Phototherapy and its effect on some physiological functions in newborns

1. Cremer RJ, Perryman PW, Richards DH. Influence of light on the hyperbilirubinaemia of infants. Lancet 1958; 1(7030):1094-7.10.1016/S0140-6736(58)91849-XSearch in Google Scholar

2. Yurdakök M. Phototherapy in the newborn: what’s new? J Pediatr Neonat Individual Med 2015; 4(2):e040255.Search in Google Scholar

3. Javorka K, Zavarská Ľ. Zmeny systémového tlaku krvi a kardiorespiračných parametrov u nedonosených novorodencov počas fototerapie. In Česko-slovenská Pediatrie 1990; vol 45 (4). p. 230–232.Search in Google Scholar

4. Wang X, Chowdhury JR, Chowdhury NR. Bilirubin metabolism: Applied physiology. Current Paediatrics 2006; 16, 70–74.10.1016/j.cupe.2005.10.002Search in Google Scholar

5. American Academy Of Pediatrics. Subcommittee on Hyperbilirubinemia. Management of hyperbilirubinemia in the newborn infant 35 or more weeks of gestation. Pediatrics 2004; 114:297–316.10.1542/peds.114.1.29715231951Search in Google Scholar

6. Itoh S, Okada H, Kuboi T, Kusaka T. Phototherapy for neonatal hyperbilirubinemia. Pediatr Int 2017; Sep;59(9):959–966.10.1111/ped.1333228563973Search in Google Scholar

7. Maisels MJ, McDonagh AF. Phototherapy for neonatal jaundice. N Engl J Med 2008; 358(9):920-8.10.1056/NEJMct070837618305267Search in Google Scholar

8. McDonagh AF. Bilirubin photo-isomers: regiospecific acyl glucuronidation in vivo. Monatsh Chem 2014; 145(3):465–82.10.1007/s00706-013-1076-6Search in Google Scholar

9. Stokowski LA. Fundamentals of phototherapy for neonatal jaundice. Adv Neonatal Care 2011 Oct; 11(5 Suppl):S10–21.10.1097/ANC.0b013e31822ee62c22123449Search in Google Scholar

10. Bhutani VK. Committee on Fetus and Newborn; American Academy of Pediatrics. Phototherapy to prevent severe neonatal hyperbilirubinemia in the newborn infant 35 or more weeks of gestation. Pediatrics 2011; 128(4):e1046–52.10.1542/peds.2011-149421949150Search in Google Scholar

11. Bhutani VK, Meng NF, Knauer Y, Danielsen BH, Wong RJ, Stevenson DK. Extreme hyperbilirubinemia and rescue exchange transfusions in California from 2007 to 2012. J Perinatol 2016; 36: 853–7.10.1038/jp.2016.10627442156Search in Google Scholar

12. O’Gorman SM, Murphy GM. Photosensitizing medications and photocarcinogenesis. Photodermatol Photoimmunol Photomed 2014; 30(1):8–14.10.1111/phpp.1208524393207Search in Google Scholar

13. Maisels MJ, Newman TB. The epidemiology of neonatal hyperbilirubinemia. In: Stevenson DK, Maisels MJ, Watchko JF, editors. Care of the jaundiced neonate 2012. New York: McGraw Hill: 97–113.Search in Google Scholar

14. Maisels MJ. Noninvasive measurements of bilirubin. Pediatrics 2012;129:779–81.10.1542/peds.2012-006922430459Search in Google Scholar

15. Časnocha Lúčanová L, Maťašová K, Zibolen M, Krcho P. Accuracy of transcutaneous bilirubin measurement in newborns after phototherapy. J Perinatol. 2016; Oct;36(10):858–61.10.1038/jp.2016.9127279078Search in Google Scholar

16. Vandborg PK, Hansen BM, Greisen G, Ebbesen F. Dose-response relationship of phototherapy for hyperbilirubinemia. Pediatrics 2012; 130(2):e352-7.10.1542/peds.2011-323522802603Search in Google Scholar

17. Tridente A, De Luca D. Efficacy of light-emitting diode versus other light sources for treatment of neonatal hyperbilirubinemia: a systematic review and meta-analysis. Acta Paediatr 2012; May; 101(5):458-65.10.1111/j.1651-2227.2011.02561.x22168543Search in Google Scholar

18. Kumar P, Chavla D, Deorari A. Light-emitting diode phototherapy for unconjugated hyperbilirubinaemia in neonates. Cochrane Database Syst Rev 2011; (12):CD007969.10.1002/14651858.CD007969.pub2688506922161417Search in Google Scholar

19. Mills JF, Tudehope D. Fibreoptic phototherapy for neonatal jaundice. Cochrane Database Syst Rev 2001 CD00206010.1002/14651858.CD002060702579911279748Search in Google Scholar

20. Xiong T, Cambier S, Mu D. The side effects of phototherapy for neonatal jaundice : What we know? What should we do? In Eur J Pediatr 2011; vol. 170, p.1247–1255.10.1007/s00431-011-1454-121455834Search in Google Scholar

21. Mehta S, Kumar P, Narang A. A randomized controlled trial of fluid supplementation in term neonates with severe hyperbilirubinemia. J Pediatr 2005; 147:781–785.10.1016/j.jpeds.2005.07.02616356431Search in Google Scholar

22. Maayan-Metzger A, Yosipovitch G, Hadad E, Sirota L. Transepidermal water loss and skin hydration in preterm infants during phototherapy. Am J Perinatol 2001; 18(7):393–6.10.1055/s-2001-1869811731893Search in Google Scholar

23. Demirsoy U, Nalbantoglu B, Nalbantoglu A, Cakan M, Say A. Effect of fluid supplementation on serum bilirubin level during phototherapy of exclusively breastfed term infants with hyperbilirubinemia. Breastfeed Med; 2011 Nov 2.10.1089/bfm.2011.008522047110Search in Google Scholar

24. Aydemir O, Soysaldi E, Kale Y, Kavurt S, Bas AY, Demirel N. Body temperature changes of newborns under fluorescent versus LED phototherapy. Indian J Pediatr 2014; 81(8):751–4.10.1007/s12098-013-1209-224037476Search in Google Scholar

25. Eghbalian F, Monsef A. Phototherapy-induced hypocalcemia in icteric newborns. Iran J Med Sci 2002; 27:169–171.Search in Google Scholar

26. Gheshmi AN, Naderi S, Homayranie, Safari B. Prevalence of hypocalcemia after phototherapy among neonates who underwent phototherapy in Koodakan Hospital in Bandar Abbas in 2013. Electron Physician 2015; Oct; 7(6): 1387–1390.Search in Google Scholar

27. Chen A, Du L, Xu Y, Chen L, Wu Y. The effect of blue light exposure on the expression of circadian genes: bmal1 and cryptochrome 1 in peripheral blood mononuclear cells of jaundiced neonates. Pediatr Res 2005; 58:1180–1184.10.1203/01.pdr.0000183663.98446.0516306190Search in Google Scholar

28. Singh M, Jadhav HR. Melatonin: functions and ligands. Drug Discov Today 2014; 19(9):1410-8.10.1016/j.drudis.2014.04.01424792719Search in Google Scholar

29. Benders MJ, Van Bel F, Van de Bor M. Haemodynamic consequences of phototherapy in term infants. Eur J Pediatr 1999; 158:323–8.10.1007/s00431005108210206133Search in Google Scholar

30. Benders MJ. The effect of phototherapy on cerebral blood flow velocity in preterm infants. Acta Paediatr 1998; 87:786–92.10.1111/j.1651-2227.1998.tb01748.xSearch in Google Scholar

31. Benders MJ, Van Bel F, Van de Bor M. The effect of phototherapy on renal blood flow velocity in preterm infants. Biol Neonate 1998; 73:228–234.10.1159/0000139819551189Search in Google Scholar

32. Borenstein-Levin L, Sharif D, Amshalom A, Riskin A, Khalil A, Bader D, Kugelman A. Effects of Phototherapy on Coronary Blood Flow in Healthy Neonates: A Pilot Study. Neonatology 2016; 110(1):75–82.10.1159/00044424427058608Search in Google Scholar

33. Pezzati M, Biagiotti R, Vangi V, Lombardi E, Wiechmann L, Rubaltelli FF. Changes in mesenteric blood flow response to feeding: conventional versus fiber-optic phototherapy. Pediatrics 2000; Feb; 105(2):350–3.10.1542/peds.105.2.35010654954Search in Google Scholar

34. Uhríková Z, Zibolen M, Javorka K, Chladeková L, Javorka M. Hyperbilirubinemia and phototherapy in newborns: Effects on cardiac autonomic control Early Human Development 2015; 91 351–356.10.1016/j.earlhumdev.2015.03.00925919997Search in Google Scholar

35. Abu Faddan NH, Abd El-Aziz N HR, Abd El-Azeem HG, Shreif T. Effect of Phototherapy on Blood Levels of Endothelin-1 and Nitric Oxide in Hyberbilirubinemic Newborn Infants. e-Journal of Neonatology Research 2014; Volume 4, Issue 1, January.Search in Google Scholar

36. Barrett KE, Boitano S, Barman SM, Brooks HL. Chapter 32: Cardiovascular regulatory mechanisms. Ganong’s Review of Medical Physiology, 24th Edition. 2012. McGraw-Hill, New York, NY.Search in Google Scholar

37. Liu GS, Wu H, Wu BQ, Huang RZ, Zhao LH, Wen Y. Effect of phototherapy on blood endothelin and nitric oxide levels: clinical significance in preterm infants. World J Pediatr 2008; 4(1):31–5.10.1007/s12519-008-0006-x18402249Search in Google Scholar

38. Turan O, Ergenekon E, Koc E, Atalay Y, Unal S. Impact of phototherapy on vasoactive mediators: NO and VEGF in the newborn. J Perinat Med 2004; 32:359–364.10.1515/JPM.2004.067Search in Google Scholar

39. Sedlak TW, Snyder SH. Bilirubin benefits: cellular protection by a biliverdin reductase antioxidant cycle. Pediatrics 2004; 113(6):1776–82.10.1542/peds.113.6.1776Search in Google Scholar

40. Lewis HM, Campbell RH, Hambleton G. Use or abuse of phototherapy for physiological jaundice of newborn infants. Lancet 1982; 2(8295):408–10.10.1016/S0140-6736(82)90440-8Search in Google Scholar

41. Wickremasinghe AC, Kuzniewicz MW, Grimes BA, McCulloch CE, Newman TB. Neonatal Phototherapy and Infantile Cancer. Pediatrics 2016; Jun;137(6).10.1542/peds.2015-135327217478Search in Google Scholar

42. Newman TB, Wickremasinghe AC, Walsh EM, Grimes BA, McCulloch CE, Kuzniewicz MW. Retrospective Cohort Study of Phototherapy and Childhood Cancer in Northern California. Pediatrics 2016; Jun;137(6).10.1542/peds.2015-135427217477Search in Google Scholar

43. Arnold C, Pedroza C, Tyson JE. Phototherapy in ELBW newborns: does it work? Is it safe? The evidence from randomized clinical trials. Semin Perinatol 2014; 38(7):452–64.10.1053/j.semperi.2014.08.00825308614Search in Google Scholar