Antagonism of neutrophil adherence in the deteriorating stroke model in rabbits (original) (raw)

• 1. Anderson DC, , Schmalsteig FC, & Finegold MJ, et al: The severe and moderate phenotypes of heritable Mac-1, LFA-1 deficiency: their quantitative definition and relation to leukocyte dysfunction and clinical features. J Infect Dis 152:668–689, 1985 Anderson DC, Schmalsteig FC, Finegold MJ, et al: The severe and moderate phenotypes of heritable Mac-1, LFA-1 deficiency: their quantitative definition and relation to leukocyte dysfunction and clinical features. **J Infect Dis 152:**668–689, 1985
• PubMed
  Anderson DC, Schmalsteig FC, Finegold MJ, et al: The severe and moderate phenotypes of heritable Mac-1, LFA-1 deficiency: their quantitative definition and relation to leukocyte dysfunction and clinical features. J Infect Dis 152: 668– 689, 1985 Anderson DC, Schmalsteig FC, Finegold MJ, et al: The severe and moderate phenotypes of heritable Mac-1, LFA-1 deficiency: their quantitative definition and relation to leukocyte dysfunction and clinical features. J Infect Dis 152:668–689, 1985
  )| false
• Search Google Scholar
• Export Citation
• 1. Barton RW, , Rothlein R, & Ksiazek J, et al: The effect of anti-intercellular adhesion molecule-1 on phorbol-ester-induced rabbit lung inflammation. J Immunol 143:1278–1282, 1989 Barton RW, Rothlein R, Ksiazek J, et al: The effect of anti-intercellular adhesion molecule-1 on phorbol-ester-induced rabbit lung inflammation. **J Immunol 143:**1278–1282, 1989
• PubMed
  Barton RW, Rothlein R, Ksiazek J, et al: The effect of anti-intercellular adhesion molecule-1 on phorbol-ester-induced rabbit lung inflammation. J Immunol 143: 1278– 1282, 1989 Barton RW, Rothlein R, Ksiazek J, et al: The effect of anti-intercellular adhesion molecule-1 on phorbol-ester-induced rabbit lung inflammation. J Immunol 143:1278–1282, 1989
  )| false
• Search Google Scholar
• Export Citation
• 1. Borregaard N: The human neutrophil. Function and dysfunction. Eur J Haematol 41:401–413, 1988 Borregaard N: The human neutrophil. Function and dysfunction. **Eur J Haematol 41:**401–413, 1988
• PubMed
  Borregaard N: The human neutrophil. Function and dysfunction. Eur J Haematol 41: 401– 413, 1988 Borregaard N: The human neutrophil. Function and dysfunction. Eur J Haematol 41:401–413, 1988
  )| false
• Search Google Scholar
• Export Citation
• 1. Brott TG, , Haley EC Jr, & Levy DE, et al: Urgent therapy for stroke. Part I. Pilot study of tissue plasminogen activator administered within 90 minutes. Stroke 23:632–640, 1992 Brott TG, Haley EC Jr, Levy DE, et al: Urgent therapy for stroke. Part I. Pilot study of tissue plasminogen activator administered within 90 minutes. **Stroke 23:**632–640, 1992
• PubMed
  Brott TG, Haley EC Jr, Levy DE, et al: Urgent therapy for stroke. Part I. Pilot study of tissue plasminogen activator administered within 90 minutes. Stroke 23: 632– 640, 1992 Brott TG, Haley EC Jr, Levy DE, et al: Urgent therapy for stroke. Part I. Pilot study of tissue plasminogen activator administered within 90 minutes. Stroke 23:632–640, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Cabellos C, , MacIntyre DE, & Forrest M, et al: Differing roles for platelet-activating factor during inflammation of the lung and subarachnoid space. J Clin Invest 90:612–618, 1992 Cabellos C, MacIntyre DE, Forrest M, et al: Differing roles for platelet-activating factor during inflammation of the lung and subarachnoid space. **J Clin Invest 90:**612–618, 1992
• PubMed
  Cabellos C, MacIntyre DE, Forrest M, et al: Differing roles for platelet-activating factor during inflammation of the lung and subarachnoid space. J Clin Invest 90: 612– 618, 1992 Cabellos C, MacIntyre DE, Forrest M, et al: Differing roles for platelet-activating factor during inflammation of the lung and subarachnoid space. J Clin Invest 90:612–618, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Casals-Stenzel J, , Muacevic G, & Heuer K-H: Pharmacological actions of WEB 2086, a new specific antagonist of platelet activating factor. J Pharmacol Exp Ther 241:974–981, 1987 Casals-Stenzel J, Muacevic G, Heuer K-H: Pharmacological actions of WEB 2086, a new specific antagonist of platelet activating factor. **J Pharmacol Exp Ther 241:**974–981, 1987
• PubMed
  Casals-Stenzel J, Muacevic G, Heuer K-H: Pharmacological actions of WEB 2086, a new specific antagonist of platelet activating factor. J Pharmacol Exp Ther 241: 974– 981, 1987 Casals-Stenzel J, Muacevic G, Heuer K-H: Pharmacological actions of WEB 2086, a new specific antagonist of platelet activating factor. J Pharmacol Exp Ther 241:974–981, 1987
  )| false
• Search Google Scholar
• Export Citation
• 1. Cheng M-K, , Robertson C, & Grossman RG, et al: Neurological outcome correlated with spinal evoked potentials in a spinal cord ischemia model. J Neurosurg 60:786–795, 1984 Cheng M-K, Robertson C, Grossman RG, et al: Neurological outcome correlated with spinal evoked potentials in a spinal cord ischemia model. **J Neurosurg 60:**786–795, 1984
• PubMed
  Cheng M-K, Robertson C, Grossman RG, et al: Neurological outcome correlated with spinal evoked potentials in a spinal cord ischemia model. J Neurosurg 60: 786– 795, 1984 Cheng M-K, Robertson C, Grossman RG, et al: Neurological outcome correlated with spinal evoked potentials in a spinal cord ischemia model. J Neurosurg 60:786–795, 1984
  )| false
• Search Google Scholar
• Export Citation
• 1. Clark WM, , Madden KP, & Rothlein R, et al: Reduction of central nervous system ischemic injury in rabbits using leukocyte adhesion antibody treatment. Stroke 22:877–883, 1991 Clark WM, Madden KP, Rothlein R, et al: Reduction of central nervous system ischemic injury in rabbits using leukocyte adhesion antibody treatment. **Stroke 22:**877–883, 1991
• PubMed
  Clark WM, Madden KP, Rothlein R, et al: Reduction of central nervous system ischemic injury in rabbits using leukocyte adhesion antibody treatment. Stroke 22: 877– 883, 1991 Clark WM, Madden KP, Rothlein R, et al: Reduction of central nervous system ischemic injury in rabbits using leukocyte adhesion antibody treatment. Stroke 22:877–883, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Dutka AJ, , Kochaneck PM, & Hallenbeck JM: Influence of granulocytopenia on canine cerebral ischemia induced by air embolism. Stroke 20:390–395, 1989 Dutka AJ, Kochaneck PM, Hallenbeck JM: Influence of granulocytopenia on canine cerebral ischemia induced by air embolism. **Stroke 20:**390–395, 1989
• PubMed
  Dutka AJ, Kochaneck PM, Hallenbeck JM: Influence of granulocytopenia on canine cerebral ischemia induced by air embolism. Stroke 20: 390– 395, 1989 Dutka AJ, Kochaneck PM, Hallenbeck JM: Influence of granulocytopenia on canine cerebral ischemia induced by air embolism. Stroke 20:390–395, 1989
  )| false
• Search Google Scholar
• Export Citation
• 1. Frerichs KU, , Lindsberg PJ, & Hallenbeck JM, et al: Platelet-activating factor and progressive brain damage following focal brain injury. J Neurosurg 73:223–233, 1990 Frerichs KU, Lindsberg PJ, Hallenbeck JM, et al: Platelet-activating factor and progressive brain damage following focal brain injury. **J Neurosurg 73:**223–233, 1990
• PubMed
  Frerichs KU, Lindsberg PJ, Hallenbeck JM, et al: Platelet-activating factor and progressive brain damage following focal brain injury. J Neurosurg 73: 223– 233, 1990 Frerichs KU, Lindsberg PJ, Hallenbeck JM, et al: Platelet-activating factor and progressive brain damage following focal brain injury. J Neurosurg 73:223–233, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Garcia JH, , Lossinsky AS, & Kauffman FC, et al: Neuronal ischemic injury: light microscopy, ultrastructure and biochemistry. Acta Neuropathol 43:85–95, 1978 Garcia JH, Lossinsky AS, Kauffman FC, et al: Neuronal ischemic injury: light microscopy, ultrastructure and biochemistry. **Acta Neuropathol 43:**85–95, 1978
• PubMed
  Garcia JH, Lossinsky AS, Kauffman FC, et al: Neuronal ischemic injury: light microscopy, ultrastructure and biochemistry. Acta Neuropathol 43: 85– 95, 1978 Garcia JH, Lossinsky AS, Kauffman FC, et al: Neuronal ischemic injury: light microscopy, ultrastructure and biochemistry. Acta Neuropathol 43:85–95, 1978
  )| false
• Search Google Scholar
• Export Citation
• 1. Giulian D, & Robertson C: Inhibition of mononuclear phagocytes reduces ischemic injury in the spinal cord. Ann Neurol 27:33–42, 1990 Giulian D, Robertson C: Inhibition of mononuclear phagocytes reduces ischemic injury in the spinal cord. **Ann Neurol 27:**33–42, 1990
• PubMed
  Giulian D, Robertson C: Inhibition of mononuclear phagocytes reduces ischemic injury in the spinal cord. Ann Neurol 27: 33– 42, 1990 Giulian D, Robertson C: Inhibition of mononuclear phagocytes reduces ischemic injury in the spinal cord. Ann Neurol 27:33–42, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Grau AJ, , Berger E, & Sun K-LP, et al: Granulocyte adhesion, deformability and superoxide formation in acute stroke. Stroke 23:33–39, 1992 Grau AJ, Berger E, Sun K-LP, et al: Granulocyte adhesion, deformability and superoxide formation in acute stroke. **Stroke 23:**33–39, 1992
• PubMed
  Grau AJ, Berger E, Sun K-LP, et al: Granulocyte adhesion, deformability and superoxide formation in acute stroke. Stroke 23: 33– 39, 1992 Grau AJ, Berger E, Sun K-LP, et al: Granulocyte adhesion, deformability and superoxide formation in acute stroke. Stroke 23:33–39, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Hallenbeck JM, , Dutka AJ, & Tanishima T, et al: Polymorphonuclear leukocyte accumulation in brain regions with low blood flow during the early postischemic period. Stroke 17:46–253, 1986 Hallenbeck JM, Dutka AJ, Tanishima T, et al: Polymorphonuclear leukocyte accumulation in brain regions with low blood flow during the early postischemic period. **Stroke 17:**46–253, 1986
• PubMed
  Hallenbeck JM, Dutka AJ, Tanishima T, et al: Polymorphonuclear leukocyte accumulation in brain regions with low blood flow during the early postischemic period. Stroke 17: 46– 253, 1986 Hallenbeck JM, Dutka AJ, Tanishima T, et al: Polymorphonuclear leukocyte accumulation in brain regions with low blood flow during the early postischemic period. Stroke 17:46–253, 1986
  )| false
• Search Google Scholar
• Export Citation
• 1. Harlan JM: Neutrophil-mediated vascular injury. Acta Med Scand (Suppl) 715:123–129, 1987 Harlan JM: Neutrophil-mediated vascular injury. **Acta Med Scand (Suppl) 715:**123–129, 1987
• PubMed
  Harlan JM: Neutrophil-mediated vascular injury. Acta Med Scand (Suppl) 715: 123– 129, 1987 Harlan JM: Neutrophil-mediated vascular injury. Acta Med Scand (Suppl) 715:123–129, 1987
  )| false
• Search Google Scholar
• Export Citation
• 1. Jacobs TP, , Kempski O, & McKinley D, et al: Blood flow and vascular permeability during motor dysfunction in a rabbit model of spinal cord ischemia. Stroke 23:367–373, 1992 Jacobs TP, Kempski O, McKinley D, et al: Blood flow and vascular permeability during motor dysfunction in a rabbit model of spinal cord ischemia. **Stroke 23:**367–373, 1992
• PubMed
  Jacobs TP, Kempski O, McKinley D, et al: Blood flow and vascular permeability during motor dysfunction in a rabbit model of spinal cord ischemia. Stroke 23: 367– 373, 1992 Jacobs TP, Kempski O, McKinley D, et al: Blood flow and vascular permeability during motor dysfunction in a rabbit model of spinal cord ischemia. Stroke 23:367–373, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Jacobs TP, , Shohami E, & Baze W, et al: Deteriorating stroke model: histopathology, edema, and eicosanoid changes following spinal cord ischemia in rabbits. Stroke 18:741–750, 1987 Jacobs TP, Shohami E, Baze W, et al: Deteriorating stroke model: histopathology, edema, and eicosanoid changes following spinal cord ischemia in rabbits. **Stroke 18:**741–750, 1987
• PubMed
  Jacobs TP, Shohami E, Baze W, et al: Deteriorating stroke model: histopathology, edema, and eicosanoid changes following spinal cord ischemia in rabbits. Stroke 18: 741– 750, 1987 Jacobs TP, Shohami E, Baze W, et al: Deteriorating stroke model: histopathology, edema, and eicosanoid changes following spinal cord ischemia in rabbits. Stroke 18:741–750, 1987
  )| false
• Search Google Scholar
• Export Citation
• 1. Kozma C, , Macklin W, & Cummins LM, et al: The anatomy, physiology, and the biochemistry of the rabbit, in Weisbroth SH, , Flatt RE, & Kraus AL (eds): The Biology of the Laboratory Rabbit. New York: Academic Press, 1974, pp 66–68 Kozma C, Macklin W, Cummins LM, et al: The anatomy, physiology, and the biochemistry of the rabbit, in Weisbroth SH, Flatt RE, Kraus AL (eds): The Biology of the Laboratory Rabbit. New York: Academic Press, 1974, pp 66–68
• PubMed
  Kozma C, Macklin W, Cummins LM, et al: The anatomy, physiology, and the biochemistry of the rabbit, in Weisbroth SH, Flatt RE, Kraus AL (eds): The Biology of the Laboratory Rabbit. New York: Academic Press, 1974, pp 66– 68 Kozma C, Macklin W, Cummins LM, et al: The anatomy, physiology, and the biochemistry of the rabbit, in Weisbroth SH, Flatt RE, Kraus AL (eds): The Biology of the Laboratory Rabbit. New York: Academic Press, 1974, pp 66–68
  )| false
• Search Google Scholar
• Export Citation
• 1. Kubes P, , Suzuki M, & Granger DN: Platelet-activating factor-induced microvascular dysfunction: role of adherent leukocytes. Am J Physiol 258:G158–G163, 1990 Kubes P, Suzuki M, Granger DN: Platelet-activating factor-induced microvascular dysfunction: role of adherent leukocytes. **Am J Physiol 258:**G158–G163, 1990
• PubMed
  Kubes P, Suzuki M, Granger DN: Platelet-activating factor-induced microvascular dysfunction: role of adherent leukocytes. Am J Physiol 258: G158– G163, 1990 Kubes P, Suzuki M, Granger DN: Platelet-activating factor-induced microvascular dysfunction: role of adherent leukocytes. Am J Physiol 258:G158–G163, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindsberg PJ, , Hallenbeck JM, & Feuerstein G: Platelet-activating factor in stroke and brain injury. Ann Neurol 30:117–129, 1991 Lindsberg PJ, Hallenbeck JM, Feuerstein G: Platelet-activating factor in stroke and brain injury. **Ann Neurol 30:**117–129, 1991
• PubMed
  Lindsberg PJ, Hallenbeck JM, Feuerstein G: Platelet-activating factor in stroke and brain injury. Ann Neurol 30: 117– 129, 1991 Lindsberg PJ, Hallenbeck JM, Feuerstein G: Platelet-activating factor in stroke and brain injury. Ann Neurol 30:117–129, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindsberg PJ, , Jacobs TP, & Frerichs KU, et al: Laser-Doppler flowmetry in monitoring regulation of rapid microcirculatory changes in the spinal cord. Am J Physiol 263:H285–H292, 1992 Lindsberg PJ, Jacobs TP, Frerichs KU, et al: Laser-Doppler flowmetry in monitoring regulation of rapid microcirculatory changes in the spinal cord. **Am J Physiol 263:**H285–H292, 1992
• PubMed
  Lindsberg PJ, Jacobs TP, Frerichs KU, et al: Laser-Doppler flowmetry in monitoring regulation of rapid microcirculatory changes in the spinal cord. Am J Physiol 263: H285– H292, 1992 Lindsberg PJ, Jacobs TP, Frerichs KU, et al: Laser-Doppler flowmetry in monitoring regulation of rapid microcirculatory changes in the spinal cord. Am J Physiol 263:H285–H292, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindsberg PJ, , O'Neill JT, & Paakkari IA, et al: Validation of laser-Doppler flowmetry in measurement of spinal cord blood flow. Am J Physiol 257:H674–H680, 1989 Lindsberg PJ, O'Neill JT, Paakkari IA, et al: Validation of laser-Doppler flowmetry in measurement of spinal cord blood flow. **Am J Physiol 257:**H674–H680, 1989
• PubMed
  Lindsberg PJ, O'Neill JT, Paakkari IA, et al: Validation of laser-Doppler flowmetry in measurement of spinal cord blood flow. Am J Physiol 257: H674– H680, 1989 Lindsberg PJ, O'Neill JT, Paakkari IA, et al: Validation of laser-Doppler flowmetry in measurement of spinal cord blood flow. Am J Physiol 257:H674–H680, 1989
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindsberg PJ, , Sirén AL, & Feuerstein G, et al: Postischemic antagonism of neutrophil adherence has an acute therapeutic effect on functional recovery in the deteriorating stroke model in rabbits. J Cereb Blood Flow Metab 11 (Suppl 2):S754, 1991 Lindsberg PJ, Sirén AL, Feuerstein G, et al: Postischemic antagonism of neutrophil adherence has an acute therapeutic effect on functional recovery in the deteriorating stroke model in rabbits. **J Cereb Blood Flow Metab 11 (Suppl 2):**S754, 1991
• PubMed
  Lindsberg PJ, Sirén AL, Feuerstein G, et al: Postischemic antagonism of neutrophil adherence has an acute therapeutic effect on functional recovery in the deteriorating stroke model in rabbits. J Cereb Blood Flow Metab 11 (Suppl 2): S754, 1991 Lindsberg PJ, Sirén AL, Feuerstein G, et al: Postischemic antagonism of neutrophil adherence has an acute therapeutic effect on functional recovery in the deteriorating stroke model in rabbits. J Cereb Blood Flow Metab 11 (Suppl 2):S754, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Lindsberg PJ, , Yue TL, & Frerichs KU, et al: Evidence for platelet-activating factor as a novel mediator in experimental stroke in rabbits. Stroke 21:1452–1457, 1990 Lindsberg PJ, Yue TL, Frerichs KU, et al: Evidence for platelet-activating factor as a novel mediator in experimental stroke in rabbits. **Stroke 21:**1452–1457, 1990
• PubMed
  Lindsberg PJ, Yue TL, Frerichs KU, et al: Evidence for platelet-activating factor as a novel mediator in experimental stroke in rabbits. Stroke 21: 1452– 1457, 1990 Lindsberg PJ, Yue TL, Frerichs KU, et al: Evidence for platelet-activating factor as a novel mediator in experimental stroke in rabbits. Stroke 21:1452–1457, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Lorant DE, , Patel KD, & McIntyre TM, et al: Coexpression of GMP-140 and PAF by endothelium stimulated by histamine or thrombin: a juxtracrine system for adhesion and activation of neutrophils. J Cell Biol 115:223–234, 1991 Lorant DE, Patel KD, McIntyre TM, et al: Coexpression of GMP-140 and PAF by endothelium stimulated by histamine or thrombin: a juxtracrine system for adhesion and activation of neutrophils. **J Cell Biol 115:**223–234, 1991
• PubMed
  Lorant DE, Patel KD, McIntyre TM, et al: Coexpression of GMP-140 and PAF by endothelium stimulated by histamine or thrombin: a juxtracrine system for adhesion and activation of neutrophils. J Cell Biol 115: 223– 234, 1991 Lorant DE, Patel KD, McIntyre TM, et al: Coexpression of GMP-140 and PAF by endothelium stimulated by histamine or thrombin: a juxtracrine system for adhesion and activation of neutrophils. J Cell Biol 115:223–234, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Pozzilli C, , Lenzi GL, & Argentino C, et al: Imaging of leukocytic infiltration in human cerebral infarcts. Stroke 16:251–255, 1985 Pozzilli C, Lenzi GL, Argentino C, et al: Imaging of leukocytic infiltration in human cerebral infarcts. **Stroke 16:**251–255, 1985
• PubMed
  Pozzilli C, Lenzi GL, Argentino C, et al: Imaging of leukocytic infiltration in human cerebral infarcts. Stroke 16: 251– 255, 1985 Pozzilli C, Lenzi GL, Argentino C, et al: Imaging of leukocytic infiltration in human cerebral infarcts. Stroke 16:251–255, 1985
  )| false
• Search Google Scholar
• Export Citation
• 1. Saria A, & Lundberg JM: Evans blue fluorescence: quantitative and morphological evaluation of vascular permeability in animal tissues. J Neurosci Meth 8:41–49, 1983 Saria A, Lundberg JM: Evans blue fluorescence: quantitative and morphological evaluation of vascular permeability in animal tissues. **J Neurosci Meth 8:**41–49, 1983
• PubMed
  Saria A, Lundberg JM: Evans blue fluorescence: quantitative and morphological evaluation of vascular permeability in animal tissues. J Neurosci Meth 8: 41– 49, 1983 Saria A, Lundberg JM: Evans blue fluorescence: quantitative and morphological evaluation of vascular permeability in animal tissues. J Neurosci Meth 8:41–49, 1983
  )| false
• Search Google Scholar
• Export Citation
• 1. Springer TA: Adhesion receptors of the immune system. Nature 346:425–434, 1990 Springer TA: Adhesion receptors of the immune system. **Nature 346:**425–434, 1990
• PubMed
  Springer TA: Adhesion receptors of the immune system. Nature 346: 425– 434, 1990 Springer TA: Adhesion receptors of the immune system. Nature 346:425–434, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Takeshima R, , Kirsch JR, & Koehler RC, et al: Monoclonal leukocyte antibody does not decrease the injury of transient focal cerebral ischemia in cats. Stroke 23:247–252, 1992 Takeshima R, Kirsch JR, Koehler RC, et al: Monoclonal leukocyte antibody does not decrease the injury of transient focal cerebral ischemia in cats. **Stroke 23:**247–252, 1992
• PubMed
  Takeshima R, Kirsch JR, Koehler RC, et al: Monoclonal leukocyte antibody does not decrease the injury of transient focal cerebral ischemia in cats. Stroke 23: 247– 252, 1992 Takeshima R, Kirsch JR, Koehler RC, et al: Monoclonal leukocyte antibody does not decrease the injury of transient focal cerebral ischemia in cats. Stroke 23:247–252, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Zimmerman GA, , Prescott SM, & McIntyre TM: Endothelial cell interactions with granulocytes: tethering and signaling molecules. Immunol Today 13:93–100, 1992 Zimmerman GA, Prescott SM, McIntyre TM: Endothelial cell interactions with granulocytes: tethering and signaling molecules. **Immunol Today 13:**93–100, 1992
• PubMed
  Zimmerman GA, Prescott SM, McIntyre TM: Endothelial cell interactions with granulocytes: tethering and signaling molecules. Immunol Today 13: 93– 100, 1992 Zimmerman GA, Prescott SM, McIntyre TM: Endothelial cell interactions with granulocytes: tethering and signaling molecules. Immunol Today 13:93–100, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Zivin JA, & DeGirolami U: Spinal cord infarction: a highly reproducible stroke model. Stroke 11:200–202, 1980 Zivin JA, DeGirolami U: Spinal cord infarction: a highly reproducible stroke model. **Stroke 11:**200–202, 1980
• PubMed
  Zivin JA, DeGirolami U: Spinal cord infarction: a highly reproducible stroke model. Stroke 11: 200– 202, 1980 Zivin JA, DeGirolami U: Spinal cord infarction: a highly reproducible stroke model. Stroke 11:200–202, 1980
  )| false
• Search Google Scholar
• Export Citation