patients with severe jejunoileal atresia. Gastroenterol Rep (Oxf), 2019. 7(6): p. 444-448. 18. Eeftinck Schattenkerk, L.D., et al., Treatment of Jejunoileal Atresia by primary anastomosis or Enterostomy: Double the operations, double the risk of complications1,2,3. Journal of Pediatric Surgery, 2021. 19. Papoff, P., et al., Gut microbial translocation in critically ill children and effects of supplementation with pre- and pro biotics. International journal of microbiology, 2012. 2012: p. 151393-151393. 20. Walson, J.L. and J.A. Berkley, The impact of malnutrition on childhood infections. Current opinion in infectious diseases, 2018. 31(3): p. 231-236. 21. Greenberg, R.G., et al., Effect of Catheter Dwell Time on Risk of Central Line-Associated Bloodstream Infection in Infants. Pediatrics, 2015. 136(6): p. 1080-6. 22. Östlund, Å., et al., Incidence of and risk factors for venous thrombosis in children with percutaneous non-tunnelled central venous catheters. Br J Anaesth, 2019. 123(3): p. 316-324.
RkJQdWJsaXNoZXIy MTk4NDMw