1. Abe K: Therapeutic potential of neurotrophic factors and neural stem cells against ischemic brain injury. J Cereb Blood Flow Metab 20: 1393-1408, 2000
2. Ahn S, Joyner AL: Dynamic changes in the response of cells to positive hedgehog signaling during mouse limb patterning. Cell 118: 505-516, 2004
3. Ahn S, Joyner AL: In vivo analysis of quiescent adult neural stem cells responding to Sonic hedgehog. Nature 437: 894-897, 2005
4. Amankulor NM, Hambardzumyan D, Pyonteck SM, Becher OJ, Joyce JA, Holland EC: Sonic hedgehog pathway activation is induced by acute brain injury and regulated by injury-related inflammation. J Neurosci 29: 10299-10308, 2009 5. Arvidsson A, Collin T, Kirik D, Kokaia Z, Lindvall O: Neuronal replacement from
endogenous precursors in the adult brain after stroke. Nat Med 8: 963-970, 2002 6. Bartley J, Soltau T, Wimborne H, Kim S, Martin-Studdard A, Hess D, Hill W, Waller
J, Carroll J: BrdU-positive cells in the neonatal mouse hippocampus following hypoxic-ischemic brain injury. BMC Neurosci 6: 15, 2005
7. Busl KM, Greer DM: Hypoxic-ischemic brain injury: pathophysiology, neuropathology and mechanisms. NeuroRehabilitation 26: 5-13, 2010
8. Cai Z, Lin S, Fan LW, Pang Y, Rhodes PG: Minocycline alleviates hypoxic-ischemic injury to developing oligodendrocytes in the neonatal rat brain. Neuroscience 137: 425-435, 2006
9. Cerio F, Lara-Celador I, Alvarez A, Hilario E: Neuroprotective Therapies after Perinatal Hypoxic-Ischemic Brain Injury. Brain Sciences 3: 191-214, 2013 10. Dahmane N, Lee J, Robins P, Heller P, Ruiz i Altaba A: Activation of the
transcription factor Gli1 and the Sonic hedgehog signalling pathway in skin tumours. Nature 389: 876-881, 1997
11. Dahmane N, Ruiz i Altaba A: Sonic hedgehog regulates the growth and patterning of the cerebellum. Development 126: 3089-3100, 1999
12. Dilenge ME, Majnemer A, Shevell MI: Long-term developmental outcome of asphyxiated term neonates. J Child Neurol 16: 781-792, 2001
13. Ditelberg JS, Sheldon RA, Epstein CJ, Ferriero DM: Brain injury after perinatal hypoxia-ischemia is exacerbated in copper/zinc superoxide dismutase transgenic
45 mice. Pediatr Res 39: 204-208, 1996
14. Doetsch F, Caille I, Lim DA, Garcia-Verdugo JM, Alvarez-Buylla A: Subventricular zone astrocytes are neural stem cells in the adult mammalian brain. Cell 97: 703-716, 1999
15. du Plessis AJ, Volpe JJ: Perinatal brain injury in the preterm and term newborn.
Curr Opin Neurol 15: 151-157, 2002
16. Emerich DF, Lindner MD, Winn SR, Chen EY, Frydel BR, Kordower JH: Implants of encapsulated human CNTF-producing fibroblasts prevent behavioral deficits and striatal degeneration in a rodent model of Huntington's disease. J Neurosci 16:
5168-5181, 1996
17. Fagel DM, Ganat Y, Silbereis J, Ebbitt T, Stewart W, Zhang H, Ment LR, Vaccarino FM: Cortical neurogenesis enhanced by chronic perinatal hypoxia. Exp Neurol 199:
77-91, 2006
18. Felling RJ, Snyder MJ, Romanko MJ, Rothstein RP, Ziegler AN, Yang Z, Givogri MI, Bongarzone ER, Levison SW: Neural stem/progenitor cells participate in the regenerative response to perinatal hypoxia/ischemia. J Neurosci 26: 4359-4369, 2006
19. Ferrazzano P, Chanana V, Uluc K, Fidan E, Akture E, Kintner DB, Cengiz P, Sun D:
Age-dependent microglial activation in immature brains after hypoxia- ischemia.
CNS Neurol Disord Drug Targets 12: 338-349, 2013
20. Ferriero DM: Neonatal brain injury. N Engl J Med 351: 1985-1995, 2004
21. Gimenez M, Junque C, Vendrell P, Narberhaus A, Bargallo N, Botet F, Mercader JM:
Abnormal orbitofrontal development due to prematurity. Neurology 67: 1818-1822, 2006
22. Han YG, Spassky N, Romaguera-Ros M, Garcia-Verdugo JM, Aguilar A, Schneider-Maunoury S, Alvarez-Buylla A: Hedgehog signaling and primary cilia are required for the formation of adult neural stem cells. Nat Neurosci 11: 277-284, 2008 23. Hayashi T, Iwai M, Ikeda T, Jin G, Deguchi K, Nagotani S, Zhang H, Sehara Y,
Nagano I, Shoji M, Ikenoue T, Abe K: Neural precursor cells division and
migration in neonatal rat brain after ischemic/hypoxic injury. Brain Res 1038: 41-49, 2005
24. Hossain MA, Russell JC, Gomez R, Laterra J: Neuroprotection by scatter factor/hepatocyte growth factor and FGF-1 in cerebellar granule neurons is
46
phosphatidylinositol 3-kinase/akt-dependent and MAPK/CREB-independent. J Neurochem 81: 365-378, 2002
25. Hurn PD, Brass LM: Estrogen and stroke: a balanced analysis. Stroke 34: 338-341, 2003
26. Inder TE, Huppi PS: In vivo studies of brain development by magnetic resonance techniques. Ment Retard Dev Disabil Res Rev 6: 59-67, 2000
27. Inder TE, Warfield SK, Wang H, Huppi PS, Volpe JJ: Abnormal cerebral structure is present at term in premature infants. Pediatrics 115: 286-294, 2005
28. Jiang X, Mu D, Biran V, Faustino J, Chang S, Rincon CM, Sheldon RA, Ferriero DM:
Activated Src kinases interact with the N-methyl-D-aspartate receptor after neonatal brain ischemia. Ann Neurol 63: 632-641, 2008
29. Johnston BM, Mallard EC, Williams CE, Gluckman PD: Insulin-like growth factor-1 is a potent neuronal rescue agent after hypoxic-ischemic injury in fetal lambs. J Clin Invest 97: 300-308, 1996
30. Kadam SD, Mulholland JD, McDonald JW, Comi AM: Neurogenesis and neuronal commitment following ischemia in a new mouse model for neonatal stroke. Brain Res 1208: 35-45, 2008
31. Kendall GS, Robertson NJ, Iwata O, Peebles D, Raivich G: N-methyl-isobutyl-amiloride ameliorates brain injury when commenced before hypoxia ischemia in neonatal mice. Pediatr Res 59: 227-231, 2006
32. Lafemina MJ, Sheldon RA, Ferriero DM: Acute hypoxia-ischemia results in hydrogen peroxide accumulation in neonatal but not adult mouse brain. Pediatr Res 59: 680-683, 2006
33. Lai K, Kaspar BK, Gage FH, Schaffer DV: Sonic hedgehog regulates adult neural progenitor proliferation in vitro and in vivo. Nat Neurosci 6: 21-27, 2003
34. Lalancette-Hebert M, Gowing G, Simard A, Weng YC, Kriz J: Selective ablation of proliferating microglial cells exacerbates ischemic injury in the brain. J Neurosci 27: 2596-2605, 2007
35. Liu XH, Kwon D, Schielke GP, Yang GY, Silverstein FS, Barks JD: Mice deficient in interleukin-1 converting enzyme are resistant to neonatal hypoxic-ischemic brain damage. J Cereb Blood Flow Metab 19: 1099-1108, 1999
36. Machold R, Hayashi S, Rutlin M, Muzumdar MD, Nery S, Corbin JG, Gritli-Linde A, Dellovade T, Porter JA, Rubin LL, Dudek H, McMahon AP, Fishell G: Sonic
47
hedgehog is required for progenitor cell maintenance in telencephalic stem cell niches. Neuron 39: 937-950, 2003
37. Marti E, Bovolenta P: Sonic hedgehog in CNS development: one signal, multiple outputs. Trends Neurosci 25: 89-96, 2002
38. Mattson MP, Scheff SW: Endogenous neuroprotection factors and traumatic brain injury: mechanisms of action and implications for therapy. J Neurotrauma 11: 3-33, 1994
39. Ment LR, Kesler S, Vohr B, Katz KH, Baumgartner H, Schneider KC, Delancy S, Silbereis J, Duncan CC, Constable RT, Makuch RW, Reiss AL: Longitudinal brain volume changes in preterm and term control subjects during late childhood and adolescence. Pediatrics 123: 503-511, 2009
40. Ment LR, Vohr B, Allan W, Katz KH, Schneider KC, Westerveld M, Duncan CC, Makuch RW: Change in cognitive function over time in very low-birth-weight infants. Jama 289: 705-711, 2003
41. Nakanishi N, Tu S, Shin Y, Cui J, Kurokawa T, Zhang D, Chen HS, Tong G, Lipton SA: Neuroprotection by the NR3A subunit of the NMDA receptor. J Neurosci 29:
5260-5265, 2009
42. Neil W. Kleman DSaPC: Mechanisms Underlying Neonatal Hypoxia Ischemia. The Open Drug Discovery Journal 2: 129-137, 2010
43. Northington FJ, Ferriero DM, Graham EM, Traystman RJ, Martin LJ: Early Neurodegeneration after Hypoxia-Ischemia in Neonatal Rat Is Necrosis while Delayed Neuronal Death Is Apoptosis. Neurobiol Dis 8: 207-219, 2001 44. Northington FJ, Zelaya ME, O'Riordan DP, Blomgren K, Flock DL, Hagberg H,
Ferriero DM, Martin LJ: Failure to complete apoptosis following neonatal hypoxia-ischemia manifests as "continuum" phenotype of cell death and occurs with multiple manifestations of mitochondrial dysfunction in rodent forebrain.
Neuroscience 149: 822-833, 2007
45. Nosarti C, Giouroukou E, Healy E, Rifkin L, Walshe M, Reichenberg A, Chitnis X, Williams SC, Murray RM: Grey and white matter distribution in very preterm adolescents mediates neurodevelopmental outcome. Brain 131: 205-217, 2008 46. Ong J, Plane JM, Parent JM, Silverstein FS: Hypoxic-ischemic injury stimulates
subventricular zone proliferation and neurogenesis in the neonatal rat. Pediatr Res 58: 600-606, 2005
48
47. Pekny M, Wilhelmsson U, Pekna M: The dual role of astrocyte activation and reactive gliosis. Neurosci Lett 565: 30-38, 2014
48. Perlman JM: Summary proceedings from the neurology group on hypoxic-ischemic encephalopathy. Pediatrics 117: S28-33, 2006
49. Pfister RH, Soll RF: Hypothermia for the treatment of infants with hypoxic-ischemic encephalopathy. J Perinatol 30 Suppl: S82-87, 2010
50. Plane JM, Liu R, Wang TW, Silverstein FS, Parent JM: Neonatal hypoxic-ischemic injury increases forebrain subventricular zone neurogenesis in the mouse.
Neurobiol Dis 16: 585-595, 2004
51. Rice JE, 3rd, Vannucci RC, Brierley JB: The influence of immaturity on hypoxic-ischemic brain damage in the rat. Ann Neurol 9: 131-141, 1981
52. Rosenbaum P, Paneth N, Leviton A, Goldstein M, Bax M, Damiano D, Dan B, Jacobsson B: A report: the definition and classification of cerebral palsy April 2006.
Dev Med Child Neurol Suppl 109: 8-14, 2007
53. Rowitch DH, B SJ, Lee SM, Flax JD, Snyder EY, McMahon AP: Sonic hedgehog regulates proliferation and inhibits differentiation of CNS precursor cells. J Neurosci 19: 8954-8965, 1999
54. Scafidi J, Gallo V: New concepts in perinatal hypoxia ischemia encephalopathy.
Curr Neurol Neurosci Rep 8: 130-138, 2008
55. Schneider L, d'Adda di Fagagna F: Neural stem cells exposed to BrdU lose their global DNA methylation and undergo astrocytic differentiation. Nucleic Acids Res 40: 5332-5342, 2012
56. Sheldon RA, Sedik C, Ferriero DM: Strain-related brain injury in neonatal mice subjected to hypoxia-ischemia. Brain Res 810: 114-122, 1998
57. Takizawa Y, Miyazawa T, Nonoyama S, Goto Y, Itoh M: Edaravone inhibits DNA peroxidation and neuronal cell death in neonatal hypoxic-ischemic
encephalopathy model rat. Pediatr Res 65: 636-641, 2009
58. Tian SF, Yang HH, Xiao DP, Huang YJ, He GY, Ma HR, Xia F, Shi XC: Mechanisms of neuroprotection from hypoxia-ischemia (HI) brain injury by up-regulation of cytoglobin (CYGB) in a neonatal rat model. J Biol Chem 288: 15988-16003, 2013 59. Tremblay ME, Stevens B, Sierra A, Wake H, Bessis A, Nimmerjahn A: The role of
microglia in the healthy brain. J Neurosci 31: 16064-16069, 2011
60. Wechsler-Reya RJ, Scott MP: Control of neuronal precursor proliferation in the
49
cerebellum by Sonic Hedgehog. Neuron 22: 103-114, 1999
61. Wyatt JS, Edwards AD, Azzopardi D, Reynolds EO: Magnetic resonance and near infrared spectroscopy for investigation of perinatal hypoxic-ischaemic brain injury.
Arch Dis Child 64: 953-963, 1989
62. Yager JY, Brucklacher RM, Vannucci RC: Cerebral energy metabolism during hypoxia-ischemia and early recovery in immature rats. Am J Physiol 262: H672-677, 1992
63. Yager JY, Wright S, Armstrong EA, Jahraus CM, Saucier DM: A new model for determining the influence of age and sex on functional recovery following hypoxic-ischemic brain damage. Dev Neurosci 27: 112-120, 2005
64. Yang SH, Perez E, Cutright J, Liu R, He Z, Day AL, Simpkins JW: Testosterone increases neurotoxicity of glutamate in vitro and ischemia-reperfusion injury in an animal model. J Appl Physiol (1985) 92: 195-201, 2002
65. Yang Z, Covey MV, Bitel CL, Ni L, Jonakait GM, Levison SW: Sustained neocortical neurogenesis after neonatal hypoxic/ischemic injury. Ann Neurol 61: 199-208, 2007
66. Yasuda Y, Shimoda T, Uno K, Tateishi N, Furuya S, Tsuchihashi Y, Kawai Y, Naruse S, Fujita S: Temporal and sequential changes of glial cells and cytokine expression during neuronal degeneration after transient global ischemia in rats. J
Neuroinflammation 8: 70, 2011
50