Neuronal cell death after general anesthesia has been documented in several immature animal models.The possibility of anesthesia- induced neurotoxicity during an uneventful anesthetic in neonates or infants has led to serious questions about the safety of pediatric anesthesia.However, the applicability of animal data to clinical anesthesia remains uncertain.In this review, the evidence of the effects of commonly used anesthetics on neural structures and neurocognitive function in newborn humans and animals.Experimental evidences and human studies were reviewed.A growing number of studies in immature animal models demonstrate degenerative effects of several anesthetics on neuronal structure. Several retrospective reviews evaluating neurocognitive function in children demonstrate temporary neurological sequela after prolonged anesthetic exposure in young children and larger studies identify long-term neurodevelopmental impairment after neonatal surgery and anesthesia.The evidence for anesthesia induced neurodegeneration in animal models is compelling and represent the challenge within the practice of pediatric anesthesiology, however, extends well beyond pediatric anesthesiology because the implicated drugs are widely used in a variety of settings of newborn and young children around the world.No data source until now is complete with this regard to the critical elements necessary to address this question: therefore, further investigations of this phenomenon are imperative both in animals and in young children and governments around the world will be needed to adequately address this critical issue.

1 Ma D, "Xenon mitigates isoflurane-induced neuronal apoptosis in the developing rodent brain" 106 : 746-753, 2007

2 Dominguez KD, "Withdrawal from lorazepam in critically ill children" 40 : 1035-1039, 2006

3 Mellon RD, "Use of anesthetic agents in neonates and young children" 104 : 509-520, 2007

4 Sackey PV, "Three cases of PICU sedation with isoflurane delivered by the ‘AnaConDa’" 15 : 879-885, 2005

5 Creeley CE, "The young: neuroapoptosis induced by anesthetics and what to do about it" 110 : 442-448, 2010

6 Wang C, "The role of the N-methyl-d-aspartate receptor in ketamine- induced apoptosis in rat forebrain culture" 132 : 967-977, 2005

7 Loepke AW, "The physiologic effects of isoflurane anesthesia in neonatal mice" 102 : 75-80, 2006

8 Dobbing J, "The later development of the brain and its vulnerability. In: Scientific Foundations of Paediatrics London" Heinemann Medical 744-759, 1991

9 Bacon RC, "The effect of propofol sedation in pregnancy on neonatal condition" 49 : 1058-1060, 1994

10 Davenport HT, "The effect of general anesthesia, surgery and hospitalization upon the behavior of children" 40 : 806-824, 1970

11 Giles JJ, "Teratogenic and developmental effects of lithium" 12 : 1531-1541, 2006

12 "Surgery and the tiny baby: sensorineural outcome at 5 years of age" The Victorian Infant Collaborative Study Group 32 : 167-172, 1996

13 Rudin M, "Single-dose ketamine administration induces apoptosis in neonatal mouse brain" 16 : 231-243, 2005

14 Rizzi S, "Short exposure to general anesthesia causes widespread neuronal suicide in the developing guinea pig brain in Program No. 251.6. 2005 Abstract Viewer/Itinerary Planner" Society for Neuroscience 2005

15 Kain ZN, "Sevoflurane versus halothane: postoperative maladaptive behavioral changes: a randomized, controlled trial" 102 : 720-727, 2005

16 Vakkuri A, "Sevoflurane mask induction of anaesthesia is associated with epileptiform EEG in children" 45 : 805-811, 2001

17 Nieminen K, "Sevoflurane anaesthesia in children after induction of anaesthesia with midazolam and thiopental does not cause epileptiform EEG" 89 : 853-856, 2002

18 Honegger P, "Selective toxicity of the general anesthetic propofol for GABAergic neurons in rat brain cell cultures" 45 : 631-636, 1996

19 Kelsall AW, "Reversible neurologic dysfunction following isoflurane sedation in pediatric intensive care" 22 : 1032-1034, 1994

20 Bergman I, "Reversible neurologic abnormalities associated with prolonged intravenous midazolam and fentanyl administration" 119 : 644-649, 1991

21 Hayashi H, "Repeated administration of ketamine may lead to neuronal degeneration in the developing rat brain" 12 : 770-774, 2002

22 Gerstner T, "Relevance of phenobarbital-induced neuronal apoptosis in Psychomotor development of 8 to 14 year olds after neonatal phenobarbital treatment" 163 : 1174-1181, 2005

23 Eckenhoff JE, "Relationship of anesthesia to postoperative personality changes in children" 86 : 587-591, 1953

24 Modvig KM, "Psychological changes in children after anaesthesia: a comparison between halothane and ketamine" 21 : 541-544, 1977

25 Asimiadou S, "Protection with estradiol in developmental models of apoptotic neurodegeneration" 58 : 266-276, 2005

26 Macrae D, "Propofol sedation of children" 47 : 811-, 1992

27 Arnold JH, "Prolonged administration of isoflurane to pediatric patients during mechanical ventilation" 76 : 520-526, 1993

28 Blaschke AJ, "Programmed cell death is a universal feature of embryonic and postnatal neuroproliferative regions throughout the central nervous system" 396 : 39-50, 1998

29 Rakic S, "Programmed cell death in the developing human telencephalon" 12 : 2721-2734, 2000

30 Raff MC, "Programmed cell death and the control of cell survival: lessons from the nervous system" 262 : 695-700, 1993

31 Young C, "Potential of ketamine and midazolam, individually or in combination, to induce apoptotic neurodegeneration in the infant mouse brain" 146 : 189-197, 2005

32 Young C, "Potential of ketamine and midazolam, individually or in combination, to induce apoptotic neurodegeneration in the infant mouse brain" 146 : 189-197, 2005

33 Kotiniemi LH, "Postoperative symptoms at home following day-case surgery in children: a multicentre survey of 551 children" 52 : 963-969, 1997

34 Olney JW, "Pilocarpine pretreatment reduces neuroapoptosis induced by midazolam or isoflurane in infant mouse brain in Program No. 286.15. 2006 Neuroscience Meeting Planner" Society for Neuroscience 2006

35 Franck LS, "Opioid and benzodiazepine withdrawal symptoms in paediatric intensive care patients" 20 : 344-351, 2004

36 Fonsmark L, "Occurrence of withdrawal in critically ill sedated children" 27 : 196-199, 1999

37 Lanigan C, "Neurological sequelae in children after prolonged propofol infusion" 47 : 810-811, 1992

38 Trotter C, "Neurological sequelae in children after prolonged propofol infusion" 47 : 340-342, 1992

39 Fredriksson A, "Neurofunctional deficits and potentiated apoptosis by neonatal NMDA antagonist administration" 153 : 367-376, 2004

40 Walker K, "Neurodevelopmental outcomes and surgery in neonates" 42 : 749-751, 2006

41 Fredriksson A, "Neonatal exposure to a combination of N-methyl-d-aspartate and gamma- aminobutyric acid type a receptor anesthetic agents potentiates apoptotic neurodegeneration and persistent behavioral deficits" 107 : 427-436, 2007

42 Hagberg H, "Models of white matter injury: comparison of infectious, hypoxic-ischemic, and excitotoxic insults" 8 : 30-38, 2002

43 Stratmann G, "Magnusson KR, et al. Neonatal isoflurane anesthesia causes a permanent neurocognitive deficit in rats in Program No. 462.7. 2006 Neuroscience Meeting Planner" Society for Neuroscience 2006

44 Vutskits L, "Low concentrations of ketamine initiate dendritic atrophy of differentiated GABAergic neurons in culture" 234 : 216-226, 2007

45 Bouman NH, "Long-term physical, psychological, and social functioning of children with esophageal atresia" 34 : 399-404, 1999

46 Davis PJ, "Long-term outcome following extracorporeal membrane oxygenation for congenital diaphragmatic hernia: the UK experience" 144 : 309-315, 2004

47 Mickley GA, "Long-term age-dependent behavioral changes following a single episode of fetal N-methyl-D-Aspartate (NMDA) receptor blockade" 4 : 28-, 2004

48 Zhong J, "Lithium protects ethanol- induced neuronal apoptosis" 350 : 905-910, 2006

49 Straiko MM, "Lithium protects against anesthesia-induced developmental neuroapoptosis" 110 : 862-868, 2009

50 Slikker W, "Ketamine-induced neuronal cell death in the perinatal Rhesus monkey" 98 : 145-158, 2007

51 Slikker W Jr, "Ketamine-induced neuronal cell death in the perinatal Rhesus monkey" 98 : 145-158, 2007

52 Anand KJ, "Ketamine reduces the cell death following inflammatory pain in newborn rat brain" 62 : 283-290, 2007

53 Wise-Faberowski L, "Isoflurane-induced neuronal degeneration: an evaluation in organotypic hippocampal slice cultures" 101 : 651-657, 2005

54 McAuliffe JJ, "Isoflurane-delayed preconditioning reduces immediate mortality and improves striatal function in adult mice after neonatal hypoxia-ischemia" 104 : 1066-1077, 2007

55 Zhao P, "Isoflurane preconditioning induces neuroprotection that is inducible nitric oxide synthase-dependent in neonatal rats" 101 : 695-703, 2004

56 Zhan X, "Isoflurane neuroprotection in rat hippocampal slices decreases with aging: changes in intracellular Ca2+ regulation and N-methyl-d-aspartate receptor- mediated Ca2+ influx" 104 : 995-1003, 2006

57 McBeth C, "Isoflurane for sedation in a case of congenital myasthenia gravis" 77 : 672-674, 1996

58 Stratmann G, "Isoflurane differentially affects neurogenesis and long-term neurocognitive function in 60-day-old and 7-day-old rats" 110 : 834-848, 2009

59 Yacobi S, "Is lithium a real teratogen? What can we conclude from the prospective versus retrospective studies? A review" 45 : 95-106, 2008

60 De Lima AD, "Irreversible loss of a subpopulation of cortical interneurons in the absence of glutamatergic network activity" 19 : 2931-2943, 2004

61 Green SM, "Inadvertent ketamine overdose in children: clinical manifestations and outcome" 34 : 492-497, 1999

62 Rabinowicz T, "Human cortex development: estimates of neuronal numbers indicate major loss late during gestation" 55 : 320-328, 1996

63 Chacko J, "Growth and neurodevelopmental outcome in extremely-low-birth-weight infants after laparotomy" 15 : 496-499, 1999

64 Jevtovic-Todorovic V, "General anesthetics and the developing brain: friends or foes?" 17 : 204-206, 2005

65 Varju P, "GABA signalling during development: new data and old questions" 305 : 239-246, 2001

66 Limperopoulos C, "Functional limitations in young children with congenital heart defects after cardiac surgery" 108 : 1325-1331, 2001

67 Clancy B, "Extrapolating brain development from experimental species to humans" 28 : 931-937, 2007

68 Chalon J, "Exposure to halothane and enflurane affects learning function of murine progeny" 60 : 794-797, 1981

69 Schier F, "Experiences of a parent support group with the long-term consequences of esophageal atresia" 36 : 605-610, 2001

70 Young C, "Excitotoxic versus apoptotic mechanisms of neuronal cell death in perinatal hypoxia/ischemia" 4 : 73-81, 2004

71 Ikonomidou C, "Ethanol-induced apoptotic neurodegeneration and fetal alcohol syndrome" 287 : 1056-1060, 2000

72 Quimby KL, "Enduring learning deficits and cerebral synaptic malformation from exposure to 10 parts of halothane per million" 185 : 625-627, 1974

73 Conreux F, "Electroencephalographic effects of sevoflurane in pediatric anesthesia: a prospective study of 20 cases" 20 : 438-445, 2001

74 Uemura E, "Effects of halothane on synaptogenesis and learning behavior in rats" 89 : 520-529, 1985

75 Uemura E, "Effects of halothane on cerebral synaptic density" 69 : 135-142, 1980

76 Li Y, "Effects of fetal exposure to isoflurane on postnatal memory and learning in rats" 53 : 942-950, 2007

77 Vutskits L, "Effect of ketamine on dendritic arbor development and survival of immature GABAergic neurons in vitro" 91 : 540-549, 2006

78 Stratmann G, "Effect of hypercarbia and isoflurane on brain cell death and neurocognitive dysfunction in 7-day-old rats" 110 : 849-861, 2009

79 Jevtovic-Todorovic V, "Early exposure to common anesthetic agents causes widespread neurodegeneration in the developing rat brain and persistent learning deficits" 23 : 876-882, 2003

80 Jevtovic-Todorovic V, "Early exposure to common anesthetic agents causes widespread neurodegeneration in the developing rat brain and persistent learning deficits" 23 : 876-882, 2003

81 Wilder RT, "Early exposure to anesthesia and learning disabilities in a population-based birth cohort" 110 : 796-804, 2009

82 Spahr-Schopfer I, "Differential neurotoxic effects of propofol on dissociated cortical cells and organotypic hippocampal cultures" 92 : 1408-1417, 2000

83 Scallet AC, "Developmental neurotoxicity of ketamine: morphometric confirmation, exposure parameters, and multiple fluorescent labeling of apoptotic neurons" 81 : 364-370, 2004

84 Bendiksen A, "Convulsions, ataxia and hallucinations following propofol" 42 : 739-741, 1998

85 Yanay O, "Continuous pentobarbital infusion in children is associated with high rates of complications" 19 : 174-178, 2004

86 Lund DP, "Congenital diaphragmatic hernia: the hidden morbidity" 29 : 258-262, 1994

87 Rizzi S, "Clinically used general anesthetics induce neuroapoptosis in the developing piglet brain in Program No. 251.7.2005 Abstract/Viewer/Itinerary Planner" Society for Neuroscience 2005

88 Vutskits L, "Clinically relevant concentrations of propofol but not midazolam alter in vitro dendritic development of isolated gamma-aminobutyric acid- positive interneurons" 102 : 970-976, 2005

89 Vutskits L, "Clinically relevant concentrations of propofol but not midazolam alter in vitro dendritic development of isolated gamma-aminobutyric acid- positive interneurons" 102 : 970-976, 2005

90 Constant I, "Changes in electroencephalogram and autonomic cardiovascular activity during induction of anesthesia with sevoflurane compared with halothane in children" 91 : 1604-1615, 1999

91 Dekaban AS, "Changes in brain weights during the span of human life: relation of brain weights to body heights and body weights" 4 : 345-356, 1978

92 Oppenheim RW, "Cell death during development of the nervous system" 14 : 453-501, 1991

93 Ikonomidou C, "Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain" 283 : 70-74, 1999

94 Ikonomidou C, "Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain" 283 : 70-77, 1999

95 Wang C, "Blockade of N-methyl-D-aspartate receptors by ketamine produces loss of postnatal day 3 monkey frontal cortical neurons in culture" 91 : 192-201, 2006

96 Kotiniemi LH, "Behavioural changes in children following day-case surgery: a 4-week follow-up of 551 children" 52 : 970-976, 1997

97 Kotiniemi LH, "Behavioural changes following routine ENT operations in two-to-ten-year-old children" 6 : 45-49, 1996

98 Smith RF, "Behavioral effects of exposure to halothane during early development in the rat: sensitive period during pregnancy" 49 : 319-323, 1978

99 Kalkman CJ, "Behavior and development in children and age at the time of first anesthetic exposure" 110 : 805-812, 2009

100 Dessens AB, "Association of prenatal phenobarbital and phenytoin exposure with small head size at birth and with learning problems" 89 : 533-541, 2000

101 Nijhawan D, "Apoptosis in neural development and disease" 23 : 73-87, 2000

102 Bittigau P, "Antiepileptic drugs and apoptotic neurodegeneration in the developing brain" 99 : 15089-15094, 2002

103 Vutskits L, "Anesthetics impair dendritic spine development in the postnatal mouse somatosensory cortex (abstact)" 109 : A325-, 2008

104 Meyers EF, "Anesthesia induction techniques in pediatric patients: a controlled study of behavioral consequences" 56 : 538-542, 1977

105 Yon JH, "Anesthesia induces neuronal cell death in the developing rat brain via the intrinsic and extrinsic apoptotic pathways" 135 : 815-827, 2005

106 Khan RB, "A reversible generalized movement disorder in critically ill children with cancer" 3 : 146-149, 2005

107 Hughes J, "A prospective study of the adverse effects of midazolam on withdrawal in critically ill children" 83 : 1194-1199, 1994