Arterial pulsation—dependent perivascular cerebrospinal fluid flow into the central canal in the sheep spinal cord (original) (raw)

• 1. Bach-y-Rita P: Nonsynaptic diffusion neurotransmission (NDN) in the brain. Neurochem Int 23:297–318, 1993 Bach-y-Rita P: Nonsynaptic diffusion neurotransmission (NDN) in the brain. **Neurochem Int 23:**297–318, 1993
• PubMed
  Bach-y-Rita P: Nonsynaptic diffusion neurotransmission (NDN) in the brain. Neurochem Int 23: 297– 318, 1993 Bach-y-Rita P: Nonsynaptic diffusion neurotransmission (NDN) in the brain. Neurochem Int 23:297–318, 1993
  )| false
• Search Google Scholar
• Export Citation
• 1. Ball MJ, & Dayan AD: Pathogenesis of syringomyelia. Lancet 2:799–801, 1972 Ball MJ, Dayan AD: Pathogenesis of syringomyelia. **Lancet 2:**799–801, 1972
• PubMed
  Ball MJ, Dayan AD: Pathogenesis of syringomyelia. Lancet 2: 799– 801, 1972 Ball MJ, Dayan AD: Pathogenesis of syringomyelia. Lancet 2:799–801, 1972
  )| false
• Search Google Scholar
• Export Citation
• 1. Borison HL, , Borison R, & McCarthy LE: Brain stem penetration by horseradish peroxidase from the cerebrospinal fluid spaces in the cat. Exp Neurol 69:271–289, 1980 Borison HL, Borison R, McCarthy LE: Brain stem penetration by horseradish peroxidase from the cerebrospinal fluid spaces in the cat. **Exp Neurol 69:**271–289, 1980
• PubMed
  Borison HL, Borison R, McCarthy LE: Brain stem penetration by horseradish peroxidase from the cerebrospinal fluid spaces in the cat. Exp Neurol 69: 271– 289, 1980 Borison HL, Borison R, McCarthy LE: Brain stem penetration by horseradish peroxidase from the cerebrospinal fluid spaces in the cat. Exp Neurol 69:271–289, 1980
  )| false
• Search Google Scholar
• Export Citation
• 1. Brierley JB: The penetration of particulate matter from the cerebrospinal fluid into the spinal ganglia, peripheral nerves, and perivascular spaces of the central nervous system. J Neurol Neurosurg Psychiatry 13:203–215, 1950 Brierley JB: The penetration of particulate matter from the cerebrospinal fluid into the spinal ganglia, peripheral nerves, and perivascular spaces of the central nervous system. **J Neurol Neurosurg Psychiatry 13:**203–215, 1950
• PubMed
  Brierley JB: The penetration of particulate matter from the cerebrospinal fluid into the spinal ganglia, peripheral nerves, and perivascular spaces of the central nervous system. J Neurol Neurosurg Psychiatry 13: 203– 215, 1950 Brierley JB: The penetration of particulate matter from the cerebrospinal fluid into the spinal ganglia, peripheral nerves, and perivascular spaces of the central nervous system. J Neurol Neurosurg Psychiatry 13:203–215, 1950
  )| false
• Search Google Scholar
• Export Citation
• 1. Brightman MW: The distribution within the brain of ferritin injected into cerebrospinal fluid compartments. II. Parenchymal distribution. Am J Anat 117:193–220, 1965 Brightman MW: The distribution within the brain of ferritin injected into cerebrospinal fluid compartments. II. Parenchymal distribution. **Am J Anat 117:**193–220, 1965
• PubMed
  Brightman MW: The distribution within the brain of ferritin injected into cerebrospinal fluid compartments. II. Parenchymal distribution. Am J Anat 117: 193– 220, 1965 Brightman MW: The distribution within the brain of ferritin injected into cerebrospinal fluid compartments. II. Parenchymal distribution. Am J Anat 117:193–220, 1965
  )| false
• Search Google Scholar
• Export Citation
• 1. Cifuentes M, , Fernández-Llebrez P, & Pérez J, et al: Distribution of intraventricularly injected horseradish peroxidase in cerebrospinal fluid compartments of the rat spinal cord. Cell Tissue Res 270:485–494, 1992 Cifuentes M, Fernández-Llebrez P, Pérez J, et al: Distribution of intraventricularly injected horseradish peroxidase in cerebrospinal fluid compartments of the rat spinal cord. **Cell Tissue Res 270:**485–494, 1992
• PubMed
  Cifuentes M, Fernández-Llebrez P, Pérez J, et al: Distribution of intraventricularly injected horseradish peroxidase in cerebrospinal fluid compartments of the rat spinal cord. Cell Tissue Res 270: 485– 494, 1992 Cifuentes M, Fernández-Llebrez P, Pérez J, et al: Distribution of intraventricularly injected horseradish peroxidase in cerebrospinal fluid compartments of the rat spinal cord. Cell Tissue Res 270:485–494, 1992
  )| false
• Search Google Scholar
• Export Citation
• 1. Di Chiro G: Observations on the circulation of the cerebrospinal fluid. Acta Radiol (Diagn) 5:988–1002, 1966 Di Chiro G: Observations on the circulation of the cerebrospinal fluid. **Acta Radiol (Diagn) 5:**988–1002, 1966
• PubMed
  Di Chiro G: Observations on the circulation of the cerebrospinal fluid. Acta Radiol (Diagn) 5: 988– 1002, 1966 Di Chiro G: Observations on the circulation of the cerebrospinal fluid. Acta Radiol (Diagn) 5:988–1002, 1966
  )| false
• Search Google Scholar
• Export Citation
• 1. Dunker RO, , Harris AB, & Jenkins DP: Kinetics of horseradish peroxidase migration through cerebral cortex. Brain Res 118:199–217, 1976 Dunker RO, Harris AB, Jenkins DP: Kinetics of horseradish peroxidase migration through cerebral cortex. **Brain Res 118:**199–217, 1976
• PubMed
  Dunker RO, Harris AB, Jenkins DP: Kinetics of horseradish peroxidase migration through cerebral cortex. Brain Res 118: 199– 217, 1976 Dunker RO, Harris AB, Jenkins DP: Kinetics of horseradish peroxidase migration through cerebral cortex. Brain Res 118:199–217, 1976
  )| false
• Search Google Scholar
• Export Citation
• 1. Dyce KM, , Sack WO, & Wensing CJG: Textbook of Veterinary Anatomy, ed 2. Philadelphia: WB Saunders, 1995 Dyce KM, Sack WO, Wensing CJG: Textbook of Veterinary Anatomy, ed 2. Philadelphia: WB Saunders, 1995
• PubMed
  Dyce KM, Sack WO, Wensing CJG: Textbook of Veterinary Anatomy, ed 2. Philadelphia: WB Saunders, 1995 Dyce KM, Sack WO, Wensing CJG: Textbook of Veterinary Anatomy, ed 2. Philadelphia: WB Saunders, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Esiri MM, & Gay D: Immunological and neuropathological significance of the Virchow-Robin space. J Neurol Sci 100:3–8, 1990 Esiri MM, Gay D: Immunological and neuropathological significance of the Virchow-Robin space. **J Neurol Sci 100:**3–8, 1990
• PubMed
  Esiri MM, Gay D: Immunological and neuropathological significance of the Virchow-Robin space. J Neurol Sci 100: 3– 8, 1990 Esiri MM, Gay D: Immunological and neuropathological significance of the Virchow-Robin space. J Neurol Sci 100:3–8, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Gardner WJ: Hydrodynamic mechanism of syringomyelia: its relationship to myelocele. J Neurol Neurosurg Psychiatry 28:247–259, 1965 Gardner WJ: Hydrodynamic mechanism of syringomyelia: its relationship to myelocele. **J Neurol Neurosurg Psychiatry 28:**247–259, 1965
• PubMed
  Gardner WJ: Hydrodynamic mechanism of syringomyelia: its relationship to myelocele. J Neurol Neurosurg Psychiatry 28: 247– 259, 1965 Gardner WJ: Hydrodynamic mechanism of syringomyelia: its relationship to myelocele. J Neurol Neurosurg Psychiatry 28:247–259, 1965
  )| false
• Search Google Scholar
• Export Citation
• 1. Gardner WJ, & McMurry FG: “Non-communicating” syringomyelia: a non-existent entity. Surg Neurol 6:251–256, 1976 Gardner WJ, McMurry FG: “Non-communicating” syringomyelia: a non-existent entity. **Surg Neurol 6:**251–256, 1976
• PubMed
  Gardner WJ, McMurry FG: “Non-communicating” syringomyelia: a non-existent entity. Surg Neurol 6: 251– 256, 1976 Gardner WJ, McMurry FG: “Non-communicating” syringomyelia: a non-existent entity. Surg Neurol 6:251–256, 1976
  )| false
• Search Google Scholar
• Export Citation
• 1. Heiss JD, , Eidsath A, & Talbot T, et al: Craniospinal decompression increases intracranial compliance and reduces subarachnoid pressure in patients with Chiari I syringomyelia. Neurosurgery 35:567, 1994 Heiss JD, Eidsath A, Talbot T, et al: Craniospinal decompression increases intracranial compliance and reduces subarachnoid pressure in patients with Chiari I syringomyelia. **Neurosurgery 35:**567, 1994 (Abstract)
• PubMed
  Heiss JD, Eidsath A, Talbot T, et al: Craniospinal decompression increases intracranial compliance and reduces subarachnoid pressure in patients with Chiari I syringomyelia. Neurosurgery 35: 567, 1994 (Abstract) Heiss JD, Eidsath A, Talbot T, et al: Craniospinal decompression increases intracranial compliance and reduces subarachnoid pressure in patients with Chiari I syringomyelia. Neurosurgery 35:567, 1994 (Abstract)
  )| false
• Search Google Scholar
• Export Citation
• 1. Hutchings M, & Weller RO: Anatomical relationships of the pia mater to cerebral blood vessels in man. J Neurosurg 65:316–325, 1986 Hutchings M, Weller RO: Anatomical relationships of the pia mater to cerebral blood vessels in man. **J Neurosurg 65:**316–325, 1986
• PubMed
  Hutchings M, Weller RO: Anatomical relationships of the pia mater to cerebral blood vessels in man. J Neurosurg 65: 316– 325, 1986 Hutchings M, Weller RO: Anatomical relationships of the pia mater to cerebral blood vessels in man. J Neurosurg 65:316–325, 1986
  )| false
• Search Google Scholar
• Export Citation
• 1. May NDS: The Anatomy of the Sheep. A Dissection Manual. Brisbane: University of Queensland, 1970 May NDS: The Anatomy of the Sheep. A Dissection Manual. Brisbane: University of Queensland, 1970
• PubMed
  May NDS: The Anatomy of the Sheep. A Dissection Manual. Brisbane: University of Queensland, 1970 May NDS: The Anatomy of the Sheep. A Dissection Manual. Brisbane: University of Queensland, 1970
  )| false
• Search Google Scholar
• Export Citation
• 1. McGrath JT: Spinal dysraphism in the dog with comments on syringomyelia. Pathol Veter 2 (Suppl):1–36, 1965 McGrath JT: Spinal dysraphism in the dog with comments on syringomyelia. **Pathol Veter 2 (Suppl):**1–36, 1965
• PubMed
  McGrath JT: Spinal dysraphism in the dog with comments on syringomyelia. Pathol Veter 2 (Suppl): 1– 36, 1965 McGrath JT: Spinal dysraphism in the dog with comments on syringomyelia. Pathol Veter 2 (Suppl):1–36, 1965
  )| false
• Search Google Scholar
• Export Citation
• 1. Mesulam MM: The blue reaction product in horseradish peroxidase neurohistochemistry: incubation parameters and visibility. J Histochem Cytochem 24:1273–1280, 1976 Mesulam MM: The blue reaction product in horseradish peroxidase neurohistochemistry: incubation parameters and visibility. **J Histochem Cytochem 24:**1273–1280, 1976
• PubMed
  Mesulam MM: The blue reaction product in horseradish peroxidase neurohistochemistry: incubation parameters and visibility. J Histochem Cytochem 24: 1273– 1280, 1976 Mesulam MM: The blue reaction product in horseradish peroxidase neurohistochemistry: incubation parameters and visibility. J Histochem Cytochem 24:1273–1280, 1976
  )| false
• Search Google Scholar
• Export Citation
• 1. Mesulam MM: Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction-product with superior sensitivity for visualising neural afferents and efferents. J Histochem Cytochem 26:106–117, 1978 Mesulam MM: Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction-product with superior sensitivity for visualising neural afferents and efferents. **J Histochem Cytochem 26:**106–117, 1978
• PubMed
  Mesulam MM: Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction-product with superior sensitivity for visualising neural afferents and efferents. J Histochem Cytochem 26: 106– 117, 1978 Mesulam MM: Tetramethyl benzidine for horseradish peroxidase neurohistochemistry: a non-carcinogenic blue reaction-product with superior sensitivity for visualising neural afferents and efferents. J Histochem Cytochem 26:106–117, 1978
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Adler DE, & Heger IM, et al: Histopathology of experimental hematomyelia. J Neurosurg 75:911–915, 1991 Milhorat TH, Adler DE, Heger IM, et al: Histopathology of experimental hematomyelia. **J Neurosurg 75:**911–915, 1991
• PubMed
  Milhorat TH, Adler DE, Heger IM, et al: Histopathology of experimental hematomyelia. J Neurosurg 75: 911– 915, 1991 Milhorat TH, Adler DE, Heger IM, et al: Histopathology of experimental hematomyelia. J Neurosurg 75:911–915, 1991
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Capocelli AL Jr, & Anzil AP, et al: Pathological basis of spinal cord cavitation in syringomyelia: analysis of 105 autopsy cases. J Neurosurg 82:802–812, 1995 Milhorat TH, Capocelli AL Jr, Anzil AP, et al: Pathological basis of spinal cord cavitation in syringomyelia: analysis of 105 autopsy cases. **J Neurosurg 82:**802–812, 1995
• PubMed
  Milhorat TH, Capocelli AL Jr, Anzil AP, et al: Pathological basis of spinal cord cavitation in syringomyelia: analysis of 105 autopsy cases. J Neurosurg 82: 802– 812, 1995 Milhorat TH, Capocelli AL Jr, Anzil AP, et al: Pathological basis of spinal cord cavitation in syringomyelia: analysis of 105 autopsy cases. J Neurosurg 82:802–812, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Davis DA, & Hammock MK: Experimental intracerebral movement of electron microscopic tracers of various molecular sizes. J Neurosurg 42:315–329, 1975 Milhorat TH, Davis DA, Hammock MK: Experimental intracerebral movement of electron microscopic tracers of various molecular sizes. **J Neurosurg 42:**315–329, 1975
• PubMed
  Milhorat TH, Davis DA, Hammock MK: Experimental intracerebral movement of electron microscopic tracers of various molecular sizes. J Neurosurg 42: 315– 329, 1975 Milhorat TH, Davis DA, Hammock MK: Experimental intracerebral movement of electron microscopic tracers of various molecular sizes. J Neurosurg 42:315–329, 1975
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Johnson RW, & Johnson WD: Evidence of CSF flow in rostral direction through central canal of spinal cord in rats, in Matsumoto N, & Tamski N (eds): Hydrocephalus: Pathogenesis and Treatment. Tokyo: Springer-Verlag, 1992, pp 207–217 Milhorat TH, Johnson RW, Johnson WD: Evidence of CSF flow in rostral direction through central canal of spinal cord in rats, in Matsumoto N, Tamski N (eds): Hydrocephalus: Pathogenesis and Treatment. Tokyo: Springer-Verlag, 1992, pp 207–217
• PubMed
  Milhorat TH, Johnson RW, Johnson WD: Evidence of CSF flow in rostral direction through central canal of spinal cord in rats, in Matsumoto N, Tamski N (eds): Hydrocephalus: Pathogenesis and Treatment. Tokyo: Springer-Verlag, 1992, pp 207– 217 Milhorat TH, Johnson RW, Johnson WD: Evidence of CSF flow in rostral direction through central canal of spinal cord in rats, in Matsumoto N, Tamski N (eds): Hydrocephalus: Pathogenesis and Treatment. Tokyo: Springer-Verlag, 1992, pp 207–217
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Johnson RW, & Milhorat RH, et al: Clinicopathological correlations in syringomyelia using axial magnetic resonance imaging. Neurosurgery 37:206–213, 1995 Milhorat TH, Johnson RW, Milhorat RH, et al: Clinicopathological correlations in syringomyelia using axial magnetic resonance imaging. **Neurosurgery 37:**206–213, 1995
• PubMed
  Milhorat TH, Johnson RW, Milhorat RH, et al: Clinicopathological correlations in syringomyelia using axial magnetic resonance imaging. Neurosurgery 37: 206– 213, 1995 Milhorat TH, Johnson RW, Milhorat RH, et al: Clinicopathological correlations in syringomyelia using axial magnetic resonance imaging. Neurosurgery 37:206–213, 1995
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Kotzen RM, & Anzil AP: Stenosis of central canal of spinal cord in man: incidence and pathological findings in 232 autopsy cases. J Neurosurg 80:716–722, 1994 Milhorat TH, Kotzen RM, Anzil AP: Stenosis of central canal of spinal cord in man: incidence and pathological findings in 232 autopsy cases. **J Neurosurg 80:**716–722, 1994
• PubMed
  Milhorat TH, Kotzen RM, Anzil AP: Stenosis of central canal of spinal cord in man: incidence and pathological findings in 232 autopsy cases. J Neurosurg 80: 716– 722, 1994 Milhorat TH, Kotzen RM, Anzil AP: Stenosis of central canal of spinal cord in man: incidence and pathological findings in 232 autopsy cases. J Neurosurg 80:716–722, 1994
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Miller JI, & Johnson WD, et al: Anatomical basis of syringomyelia occurring with hindbrain lesions. Neurosurgery 32:748–754, 1993 Milhorat TH, Miller JI, Johnson WD, et al: Anatomical basis of syringomyelia occurring with hindbrain lesions. **Neurosurgery 32:**748–754, 1993
• PubMed
  Milhorat TH, Miller JI, Johnson WD, et al: Anatomical basis of syringomyelia occurring with hindbrain lesions. Neurosurgery 32: 748– 754, 1993 Milhorat TH, Miller JI, Johnson WD, et al: Anatomical basis of syringomyelia occurring with hindbrain lesions. Neurosurgery 32:748–754, 1993
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Nakamura S, & Heger I, et al: Ultrastructural evidence of sink function of central canal of spinal cord as demonstrated by clearance of horseradish peroxidase. Electron Micros Soc Am Proc 50:700–701, 1992 Milhorat TH, Nakamura S, Heger I, et al: Ultrastructural evidence of sink function of central canal of spinal cord as demonstrated by clearance of horseradish peroxidase. **Electron Micros Soc Am Proc 50:**700–701, 1992 (Abstract)
• PubMed
  Milhorat TH, Nakamura S, Heger I, et al: Ultrastructural evidence of sink function of central canal of spinal cord as demonstrated by clearance of horseradish peroxidase. Electron Micros Soc Am Proc 50: 700– 701, 1992 (Abstract) Milhorat TH, Nakamura S, Heger I, et al: Ultrastructural evidence of sink function of central canal of spinal cord as demonstrated by clearance of horseradish peroxidase. Electron Micros Soc Am Proc 50:700–701, 1992 (Abstract)
  )| false
• Search Google Scholar
• Export Citation
• 1. Milhorat TH, , Nobandegani F, & Miller JI, et al: Noncommunicating syringomyelia following occlusion of central canal in rats. Experimental model and histological findings. J Neurosurg 78:274–279, 1993 Milhorat TH, Nobandegani F, Miller JI, et al: Noncommunicating syringomyelia following occlusion of central canal in rats. Experimental model and histological findings. **J Neurosurg 78:**274–279, 1993
• PubMed
  Milhorat TH, Nobandegani F, Miller JI, et al: Noncommunicating syringomyelia following occlusion of central canal in rats. Experimental model and histological findings. J Neurosurg 78: 274– 279, 1993 Milhorat TH, Nobandegani F, Miller JI, et al: Noncommunicating syringomyelia following occlusion of central canal in rats. Experimental model and histological findings. J Neurosurg 78:274–279, 1993
  )| false
• Search Google Scholar
• Export Citation
• 1. Oldfield EH, , Muraszko K, & Shawker TH, et al: Pathophysiology of syringomyelia associated with Chiari I malformation of the cerebellar tonsils. Implications for diagnosis and treatment. J Neurosurg 80:3–15, 1994 Oldfield EH, Muraszko K, Shawker TH, et al: Pathophysiology of syringomyelia associated with Chiari I malformation of the cerebellar tonsils. Implications for diagnosis and treatment. **J Neurosurg 80:**3–15, 1994
• PubMed
  Oldfield EH, Muraszko K, Shawker TH, et al: Pathophysiology of syringomyelia associated with Chiari I malformation of the cerebellar tonsils. Implications for diagnosis and treatment. J Neurosurg 80: 3– 15, 1994 Oldfield EH, Muraszko K, Shawker TH, et al: Pathophysiology of syringomyelia associated with Chiari I malformation of the cerebellar tonsils. Implications for diagnosis and treatment. J Neurosurg 80:3–15, 1994
  )| false
• Search Google Scholar
• Export Citation
• 1. Rennels ML, , Blaumanis OR, & Grady PA: Rapid solute transport throughout the brain via paravascular fluid pathways. Adv Neurol 52:431–439, 1990 Rennels ML, Blaumanis OR, Grady PA: Rapid solute transport throughout the brain via paravascular fluid pathways. **Adv Neurol 52:**431–439, 1990
• PubMed
  Rennels ML, Blaumanis OR, Grady PA: Rapid solute transport throughout the brain via paravascular fluid pathways. Adv Neurol 52: 431– 439, 1990 Rennels ML, Blaumanis OR, Grady PA: Rapid solute transport throughout the brain via paravascular fluid pathways. Adv Neurol 52:431–439, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Rennels ML, , Gregory TF, & Blaumanis OR, et al: Evidence for a ‘paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space. Brain Res 326:47–63, 1985 Rennels ML, Gregory TF, Blaumanis OR, et al: Evidence for a ‘paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space. **Brain Res 326:**47–63, 1985
• PubMed
  Rennels ML, Gregory TF, Blaumanis OR, et al: Evidence for a ‘paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space. Brain Res 326: 47– 63, 1985 Rennels ML, Gregory TF, Blaumanis OR, et al: Evidence for a ‘paravascular’ fluid circulation in the mammalian central nervous system, provided by the rapid distribution of tracer protein throughout the brain from the subarachnoid space. Brain Res 326:47–63, 1985
  )| false
• Search Google Scholar
• Export Citation
• 1. Rosenberg GA: Brain Fluids and Metabolism. New York: Oxford University, 1990 Rosenberg GA: Brain Fluids and Metabolism. New York: Oxford University, 1990
• PubMed
  Rosenberg GA: Brain Fluids and Metabolism. New York: Oxford University, 1990 Rosenberg GA: Brain Fluids and Metabolism. New York: Oxford University, 1990
  )| false
• Search Google Scholar
• Export Citation
• 1. Sherk HH, , Charney E, & Pasquariello PD, et al: Hydrocephalus, cervical cord lesions, and spinal deformity. Spine 11:340–342, 1986 Sherk HH, Charney E, Pasquariello PD, et al: Hydrocephalus, cervical cord lesions, and spinal deformity. **Spine 11:**340–342, 1986
• PubMed
  Sherk HH, Charney E, Pasquariello PD, et al: Hydrocephalus, cervical cord lesions, and spinal deformity. Spine 11: 340– 342, 1986 Sherk HH, Charney E, Pasquariello PD, et al: Hydrocephalus, cervical cord lesions, and spinal deformity. Spine 11:340–342, 1986
  )| false
• Search Google Scholar
• Export Citation
• 1. Stoodley MA, & Jones NR: Syringomyelia, in Clark C (ed): The Cervical Spine. Philadelphia: JB Lippincott Stoodley MA, Jones NR: Syringomyelia, in Clark C (ed): The Cervical Spine. Philadelphia: JB Lippincott (In press)
• PubMed
  Stoodley MA, Jones NR: Syringomyelia, in Clark C (ed): The Cervical Spine. Philadelphia: JB Lippincott (In press) Stoodley MA, Jones NR: Syringomyelia, in Clark C (ed): The Cervical Spine. Philadelphia: JB Lippincott (In press)
  )| false
• Search Google Scholar
• Export Citation
• 1. Stoodley MA, , Jones NR, & Brown C: Evidence for rapid flow from the subarachnoid space into the spinal cord central canal in the rat. Brain Res 707:155–164, 1996 Stoodley MA, Jones NR, Brown C: Evidence for rapid flow from the subarachnoid space into the spinal cord central canal in the rat. **Brain Res 707:**155–164, 1996
• PubMed
  Stoodley MA, Jones NR, Brown C: Evidence for rapid flow from the subarachnoid space into the spinal cord central canal in the rat. Brain Res 707: 155– 164, 1996 Stoodley MA, Jones NR, Brown C: Evidence for rapid flow from the subarachnoid space into the spinal cord central canal in the rat. Brain Res 707:155–164, 1996
  )| false
• Search Google Scholar
• Export Citation
• 1. Taylor AR: Another theory of the aetiology of the syringomyelic cavity. J Neurol Neurosurg Psychiatry 38:825, 1975 Taylor AR: Another theory of the aetiology of the syringomyelic cavity. **J Neurol Neurosurg Psychiatry 38:**825, 1975 (Abstract)
• PubMed
  Taylor AR: Another theory of the aetiology of the syringomyelic cavity. J Neurol Neurosurg Psychiatry 38: 825, 1975 (Abstract) Taylor AR: Another theory of the aetiology of the syringomyelic cavity. J Neurol Neurosurg Psychiatry 38:825, 1975 (Abstract)
  )| false
• Search Google Scholar
• Export Citation
• 1. Wagner HJ, , Barthel J, & Pilgrim C: Permeability of the external glial limiting membrane of rat parietal cortex. Anat Embryol 166:427–437, 1983 Wagner HJ, Barthel J, Pilgrim C: Permeability of the external glial limiting membrane of rat parietal cortex. **Anat Embryol 166:**427–437, 1983
• PubMed
  Wagner HJ, Barthel J, Pilgrim C: Permeability of the external glial limiting membrane of rat parietal cortex. Anat Embryol 166: 427– 437, 1983 Wagner HJ, Barthel J, Pilgrim C: Permeability of the external glial limiting membrane of rat parietal cortex. Anat Embryol 166:427–437, 1983
  )| false
• Search Google Scholar
• Export Citation
• 1. Wagner HJ, , Pilgrim C, & Brandl J: Penetration and removal of horseradish peroxidase injected into the cerebrospinal fluid: role of cerebral perivascular spaces, endothelium and microglia. Acta Neuropathol 27:299–315, 1974 Wagner HJ, Pilgrim C, Brandl J: Penetration and removal of horseradish peroxidase injected into the cerebrospinal fluid: role of cerebral perivascular spaces, endothelium and microglia. **Acta Neuropathol 27:**299–315, 1974
• PubMed
  Wagner HJ, Pilgrim C, Brandl J: Penetration and removal of horseradish peroxidase injected into the cerebrospinal fluid: role of cerebral perivascular spaces, endothelium and microglia. Acta Neuropathol 27: 299– 315, 1974 Wagner HJ, Pilgrim C, Brandl J: Penetration and removal of horseradish peroxidase injected into the cerebrospinal fluid: role of cerebral perivascular spaces, endothelium and microglia. Acta Neuropathol 27:299–315, 1974
  )| false
• Search Google Scholar
• Export Citation
• 1. Williams B: On the pathogenesis of syringomyelia: a review. J R Soc Med 73:798–806, 1980 Williams B: On the pathogenesis of syringomyelia: a review. **J R Soc Med 73:**798–806, 1980
• PubMed
  Williams B: On the pathogenesis of syringomyelia: a review. J R Soc Med 73: 798– 806, 1980 Williams B: On the pathogenesis of syringomyelia: a review. J R Soc Med 73:798–806, 1980
  )| false
• Search Google Scholar
• Export Citation
• 1. Williams B: Pathogenesis of syringomyelia. Acta Neurochir 123:159–165, 1993 Williams B: Pathogenesis of syringomyelia. **Acta Neurochir 123:**159–165, 1993
• PubMed
  Williams B: Pathogenesis of syringomyelia. Acta Neurochir 123: 159– 165, 1993 Williams B: Pathogenesis of syringomyelia. Acta Neurochir 123:159–165, 1993
  )| false
• Search Google Scholar
• Export Citation