Курсовая работа: Эффективность применения тотальной гипотермии у новорожденных с гипоксически-ишемической энцефалопатией

11. Tan WK, Williams CE, During MJ, et al Accumulation of cytotoxins during the development of seizures and edema after hypoxic-ischemic injury in late gestation fetal sheep. Pediatr Res. 1996;39:791–797

12. Gluckman PD, Guan J, Williams C, et al Asphyxial brain injury—the role of the IGF system. Mol Cell Endocrinol. 1998;140:95–99

13. Gunn AJ, Gunn TR, de Haan HH, Williams CE, Gluckman PD. Dramatic neuronal rescue with prolonged selective head cooling after ischemia in fetal lambs. J Clin Invest. 1997;99:248–256

14. Gunn AJ, Gunn TR, Gunning MI, Williams CE, Gluckman PD. Neuroprotection with prolonged head cooling started before postischemic seizures in fetal sheep. Pediatrics. 1998;102:1098–1106

15. Gunn AJ, Bennet L, Gunning MI, Gluckman PD, Gunn TR. Cerebral hypothermia is not neuroprotective when started after postischemic seizures in fetal sheep. Pediatr Res. 1999;46:274–280

16. Sarnat HB, Sarnat MS. Neonatal encephalopathy following fetal distress. A clinical and electroencephalographic study. Arch Neurol. 1976;33:696–705

17. Spitzmiller RE, Phillips T, Meinzen-Derr J, Hoath SB. Amplitude-integrated EEG is useful in predicting neurodevelopment outcome in full term infants with hypoxic-ischemic encephalopathy: a meta-analysis. J Child Neurol. 2007;22:9:1069–1078

18. Freeman JM. The use of amplitude-integrated electroencephalography: beware of its unintended consequences. Pediatrics. 2007;119:615–617

19. Bona E, Hagberg H, Løberg EM, Bågenholm R, Thoresen M. Protective effect of moderate hypothermia after neonatal hypoxia-ischemia: short and long term outcome. Pediatr Res. 1998;43:738–745

20. Busto R, Dietrich WD, Globus MYT, Valdes I, Scheinberg P, Ginsberg MD. Small differences in intraischemic brain temperature critically determine the extent of ischemic neuronal injury. J Cereb Blood Flow Metab. 1987;7:729–738

21. Carroll M, Beek O. Protection against hippocampal CA cell loss by post-ischemic hypothermia is dependent of delay of initiation and duration. Metab Brain Dis. 1992;7:45–50

22. Colbourne F, Corbett D. Delayed and prolonged post-ischemic hypothermia is neuroprotective in the gerbil. Brain Res. 1994;656:265–272

23. O'Brien FE, Iwata O, Thornton JS, et al Delayed whole body cooling to 33 to 35C and the development of impaired energy generation consequential to transient cerebral hypoxia-ischemia in the newborn piglet. Pediatrics. 2006;117:1549–1558

24. Sirimanne ES, Blumberg RM, Bossano D, et al The effect of prolonged modification of cerebral temperature on outcome after hypoxia-ischemic brain injury in the infant rat. Pediatr Res. 1996;39:591–597

25. Thoresen M, Penrice J, Lorek A, et al Mild hypothermia following severe transient hypoxia-ischemic ameliorates delayed cerebral energy failure in the newborn piglet. Pediatr Res. 1995;5:667–670

26. Thoresen M, Bågenholm R, Løberg EM, Apricena F, Kjellmer I. Posthypoxic cooling of neonatal rats provides protection against brain injury. Arch Dis Child. 1996;74:F3–F9

27. Thoresen M, Simmonds M, Satas S, Tooley J, Silver IA. Effective selective head cooling during posthypoxic hypothermia in newborn piglets. Pediatr Res. 2001;49:594–599

28. Tooley J, Satas S, Eagle R, Silver IA, Thoresen M. Significant selective head cooling can be maintained long-term after global hypoxia ischemia in newborn piglets. Pediatrics. 2002;109:643–649

29. Tooley J, Satas S, Porter H, Silver IA, Thoresen M. Head cooling with mild systemic hypothermia in anesthetized piglets in neuroprotection. Ann Neurol. 2003;53:65–72

30. Tooley JR, Eagle RC, Satas S, Thoresen M. Significant head cooling can be achieved while maintaining normothermia in the newborn piglet. Arch Dis Child Fetal Neonatal Ed. 2005;90:F262–F266

31. Yager JY, Asselin J. Effects of mild hypothermia on cerebral energy metabolism during the evolution of hypoxic-ischemic brain damage in the immature rat. Stroke. 1996;27:919–926

32. Laptook AR, Corbett RJ, Sterett R, Garcia D, Tollefsbol G. Quantitative relationship between brain temperature and energy utilization rate measured in vivo using P and H magnetic resonance spectroscopy. Pediatr Res. 1995;38:919

33. Taylor DL, Mehmet H, Cady EB, Edwards AD. Improved neuroprotection with hypothermia delayed by 6 hours following cerebral hypoxia-ischemia in the 14-day-old rat. Pediatr Res. 2002;51:13–19

34. Covey MV, Oorschot DE. Effect of hypothermic post-treatment on hypoxic-ischemic striatal injury, and normal striatal development, in neonatal rats: a stereological study. Pediatr Res. 2007;62:646–651

35. Iwata O, Thornton JS, Sellwood MW, et al Depth of delayed cooling alters neuroprotection pattern after hypoxia-ischemia. Ann Neurol. 2005;58:75–87

36. Williams G, Dardzinski BJ, Buckalew AR, Smith MB. Modest hypothermia preserves cerebral energy metabolism during hypoxia-ischemia and correlates with brain damage: a P nuclear magnet resonance study in unanesthetized neonatal rats. Pediatr Res. 1997;42:700–708

37. Gluckman PD, Wyatt J, Azzopardi DV, et alon the behalf of the Cool Cap Study Group. Selective head cooling with mild systemic hypothermia after neonatal encephalopathy: multicenter randomized trial. Lancet. 2005;365:663–670

38. Eicher DJ, Wagner CL, Katikaneni LP, et al Moderate hypothermia in neonatal encephalopathy: efficacy outcomes. J Pediatr Neurol. 2005;32:11–17

39. Shankaran S, Laptook AR, Ehrenkranz RA, et aland the NICHD and Human Development Neonatal Research Network. Whole-body hypothermia for neonates with hypoxic-ischemic encephalopathy. N Engl J Med. 2005;353:1574–1584