Proliferation, migration, and differentiation of human neural stem/progenitor cells after transplantation into a rat model of traumatic brain injury (original) (raw)

• 1. Auerbach JM, , Eiden MV, & McKay RD: Transplanted CNS stem cells form functional synapses in vivo. Eur J Neurosci 12:1696–1704, 2000 Auerbach JM, Eiden MV, McKay RD: Transplanted CNS stem cells form functional synapses in vivo. **Eur J Neurosci 12:**1696–1704, 2000
• PubMed
  Auerbach JM, Eiden MV, McKay RD: Transplanted CNS stem cells form functional synapses in vivo. Eur J Neurosci 12: 1696– 1704, 2000 Auerbach JM, Eiden MV, McKay RD: Transplanted CNS stem cells form functional synapses in vivo. Eur J Neurosci 12:1696–1704, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Barami K, , Hao HN, & Lotoczky GA, et al: Transplantation of human fetal brain cells into ischemic lesions of adult gerbil hippocampus. J Neurosurg 95:308–315, 2001 Barami K, Hao HN, Lotoczky GA, et al: Transplantation of human fetal brain cells into ischemic lesions of adult gerbil hippocampus. **J Neurosurg 95:**308–315, 2001
• PubMed
  Barami K, Hao HN, Lotoczky GA, et al: Transplantation of human fetal brain cells into ischemic lesions of adult gerbil hippocampus. J Neurosurg 95: 308– 315, 2001 Barami K, Hao HN, Lotoczky GA, et al: Transplantation of human fetal brain cells into ischemic lesions of adult gerbil hippocampus. J Neurosurg 95:308–315, 2001
  )| false
• Search Google Scholar
• Export Citation
• 1. Bittigau P, , Sifringer M, & Pohl D, et al: Apoptotic neurodegeneration following trauma is markedly enhanced in the immature brain. Ann Neurol 45:724–735, 1999 Bittigau P, Sifringer M, Pohl D, et al: Apoptotic neurodegeneration following trauma is markedly enhanced in the immature brain. **Ann Neurol 45:**724–735, 1999
• PubMed
  Bittigau P, Sifringer M, Pohl D, et al: Apoptotic neurodegeneration following trauma is markedly enhanced in the immature brain. Ann Neurol 45: 724– 735, 1999 Bittigau P, Sifringer M, Pohl D, et al: Apoptotic neurodegeneration following trauma is markedly enhanced in the immature brain. Ann Neurol 45:724–735, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Bjorklund A, & Lindvall O: Cell replacement therapies for central nervous system disorders. Nat Neurosci 3:537–544, 2000 Bjorklund A, Lindvall O: Cell replacement therapies for central nervous system disorders. **Nat Neurosci 3:**537–544, 2000
• PubMed
  Bjorklund A, Lindvall O: Cell replacement therapies for central nervous system disorders. Nat Neurosci 3: 537– 544, 2000 Bjorklund A, Lindvall O: Cell replacement therapies for central nervous system disorders. Nat Neurosci 3:537–544, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Brustle O, , Choudhary K, & Karram K, et al: Chimeric brains generated by intraventricular transplantation of fetal human brain cells into embryonic rats. Nat Biotechnol 16:1040–1044, 1998 Brustle O, Choudhary K, Karram K, et al: Chimeric brains generated by intraventricular transplantation of fetal human brain cells into embryonic rats. **Nat Biotechnol 16:**1040–1044, 1998
• PubMed
  Brustle O, Choudhary K, Karram K, et al: Chimeric brains generated by intraventricular transplantation of fetal human brain cells into embryonic rats. Nat Biotechnol 16: 1040– 1044, 1998 Brustle O, Choudhary K, Karram K, et al: Chimeric brains generated by intraventricular transplantation of fetal human brain cells into embryonic rats. Nat Biotechnol 16:1040–1044, 1998
  )| false
• Search Google Scholar
• Export Citation
• 1. Buki A, , Okonkwo DO, & Povlishock JT: Postinjury cyclosporin A administration limits axonal damage and disconnection in traumatic brain injury. J Neurotrauma 16:511–521, 1999 Buki A, Okonkwo DO, Povlishock JT: Postinjury cyclosporin A administration limits axonal damage and disconnection in traumatic brain injury. **J Neurotrauma 16:**511–521, 1999
• PubMed
  Buki A, Okonkwo DO, Povlishock JT: Postinjury cyclosporin A administration limits axonal damage and disconnection in traumatic brain injury. J Neurotrauma 16: 511– 521, 1999 Buki A, Okonkwo DO, Povlishock JT: Postinjury cyclosporin A administration limits axonal damage and disconnection in traumatic brain injury. J Neurotrauma 16:511–521, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Carpenter MK, , Cui X, & Hu ZY, et al: In vitro expansion of a multipotent population of human neural progenitor cells. Exp Neurol 158:265–278, 1999 Carpenter MK, Cui X, Hu ZY, et al: In vitro expansion of a multipotent population of human neural progenitor cells. **Exp Neurol 158:**265–278, 1999
• PubMed
  Carpenter MK, Cui X, Hu ZY, et al: In vitro expansion of a multipotent population of human neural progenitor cells. Exp Neurol 158: 265– 278, 1999 Carpenter MK, Cui X, Hu ZY, et al: In vitro expansion of a multipotent population of human neural progenitor cells. Exp Neurol 158:265–278, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Dash PK, , Mach SA, & Moore AN: Enhanced neurogenesis in the rodent hippocampus following traumatic brain injury. J Neurosci Res 63:313–319, 2001 Dash PK, Mach SA, Moore AN: Enhanced neurogenesis in the rodent hippocampus following traumatic brain injury. **J Neurosci Res 63:**313–319, 2001
• PubMed
  Dash PK, Mach SA, Moore AN: Enhanced neurogenesis in the rodent hippocampus following traumatic brain injury. J Neurosci Res 63: 313– 319, 2001 Dash PK, Mach SA, Moore AN: Enhanced neurogenesis in the rodent hippocampus following traumatic brain injury. J Neurosci Res 63:313–319, 2001
  )| false
• Search Google Scholar
• Export Citation
• 1. Edwards AD, & Mehmet H: Apoptosis in perinatal hypoxicischaemic cerebral damage. Neuropathol Appl Neurobiol 22:494–498, 1996 Edwards AD, Mehmet H: Apoptosis in perinatal hypoxicischaemic cerebral damage. **Neuropathol Appl Neurobiol 22:**494–498, 1996
• PubMed
  Edwards AD, Mehmet H: Apoptosis in perinatal hypoxicischaemic cerebral damage. Neuropathol Appl Neurobiol 22: 494– 498, 1996 Edwards AD, Mehmet H: Apoptosis in perinatal hypoxicischaemic cerebral damage. Neuropathol Appl Neurobiol 22:494–498, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Englund U, , Fricker-Gates RA, & Lundberg C, et al: Transplantation of human neural progenitor cells into the neonatal rat brain: extensive migration and differentiation with long-distance axonal projections. Exp Neurol 173:1–21, 2002 Englund U, Fricker-Gates RA, Lundberg C, et al: Transplantation of human neural progenitor cells into the neonatal rat brain: extensive migration and differentiation with long-distance axonal projections. **Exp Neurol 173:**1–21, 2002
• PubMed
  Englund U, Fricker-Gates RA, Lundberg C, et al: Transplantation of human neural progenitor cells into the neonatal rat brain: extensive migration and differentiation with long-distance axonal projections. Exp Neurol 173: 1– 21, 2002 Englund U, Fricker-Gates RA, Lundberg C, et al: Transplantation of human neural progenitor cells into the neonatal rat brain: extensive migration and differentiation with long-distance axonal projections. Exp Neurol 173:1–21, 2002
  )| false
• Search Google Scholar
• Export Citation
• 1. Feeney DM, , Boyeson MG, & Linn RT, et al: Responses to cortical injury: I. Methodology and local effects of contusions in the rat. Brain Res 211:67–77, 1981 Feeney DM, Boyeson MG, Linn RT, et al: Responses to cortical injury: I. Methodology and local effects of contusions in the rat. **Brain Res 211:**67–77, 1981
• PubMed
  Feeney DM, Boyeson MG, Linn RT, et al: Responses to cortical injury: I. Methodology and local effects of contusions in the rat. Brain Res 211: 67– 77, 1981 Feeney DM, Boyeson MG, Linn RT, et al: Responses to cortical injury: I. Methodology and local effects of contusions in the rat. Brain Res 211:67–77, 1981
  )| false
• Search Google Scholar
• Export Citation
• 1. Flax JD, , Aurora S, & Yang C, et al: Engraftable human neural stem cells respond to developmental cues, replace neurons, and express foreign genes. Nat Biotechnol 16:1033–1039, 1998 Flax JD, Aurora S, Yang C, et al: Engraftable human neural stem cells respond to developmental cues, replace neurons, and express foreign genes. **Nat Biotechnol 16:**1033–1039, 1998
• PubMed
  Flax JD, Aurora S, Yang C, et al: Engraftable human neural stem cells respond to developmental cues, replace neurons, and express foreign genes. Nat Biotechnol 16: 1033– 1039, 1998 Flax JD, Aurora S, Yang C, et al: Engraftable human neural stem cells respond to developmental cues, replace neurons, and express foreign genes. Nat Biotechnol 16:1033–1039, 1998
  )| false
• Search Google Scholar
• Export Citation
• 1. Fricker RA, , Carpenter MK, & Winkler C, et al: Site-specific migration and neuronal differentiation of human neural progenitor cells after transplantation in the adult rat brain. J Neurosci 19:5990–6005, 1999 Fricker RA, Carpenter MK, Winkler C, et al: Site-specific migration and neuronal differentiation of human neural progenitor cells after transplantation in the adult rat brain. **J Neurosci 19:**5990–6005, 1999
• PubMed
  Fricker RA, Carpenter MK, Winkler C, et al: Site-specific migration and neuronal differentiation of human neural progenitor cells after transplantation in the adult rat brain. J Neurosci 19: 5990– 6005, 1999 Fricker RA, Carpenter MK, Winkler C, et al: Site-specific migration and neuronal differentiation of human neural progenitor cells after transplantation in the adult rat brain. J Neurosci 19:5990–6005, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Frisen J, , Johansson CB, & Torok C, et al: Rapid, widespread, and longlasting induction of nestin contributes to the generation of glial scar tissue after CNS injury. J Cell Biol 131:453–464, 1995 Frisen J, Johansson CB, Torok C, et al: Rapid, widespread, and longlasting induction of nestin contributes to the generation of glial scar tissue after CNS injury. **J Cell Biol 131:**453–464, 1995
• PubMed
  Frisen J, Johansson CB, Torok C, et al: Rapid, widespread, and longlasting induction of nestin contributes to the generation of glial scar tissue after CNS injury. J Cell Biol 131: 453– 464, 1995 Frisen J, Johansson CB, Torok C, et al: Rapid, widespread, and longlasting induction of nestin contributes to the generation of glial scar tissue after CNS injury. J Cell Biol 131:453–464, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Gage FH, , Coates PW, & Palmer TD, et al: Survival and differentiation of adult neuronal progenitor cells transplanted to the adult brain. Proc Natl Acad Sci USA 92:11879–11883, 1995 Gage FH, Coates PW, Palmer TD, et al: Survival and differentiation of adult neuronal progenitor cells transplanted to the adult brain. **Proc Natl Acad Sci USA 92:**11879–11883, 1995
• PubMed
  Gage FH, Coates PW, Palmer TD, et al: Survival and differentiation of adult neuronal progenitor cells transplanted to the adult brain. Proc Natl Acad Sci USA 92: 11879– 11883, 1995 Gage FH, Coates PW, Palmer TD, et al: Survival and differentiation of adult neuronal progenitor cells transplanted to the adult brain. Proc Natl Acad Sci USA 92:11879–11883, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Goldman SA, & Luskin MB: Strategies utilized by migrating neurons of the postnatal vertebrate forebrain. Trends Neurosci 21:107–114, 1998 Goldman SA, Luskin MB: Strategies utilized by migrating neurons of the postnatal vertebrate forebrain. **Trends Neurosci 21:**107–114, 1998
• PubMed
  Goldman SA, Luskin MB: Strategies utilized by migrating neurons of the postnatal vertebrate forebrain. Trends Neurosci 21: 107– 114, 1998 Goldman SA, Luskin MB: Strategies utilized by migrating neurons of the postnatal vertebrate forebrain. Trends Neurosci 21:107–114, 1998
  )| false
• Search Google Scholar
• Export Citation
• 1. Grasbon-Frodl EM, , Nakao N, & Lindvall O, et al: Developmental features of human striatal tissue transplanted in a rat model of Huntington's disease. Neurobiol Dis 3:299–311, 1997 Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Developmental features of human striatal tissue transplanted in a rat model of Huntington's disease. **Neurobiol Dis 3:**299–311, 1997
• PubMed
  Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Developmental features of human striatal tissue transplanted in a rat model of Huntington's disease. Neurobiol Dis 3: 299– 311, 1997 Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Developmental features of human striatal tissue transplanted in a rat model of Huntington's disease. Neurobiol Dis 3:299–311, 1997
  )| false
• Search Google Scholar
• Export Citation
• 1. Grasbon-Frodl EM, , Nakao N, & Lindvall O, et al: Phenotypic development of the human embryonic striatal primordium: a study of cultured and grafted neurons from the lateral and medial ganglionic eminences. Neuroscience 73:171–183, 1996 Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Phenotypic development of the human embryonic striatal primordium: a study of cultured and grafted neurons from the lateral and medial ganglionic eminences. **Neuroscience 73:**171–183, 1996
• PubMed
  Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Phenotypic development of the human embryonic striatal primordium: a study of cultured and grafted neurons from the lateral and medial ganglionic eminences. Neuroscience 73: 171– 183, 1996 Grasbon-Frodl EM, Nakao N, Lindvall O, et al: Phenotypic development of the human embryonic striatal primordium: a study of cultured and grafted neurons from the lateral and medial ganglionic eminences. Neuroscience 73:171–183, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Gray JA, , Grigoryan G, & Virley D, et al: Conditionally immortalized, multipotential and multifunctional neural stem cell lines as an approach to clinical transplantation. Cell Transplant 9:153–168, 2000 Gray JA, Grigoryan G, Virley D, et al: Conditionally immortalized, multipotential and multifunctional neural stem cell lines as an approach to clinical transplantation. **Cell Transplant 9:**153–168, 2000
• PubMed
  Gray JA, Grigoryan G, Virley D, et al: Conditionally immortalized, multipotential and multifunctional neural stem cell lines as an approach to clinical transplantation. Cell Transplant 9: 153– 168, 2000 Gray JA, Grigoryan G, Virley D, et al: Conditionally immortalized, multipotential and multifunctional neural stem cell lines as an approach to clinical transplantation. Cell Transplant 9:153–168, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Holmin S, , Almqvist P, & Lendahl U, et al: Adult nestin-expressing subependymal cells differentiate to astrocytes in response to brain injury. Eur J Neurosci 9:65–75, 1997 Holmin S, Almqvist P, Lendahl U, et al: Adult nestin-expressing subependymal cells differentiate to astrocytes in response to brain injury. **Eur J Neurosci 9:**65–75, 1997
• PubMed
  Holmin S, Almqvist P, Lendahl U, et al: Adult nestin-expressing subependymal cells differentiate to astrocytes in response to brain injury. Eur J Neurosci 9: 65– 75, 1997 Holmin S, Almqvist P, Lendahl U, et al: Adult nestin-expressing subependymal cells differentiate to astrocytes in response to brain injury. Eur J Neurosci 9:65–75, 1997
  )| false
• Search Google Scholar
• Export Citation
• 1. Holmin S, & Mathiesen T: Intracerebral administration of interleukin-1β and induction of inflammation, apoptosis, and vasogenic edema. J Neurosurg 92:108–120, 2000 Holmin S, Mathiesen T: Intracerebral administration of interleukin-1β and induction of inflammation, apoptosis, and vasogenic edema. **J Neurosurg 92:**108–120, 2000
• PubMed
  Holmin S, Mathiesen T: Intracerebral administration of interleukin-1β and induction of inflammation, apoptosis, and vasogenic edema. J Neurosurg 92: 108– 120, 2000 Holmin S, Mathiesen T: Intracerebral administration of interleukin-1β and induction of inflammation, apoptosis, and vasogenic edema. J Neurosurg 92:108–120, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Holmin S, & Mathiesen T: Long-term intracerebral inflammatory response after experimental focal brain injury in rat. Neuroreport 10:1889–1891, 1999 Holmin S, Mathiesen T: Long-term intracerebral inflammatory response after experimental focal brain injury in rat. **Neuroreport 10:**1889–1891, 1999
• PubMed
  Holmin S, Mathiesen T: Long-term intracerebral inflammatory response after experimental focal brain injury in rat. Neuroreport 10: 1889– 1891, 1999 Holmin S, Mathiesen T: Long-term intracerebral inflammatory response after experimental focal brain injury in rat. Neuroreport 10:1889–1891, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Holmin S, , Mathiesen T, & Shetye J, et al: Intracerebral inflammatory response to experimental brain contusion. Acta Neurochir 132:110–119, 1995 Holmin S, Mathiesen T, Shetye J, et al: Intracerebral inflammatory response to experimental brain contusion. **Acta Neurochir 132:**110–119, 1995
• PubMed
  Holmin S, Mathiesen T, Shetye J, et al: Intracerebral inflammatory response to experimental brain contusion. Acta Neurochir 132: 110– 119, 1995 Holmin S, Mathiesen T, Shetye J, et al: Intracerebral inflammatory response to experimental brain contusion. Acta Neurochir 132:110–119, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Hurelbrink CB, , Armstrong RJ, & Dunnett SB, et al: Neural cells from primary human striatal xenografts migrate extensively in the adult rat CNS. Eur J Neurosci 15:1255–1266, 2002 Hurelbrink CB, Armstrong RJ, Dunnett SB, et al: Neural cells from primary human striatal xenografts migrate extensively in the adult rat CNS. **Eur J Neurosci 15:**1255–1266, 2002
• PubMed
  Hurelbrink CB, Armstrong RJ, Dunnett SB, et al: Neural cells from primary human striatal xenografts migrate extensively in the adult rat CNS. Eur J Neurosci 15: 1255– 1266, 2002 Hurelbrink CB, Armstrong RJ, Dunnett SB, et al: Neural cells from primary human striatal xenografts migrate extensively in the adult rat CNS. Eur J Neurosci 15:1255–1266, 2002
  )| false
• Search Google Scholar
• Export Citation
• 1. Ikonomidou C, , Bosch F, & Miksa M, et al: Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain. Science 283:70–74, 1999 Ikonomidou C, Bosch F, Miksa M, et al: Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain. **Science 283:**70–74, 1999
• PubMed
  Ikonomidou C, Bosch F, Miksa M, et al: Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain. Science 283: 70– 74, 1999 Ikonomidou C, Bosch F, Miksa M, et al: Blockade of NMDA receptors and apoptotic neurodegeneration in the developing brain. Science 283:70–74, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindvall O, , Brundin P, & Widner H, et al: Grafts of fetal dopamine neurons survive and improve motor function in Parkinson's disease. Science 247:574–577, 1990 Lindvall O, Brundin P, Widner H, et al: Grafts of fetal dopamine neurons survive and improve motor function in Parkinson's disease. **Science 247:**574–577, 1990
• PubMed
  Lindvall O, Brundin P, Widner H, et al: Grafts of fetal dopamine neurons survive and improve motor function in Parkinson's disease. Science 247: 574– 577, 1990 Lindvall O, Brundin P, Widner H, et al: Grafts of fetal dopamine neurons survive and improve motor function in Parkinson's disease. Science 247:574–577, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Lois C, & Alvarez-Buylla A: Long-distance neuronal migration in the adult mammalian brain. Science 264:1145–1148, 1994 Lois C, Alvarez-Buylla A: Long-distance neuronal migration in the adult mammalian brain. **Science 264:**1145–1148, 1994
• PubMed
  Lois C, Alvarez-Buylla A: Long-distance neuronal migration in the adult mammalian brain. Science 264: 1145– 1148, 1994 Lois C, Alvarez-Buylla A: Long-distance neuronal migration in the adult mammalian brain. Science 264:1145–1148, 1994
  )| false
• Search Google Scholar
• Export Citation
• 1. Lundberg C, , Winkler C, & Whittemore SR, et al: Conditionally immortalized neural progenitor cells grafted to the striatum exhibit site-specific neuronal differentiation and establish connections with the host globus pallidus. Neurobiol Dis 3:33–50, 1996 Lundberg C, Winkler C, Whittemore SR, et al: Conditionally immortalized neural progenitor cells grafted to the striatum exhibit site-specific neuronal differentiation and establish connections with the host globus pallidus. **Neurobiol Dis 3:**33–50, 1996
• PubMed
  Lundberg C, Winkler C, Whittemore SR, et al: Conditionally immortalized neural progenitor cells grafted to the striatum exhibit site-specific neuronal differentiation and establish connections with the host globus pallidus. Neurobiol Dis 3: 33– 50, 1996 Lundberg C, Winkler C, Whittemore SR, et al: Conditionally immortalized neural progenitor cells grafted to the striatum exhibit site-specific neuronal differentiation and establish connections with the host globus pallidus. Neurobiol Dis 3:33–50, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Mahmood A, , Lu D, & Yi L, et al: Intracranial bone marrow transplantation after traumatic brain injury improving functional outcome in adult rats. J Neurosurg 94:589–595, 2001 Mahmood A, Lu D, Yi L, et al: Intracranial bone marrow transplantation after traumatic brain injury improving functional outcome in adult rats. **J Neurosurg 94:**589–595, 2001
• PubMed
  Mahmood A, Lu D, Yi L, et al: Intracranial bone marrow transplantation after traumatic brain injury improving functional outcome in adult rats. J Neurosurg 94: 589– 595, 2001 Mahmood A, Lu D, Yi L, et al: Intracranial bone marrow transplantation after traumatic brain injury improving functional outcome in adult rats. J Neurosurg 94:589–595, 2001
  )| false
• Search Google Scholar
• Export Citation
• 1. Mathiesen T, , Bjorklund H, & Collins VP, et al: Induction of GFAP production in human glioma lines grafted into the anterior chamber of the rat eye. Neurosci Lett 97:291–297, 1989 Mathiesen T, Bjorklund H, Collins VP, et al: Induction of GFAP production in human glioma lines grafted into the anterior chamber of the rat eye. **Neurosci Lett 97:**291–297, 1989
• PubMed
  Mathiesen T, Bjorklund H, Collins VP, et al: Induction of GFAP production in human glioma lines grafted into the anterior chamber of the rat eye. Neurosci Lett 97: 291– 297, 1989 Mathiesen T, Bjorklund H, Collins VP, et al: Induction of GFAP production in human glioma lines grafted into the anterior chamber of the rat eye. Neurosci Lett 97:291–297, 1989
  )| false
• Search Google Scholar
• Export Citation
• 1. Mathiesen T, , Collins VP, & Olson L, et al: Prolonged survival and vascularization of xenografted human glioblastoma cells in the central nervous system of cyclosporine A treated rats. Cancer Lett 44:151–156, 1989 Mathiesen T, Collins VP, Olson L, et al: Prolonged survival and vascularization of xenografted human glioblastoma cells in the central nervous system of cyclosporine A treated rats. **Cancer Lett 44:**151–156, 1989
• PubMed
  Mathiesen T, Collins VP, Olson L, et al: Prolonged survival and vascularization of xenografted human glioblastoma cells in the central nervous system of cyclosporine A treated rats. Cancer Lett 44: 151– 156, 1989 Mathiesen T, Collins VP, Olson L, et al: Prolonged survival and vascularization of xenografted human glioblastoma cells in the central nervous system of cyclosporine A treated rats. Cancer Lett 44:151–156, 1989
  )| false
• Search Google Scholar
• Export Citation
• 1. McIntosh TK, , Saatman KE, & Raghupathi R, et al: The Dorothy Russell Memorial Lecture. The molecular and cellular sequelae of experimental traumatic brain injury: pathogenetic mechanisms. Neuropathol Appl Neurobiol 24:251–267, 1998 McIntosh TK, Saatman KE, Raghupathi R, et al: The Dorothy Russell Memorial Lecture. The molecular and cellular sequelae of experimental traumatic brain injury: pathogenetic mechanisms. **Neuropathol Appl Neurobiol 24:**251–267, 1998
• PubMed
  McIntosh TK, Saatman KE, Raghupathi R, et al: The Dorothy Russell Memorial Lecture. The molecular and cellular sequelae of experimental traumatic brain injury: pathogenetic mechanisms. Neuropathol Appl Neurobiol 24: 251– 267, 1998 McIntosh TK, Saatman KE, Raghupathi R, et al: The Dorothy Russell Memorial Lecture. The molecular and cellular sequelae of experimental traumatic brain injury: pathogenetic mechanisms. Neuropathol Appl Neurobiol 24:251–267, 1998
  )| false
• Search Google Scholar
• Export Citation
• 1. Park KI, , Liu S, & Flax JD, et al: Transplantation of neural progenitor and stem cells: developmental insights may suggest new therapies for spinal cord and other CNS dysfunction. J Neurotrauma 16:675–687, 1999 Park KI, Liu S, Flax JD, et al: Transplantation of neural progenitor and stem cells: developmental insights may suggest new therapies for spinal cord and other CNS dysfunction. **J Neurotrauma 16:**675–687, 1999
• PubMed
  Park KI, Liu S, Flax JD, et al: Transplantation of neural progenitor and stem cells: developmental insights may suggest new therapies for spinal cord and other CNS dysfunction. J Neurotrauma 16: 675– 687, 1999 Park KI, Liu S, Flax JD, et al: Transplantation of neural progenitor and stem cells: developmental insights may suggest new therapies for spinal cord and other CNS dysfunction. J Neurotrauma 16:675–687, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Philips MF, , Mattiasson G, & Wieloch T, et al: Neuroprotective and behavioral efficacy of nerve growth factor-transfected hippocampal progenitor cell transplants after experimental traumatic brain injury. J Neurosurg 94:765–774, 2001 Philips MF, Mattiasson G, Wieloch T, et al: Neuroprotective and behavioral efficacy of nerve growth factor-transfected hippocampal progenitor cell transplants after experimental traumatic brain injury. **J Neurosurg 94:**765–774, 2001
• PubMed
  Philips MF, Mattiasson G, Wieloch T, et al: Neuroprotective and behavioral efficacy of nerve growth factor-transfected hippocampal progenitor cell transplants after experimental traumatic brain injury. J Neurosurg 94: 765– 774, 2001 Philips MF, Mattiasson G, Wieloch T, et al: Neuroprotective and behavioral efficacy of nerve growth factor-transfected hippocampal progenitor cell transplants after experimental traumatic brain injury. J Neurosurg 94:765–774, 2001
  )| false
• Search Google Scholar
• Export Citation
• 1. Philips MF, , Muir JK, & Saatman KE, et al: Survival and integration of transplanted postmitotic human neurons following experimental brain injury in immunocompetent rats. J Neurosurg 90:116–124, 1999 Philips MF, Muir JK, Saatman KE, et al: Survival and integration of transplanted postmitotic human neurons following experimental brain injury in immunocompetent rats. **J Neurosurg 90:**116–124, 1999
• PubMed
  Philips MF, Muir JK, Saatman KE, et al: Survival and integration of transplanted postmitotic human neurons following experimental brain injury in immunocompetent rats. J Neurosurg 90: 116– 124, 1999 Philips MF, Muir JK, Saatman KE, et al: Survival and integration of transplanted postmitotic human neurons following experimental brain injury in immunocompetent rats. J Neurosurg 90:116–124, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Renfranz PJ, , Cunningham MG, & McKay RD: Region-specific differentiation of the hippocampal stem cell line HiB5 upon implantation into the developing mammalian brain. Cell 66:713–729, 1991 Renfranz PJ, Cunningham MG, McKay RD: Region-specific differentiation of the hippocampal stem cell line HiB5 upon implantation into the developing mammalian brain. **Cell 66:**713–729, 1991
• PubMed
  Renfranz PJ, Cunningham MG, McKay RD: Region-specific differentiation of the hippocampal stem cell line HiB5 upon implantation into the developing mammalian brain. Cell 66: 713– 729, 1991 Renfranz PJ, Cunningham MG, McKay RD: Region-specific differentiation of the hippocampal stem cell line HiB5 upon implantation into the developing mammalian brain. Cell 66:713–729, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Reynolds BA, , Tetzlaff W, & Weiss S: A multipotent EGF-responsive striatal embryonic progenitor cell produces neurons and astrocytes. J Neurosci 12:4565–4574, 1992 Reynolds BA, Tetzlaff W, Weiss S: A multipotent EGF-responsive striatal embryonic progenitor cell produces neurons and astrocytes. **J Neurosci 12:**4565–4574, 1992
• PubMed
  Reynolds BA, Tetzlaff W, Weiss S: A multipotent EGF-responsive striatal embryonic progenitor cell produces neurons and astrocytes. J Neurosci 12: 4565– 4574, 1992 Reynolds BA, Tetzlaff W, Weiss S: A multipotent EGF-responsive striatal embryonic progenitor cell produces neurons and astrocytes. J Neurosci 12:4565–4574, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Rosser AE, , Tyers P, & Dunnett SB: The morphological development of neurons derived from EGF-and FGF-2-driven human CNS precursors depends on their site of integration in the neonatal rat brain. Eur J Neurosci 12:2405–2413, 2000 Rosser AE, Tyers P, Dunnett SB: The morphological development of neurons derived from EGF-and FGF-2-driven human CNS precursors depends on their site of integration in the neonatal rat brain. **Eur J Neurosci 12:**2405–2413, 2000
• PubMed
  Rosser AE, Tyers P, Dunnett SB: The morphological development of neurons derived from EGF-and FGF-2-driven human CNS precursors depends on their site of integration in the neonatal rat brain. Eur J Neurosci 12: 2405– 2413, 2000 Rosser AE, Tyers P, Dunnett SB: The morphological development of neurons derived from EGF-and FGF-2-driven human CNS precursors depends on their site of integration in the neonatal rat brain. Eur J Neurosci 12:2405–2413, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Rubio FJ, , Bueno C, & Villa A, et al: Genetically perpetuated human neural stem cells engraft and differentiate into the adult mammalian brain. Mol Cell Neurosci 16:1–13, 2000 Rubio FJ, Bueno C, Villa A, et al: Genetically perpetuated human neural stem cells engraft and differentiate into the adult mammalian brain. **Mol Cell Neurosci 16:**1–13, 2000
• PubMed
  Rubio FJ, Bueno C, Villa A, et al: Genetically perpetuated human neural stem cells engraft and differentiate into the adult mammalian brain. Mol Cell Neurosci 16: 1– 13, 2000 Rubio FJ, Bueno C, Villa A, et al: Genetically perpetuated human neural stem cells engraft and differentiate into the adult mammalian brain. Mol Cell Neurosci 16:1–13, 2000
  )| false
• Search Google Scholar
• Export Citation
• 1. Shihabuddin LS, , Holets VR, & Whittemore SR: Selective hippocampal lesions differentially affect the phenotypic fate of transplanted neuronal precursor cells. Exp Neurol 139:61–72, 1996 Shihabuddin LS, Holets VR, Whittemore SR: Selective hippocampal lesions differentially affect the phenotypic fate of transplanted neuronal precursor cells. **Exp Neurol 139:**61–72, 1996
• PubMed
  Shihabuddin LS, Holets VR, Whittemore SR: Selective hippocampal lesions differentially affect the phenotypic fate of transplanted neuronal precursor cells. Exp Neurol 139: 61– 72, 1996 Shihabuddin LS, Holets VR, Whittemore SR: Selective hippocampal lesions differentially affect the phenotypic fate of transplanted neuronal precursor cells. Exp Neurol 139:61–72, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Sinden JD, , Rashid-Doubell F, & Kershaw TR, et al: Recovery of spatial learning by grafts of a conditionally immortalized hippocampal neuroepithelial cell line into the ischaemia-lesioned hippocampus. Neuroscience 81:599–608, 1997 Sinden JD, Rashid-Doubell F, Kershaw TR, et al: Recovery of spatial learning by grafts of a conditionally immortalized hippocampal neuroepithelial cell line into the ischaemia-lesioned hippocampus. **Neuroscience 81:**599–608, 1997
• PubMed
  Sinden JD, Rashid-Doubell F, Kershaw TR, et al: Recovery of spatial learning by grafts of a conditionally immortalized hippocampal neuroepithelial cell line into the ischaemia-lesioned hippocampus. Neuroscience 81: 599– 608, 1997 Sinden JD, Rashid-Doubell F, Kershaw TR, et al: Recovery of spatial learning by grafts of a conditionally immortalized hippocampal neuroepithelial cell line into the ischaemia-lesioned hippocampus. Neuroscience 81:599–608, 1997
  )| false
• Search Google Scholar
• Export Citation
• 1. Soares H, & McIntosh TK: Fetal cortical transplants in adult rats subjected to experimental brain injury. J Neural Transplant Plast 2:207–220, 1991 Soares H, McIntosh TK: Fetal cortical transplants in adult rats subjected to experimental brain injury. **J Neural Transplant Plast 2:**207–220, 1991
• PubMed
  Soares H, McIntosh TK: Fetal cortical transplants in adult rats subjected to experimental brain injury. J Neural Transplant Plast 2: 207– 220, 1991 Soares H, McIntosh TK: Fetal cortical transplants in adult rats subjected to experimental brain injury. J Neural Transplant Plast 2:207–220, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Soares HD, , Sinson GP, & McIntosh TK: Fetal hippocampal transplants attenuate CA3 pyramidal cell death resulting from fluid percussion brain injury in the rat. J Neurotrauma 12:1059–1067, 1995 Soares HD, Sinson GP, McIntosh TK: Fetal hippocampal transplants attenuate CA3 pyramidal cell death resulting from fluid percussion brain injury in the rat. **J Neurotrauma 12:**1059–1067, 1995
• PubMed
  Soares HD, Sinson GP, McIntosh TK: Fetal hippocampal transplants attenuate CA3 pyramidal cell death resulting from fluid percussion brain injury in the rat. J Neurotrauma 12: 1059– 1067, 1995 Soares HD, Sinson GP, McIntosh TK: Fetal hippocampal transplants attenuate CA3 pyramidal cell death resulting from fluid percussion brain injury in the rat. J Neurotrauma 12:1059–1067, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Suhonen JO, , Peterson DA, & Ray J, et al: Differentiation of adult hippocampus-derived progenitors into olfactory neurons in vivo. Nature 383:624–627, 1996 Suhonen JO, Peterson DA, Ray J, et al: Differentiation of adult hippocampus-derived progenitors into olfactory neurons in vivo. **Nature 383:**624–627, 1996
• PubMed
  Suhonen JO, Peterson DA, Ray J, et al: Differentiation of adult hippocampus-derived progenitors into olfactory neurons in vivo. Nature 383: 624– 627, 1996 Suhonen JO, Peterson DA, Ray J, et al: Differentiation of adult hippocampus-derived progenitors into olfactory neurons in vivo. Nature 383:624–627, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Trojanowski JQ, , Mantione JR, & Lee JH, et al: Neurons derived from a human teratocarcinoma cell line establish molecular and structural polarity following transplantation into the rodent brain. Exp Neurol 122:283–294, 1993 Trojanowski JQ, Mantione JR, Lee JH, et al: Neurons derived from a human teratocarcinoma cell line establish molecular and structural polarity following transplantation into the rodent brain. **Exp Neurol 122:**283–294, 1993
• PubMed
  Trojanowski JQ, Mantione JR, Lee JH, et al: Neurons derived from a human teratocarcinoma cell line establish molecular and structural polarity following transplantation into the rodent brain. Exp Neurol 122: 283– 294, 1993 Trojanowski JQ, Mantione JR, Lee JH, et al: Neurons derived from a human teratocarcinoma cell line establish molecular and structural polarity following transplantation into the rodent brain. Exp Neurol 122:283–294, 1993
  )| false
• Search Google Scholar
• Export Citation
• 1. Vescovi AL, , Parati EA, & Gritti A, et al: Isolation and cloning of multipotential stem cells from the embryonic human CNS and establishment of transplantable human neural stem cell lines by epigenetic stimulation. Exp Neurol 156:71–83, 1999 Vescovi AL, Parati EA, Gritti A, et al: Isolation and cloning of multipotential stem cells from the embryonic human CNS and establishment of transplantable human neural stem cell lines by epigenetic stimulation. **Exp Neurol 156:**71–83, 1999
• PubMed
  Vescovi AL, Parati EA, Gritti A, et al: Isolation and cloning of multipotential stem cells from the embryonic human CNS and establishment of transplantable human neural stem cell lines by epigenetic stimulation. Exp Neurol 156: 71– 83, 1999 Vescovi AL, Parati EA, Gritti A, et al: Isolation and cloning of multipotential stem cells from the embryonic human CNS and establishment of transplantable human neural stem cell lines by epigenetic stimulation. Exp Neurol 156:71–83, 1999
  )| false
• Search Google Scholar
• Export Citation
• 1. Wennersten A, , Holmin S, & Mathiesen T: Characterization of Bax and Bcl-2 in apoptosis after experimental traumatic brain injury in the rat. Acta Neuropathol 105:281–288, 2003 Wennersten A, Holmin S, Mathiesen T: Characterization of Bax and Bcl-2 in apoptosis after experimental traumatic brain injury in the rat. **Acta Neuropathol 105:**281–288, 2003
• PubMed
  Wennersten A, Holmin S, Mathiesen T: Characterization of Bax and Bcl-2 in apoptosis after experimental traumatic brain injury in the rat. Acta Neuropathol 105: 281– 288, 2003 Wennersten A, Holmin S, Mathiesen T: Characterization of Bax and Bcl-2 in apoptosis after experimental traumatic brain injury in the rat. Acta Neuropathol 105:281–288, 2003
  )| false
• Search Google Scholar
• Export Citation
• 1. Winkler C, , Fricker RA, & Gates MA, et al: Incorporation and glial differentiation of mouse EGF-responsive neural progenitor cells after transplantation into the embryonic rat brain. Mol Cell Neurosci 11:99–116, 1998 Winkler C, Fricker RA, Gates MA, et al: Incorporation and glial differentiation of mouse EGF-responsive neural progenitor cells after transplantation into the embryonic rat brain. **Mol Cell Neurosci 11:**99–116, 1998
• PubMed
  Winkler C, Fricker RA, Gates MA, et al: Incorporation and glial differentiation of mouse EGF-responsive neural progenitor cells after transplantation into the embryonic rat brain. Mol Cell Neurosci 11: 99– 116, 1998 Winkler C, Fricker RA, Gates MA, et al: Incorporation and glial differentiation of mouse EGF-responsive neural progenitor cells after transplantation into the embryonic rat brain. Mol Cell Neurosci 11:99–116, 1998
  )| false
• Search Google Scholar
• Export Citation
• 1. Zhou FC, , Kelley MR, & Chiang YH, et al: Three to four-year-old nonpassaged EGF-responsive neural progenitor cells: proliferation, apoptosis, and DNA repair. Exp Neurol 164:200–208, 2000 Zhou FC, Kelley MR, Chiang YH, et al: Three to four-year-old nonpassaged EGF-responsive neural progenitor cells: proliferation, apoptosis, and DNA repair. **Exp Neurol 164:**200–208, 2000
• PubMed
  Zhou FC, Kelley MR, Chiang YH, et al: Three to four-year-old nonpassaged EGF-responsive neural progenitor cells: proliferation, apoptosis, and DNA repair. Exp Neurol 164: 200– 208, 2000 Zhou FC, Kelley MR, Chiang YH, et al: Three to four-year-old nonpassaged EGF-responsive neural progenitor cells: proliferation, apoptosis, and DNA repair. Exp Neurol 164:200–208, 2000
  )| false
• Search Google Scholar
• Export Citation