Subcortical Low Intensity on MR Images of Meningitis, Viral Encephalitis, and Leptomeningeal Metastasis

Jae Hee Lee; Dong Gyu Na; Kyu H. Choi; Ki Jun Kim; Jae Wook Ryoo; Sung Yong Lee; Yeon-Lim Suh

References

↵
Jacoby CG, Yuh WT, Afifi AK, Bell WE, Schelper RL, Sato Y. Accelerated myelination in early Sturge-Weber syndrome demonstrated by MR imaging. J Comput Assist Tomogr 1987;11:226–231
PubMed Web of Science
↵
Cross PA, Atlas SW, Grossman RI. MR evaluation of brain iron in children with cerebral infarction. AJNR Am J Neuroradiol 1990;11:341–348
Abstract/FREE Full Text
↵
Ida M, Mizunuma K, Hata Y, Tada S. Subcortical low intensity in early cortical ischemia. AJNR Am J Neuroradiol 1994;15:1387–1393
Abstract/FREE Full Text
↵
Takanashi J, Sugita K, Tanabe Y, Ito C, Date H, Niimi H. T2 shortening in childhood moyamoya disease. Neuroradiology 1996;38:S169–S173
↵
Chabbert V, Ranjeva JP, Sevely A, Boetto S, Berry I, Manelfe C. Diffusion- and magnetization transfer-weighted MRI in childhood moya-moya. Neuroradiology 1998;40:267–271
CrossRef PubMed
↵
Dietrich RP, Bradley WG Jr. Iron accumulation in the basal ganglia following severe ischemic-anoxic insults in children. Radiology 1988;168:203–206
PubMed Web of Science
↵
Russo C, Smoker WR, Kubal W. Cortical and subcortical T2 shortening in multiple sclerosis. AJNR Am J Neuroradiol 1997;18:124–126
Abstract
↵
Hoehn-Berlage M, Norris D, Kohno K, Mies G, Leibfritz D, Hossmann K. Evolution of regional changes in apparent diffusion coefficient during focal ischemia of rat brain: the relationship of quantitative diffusion NMR imaging to reduction in cerebral blood flow and metabolic disturbances. J Cereb Blood Flow Metab 1995;15:1002–1011
CrossRef PubMed Web of Science
↵
Tsuchiya K, Katase S, Yoshino A, Hachiya J. Diffusion-weighted MR imaging of encephalitis. Am J Roentgenol 1999;173:1097–1099
PubMed Web of Science
↵
Palmer C, Menzies SL, Roberts RL, Pavlick G, Connor JR. Changes in iron histochemistry after hypoxic-ischemic brain injury in the neonate rat. J Neurosci Res 1999;56:60–71
CrossRef PubMed Web of Science
↵
Kontos CD, Wei EP, Williams JI, Kontos HA, Povlishock JT. Cytochemical detection of superoxide in cerebral inflammation and ischemia in vivo. Am J Physiol 1992;263:H1234–1242
Abstract/FREE Full Text
↵
Leib SL, Tauber MG. Pathogenesis of bacterial meningitis. Infect Dis Clin North Am 1999;13:527–548
CrossRef PubMed Web of Science
Koedel U, Pfister HW. Superoxide production by primary rat cerebral endothelial cells in response to pneumococci. J Neuroimmunol 1999;96:190–200
CrossRef PubMed Web of Science
↵
de Vries HE, Kuiper J, de Boer AG, Van Berkel TJ, Breimer DD. The blood-brain barrier in neuroinflammatory diseases. Pharmacol Rev 1997;49:143–155
Abstract/FREE Full Text
Leib SL, Kim YS, Chow LL, Sheldon RA, Tauber MG. Reactive oxygen intermediates contribute to necrotic and apoptotic neuronal injury in an infant rat model of bacterial meningitis due to group B streptococci. J Clin Invest 1996;98:2632–2639
CrossRef PubMed Web of Science
Koedel U, Bernatowicz A, Paul R, Frei K, Fontana A, Pfister HW. Experimental pneumococcal meningitis: cerebrovascular alterations, brain edema, and meningeal inflammation and linked to the production of nitric oxide. Ann Neurol 1995;37:313–323
CrossRef PubMed Web of Science
Korthuis RJ, Anderson DC, Granger DN. Role of neutrophil-endothelial cell adhesion in inflammatory disorders. J Crit Care 1994;9:47–71
CrossRef PubMed Web of Science
McKnight AA, Keyes WG, Hudak ML, Jones MD Jr. Oxygen free radicals and cerebral arteriolar response to group B streptococci. Pediatr Res 1992;31:640–644
PubMed Web of Science
↵
Griot C, Burge T, Vandevelde M, Peterhans E. Antibody-induced generation of reactive oxygen radicals by brain macrophages in canine distemper encephalitis: a mechanism for bystander demyelination. Acta Neuropathol 1989;78:396–403
CrossRef PubMed
↵
Imperatore C, Germano A, d’Avella D, Tomasello F, Costa G. Effects of the radical scavenger AVS on behavioral and BBB changes after experimental subarachnoid hemorrhage. Life Sci 2000;66:779–790
PubMed
Asano T, Takakura K, Sano K, et al. Effects of a hydroxyl radical scavenger on delayed ischemic neurological deficits following aneurysmal subarachnoid hemorrhage: result of a multicenter, placebo-controlled double-blind trial. J Neurosurg 1996;84:792–803
CrossRef PubMed Web of Science
Shishido T, Suzuki R, Qian L, Hirakawa K. The role of superoxide anions in the pathogenesis of cerebral vasospasm. Stroke 1994;25:864–868
Abstract/FREE Full Text
↵
Macdonald RL, Weir BK. Cerebral vasospasm and free radicals. Free Radic Biol Med 1994;16:633–643
CrossRef PubMed Web of Science
↵
Szatrowski TP, Nathan CF. Production of large amounts of hydrogen peroxide by human tumor cells. Cancer Res 1991;51:794–798
Abstract/FREE Full Text
↵
Offner FA, Schiefer J, Wirtz HC, et al. Tumor-cell-endothelial interactions: free radicals are mediators of melanoma-induced endothelial cell damage. Virchows Arch 1996;428:99–106
PubMed Web of Science
↵
Ikeda Y, Brelsford KL, Ikeda K, Long DM. Oxygen-free radicals in traumatic brain edema. Neurol Res 1989;11:213–216
PubMed
↵
Benjelloun N, Renolleau S, Represa A, Ben-Ari Y, Charriaut-Marlangue C. Inflammatory responses in the cerebral cortex after ischemia in the P7 neonatal rat. Stroke 1999;30:1916–1924
Abstract/FREE Full Text
Stoll G, Jander S, Schroeter M. Inflammation and glial responses in ischemic brain lesions. Prog Neurobiol 1998;58:149–171
↵
Dirnagl U, Kodel U, Pfister HW, Villringer A, Schleinkofer L, Einhaupl KM. Detection of brain free oxygen radical generated photons in vivo: preliminary results. Adv Exp Med Biol 1993;333:203–212
PubMed Web of Science
↵
Does MD, Zhong J, Gore JC. In vivo measurement of ADC change due to intravascular susceptibility variation. Magn Reson Med 1999;41:236–240
CrossRef PubMed Web of Science

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[1] ↵
Jacoby CG, Yuh WT, Afifi AK, Bell WE, Schelper RL, Sato Y. Accelerated myelination in early Sturge-Weber syndrome demonstrated by MR imaging. J Comput Assist Tomogr 1987;11:226–231
PubMed Web of Science

[2] ↵
Cross PA, Atlas SW, Grossman RI. MR evaluation of brain iron in children with cerebral infarction. AJNR Am J Neuroradiol 1990;11:341–348
Abstract/FREE Full Text

[3] ↵
Ida M, Mizunuma K, Hata Y, Tada S. Subcortical low intensity in early cortical ischemia. AJNR Am J Neuroradiol 1994;15:1387–1393
Abstract/FREE Full Text

[4] ↵
Takanashi J, Sugita K, Tanabe Y, Ito C, Date H, Niimi H. T2 shortening in childhood moyamoya disease. Neuroradiology 1996;38:S169–S173

[5] ↵
Chabbert V, Ranjeva JP, Sevely A, Boetto S, Berry I, Manelfe C. Diffusion- and magnetization transfer-weighted MRI in childhood moya-moya. Neuroradiology 1998;40:267–271
CrossRef PubMed

[6] ↵
Dietrich RP, Bradley WG Jr. Iron accumulation in the basal ganglia following severe ischemic-anoxic insults in children. Radiology 1988;168:203–206
PubMed Web of Science

[7] ↵
Russo C, Smoker WR, Kubal W. Cortical and subcortical T2 shortening in multiple sclerosis. AJNR Am J Neuroradiol 1997;18:124–126
Abstract

[8] ↵
Hoehn-Berlage M, Norris D, Kohno K, Mies G, Leibfritz D, Hossmann K. Evolution of regional changes in apparent diffusion coefficient during focal ischemia of rat brain: the relationship of quantitative diffusion NMR imaging to reduction in cerebral blood flow and metabolic disturbances. J Cereb Blood Flow Metab 1995;15:1002–1011
CrossRef PubMed Web of Science

[9] ↵
Tsuchiya K, Katase S, Yoshino A, Hachiya J. Diffusion-weighted MR imaging of encephalitis. Am J Roentgenol 1999;173:1097–1099
PubMed Web of Science

[10] ↵
Palmer C, Menzies SL, Roberts RL, Pavlick G, Connor JR. Changes in iron histochemistry after hypoxic-ischemic brain injury in the neonate rat. J Neurosci Res 1999;56:60–71
CrossRef PubMed Web of Science

[11] ↵
Kontos CD, Wei EP, Williams JI, Kontos HA, Povlishock JT. Cytochemical detection of superoxide in cerebral inflammation and ischemia in vivo. Am J Physiol 1992;263:H1234–1242
Abstract/FREE Full Text

[12] ↵
Leib SL, Tauber MG. Pathogenesis of bacterial meningitis. Infect Dis Clin North Am 1999;13:527–548
CrossRef PubMed Web of Science

[13] Koedel U, Pfister HW. Superoxide production by primary rat cerebral endothelial cells in response to pneumococci. J Neuroimmunol 1999;96:190–200
CrossRef PubMed Web of Science

[14] ↵
de Vries HE, Kuiper J, de Boer AG, Van Berkel TJ, Breimer DD. The blood-brain barrier in neuroinflammatory diseases. Pharmacol Rev 1997;49:143–155
Abstract/FREE Full Text

[15] Leib SL, Kim YS, Chow LL, Sheldon RA, Tauber MG. Reactive oxygen intermediates contribute to necrotic and apoptotic neuronal injury in an infant rat model of bacterial meningitis due to group B streptococci. J Clin Invest 1996;98:2632–2639
CrossRef PubMed Web of Science

[16] Koedel U, Bernatowicz A, Paul R, Frei K, Fontana A, Pfister HW. Experimental pneumococcal meningitis: cerebrovascular alterations, brain edema, and meningeal inflammation and linked to the production of nitric oxide. Ann Neurol 1995;37:313–323
CrossRef PubMed Web of Science

[17] Korthuis RJ, Anderson DC, Granger DN. Role of neutrophil-endothelial cell adhesion in inflammatory disorders. J Crit Care 1994;9:47–71
CrossRef PubMed Web of Science

[18] McKnight AA, Keyes WG, Hudak ML, Jones MD Jr. Oxygen free radicals and cerebral arteriolar response to group B streptococci. Pediatr Res 1992;31:640–644
PubMed Web of Science

[19] ↵
Griot C, Burge T, Vandevelde M, Peterhans E. Antibody-induced generation of reactive oxygen radicals by brain macrophages in canine distemper encephalitis: a mechanism for bystander demyelination. Acta Neuropathol 1989;78:396–403
CrossRef PubMed

[20] ↵
Imperatore C, Germano A, d’Avella D, Tomasello F, Costa G. Effects of the radical scavenger AVS on behavioral and BBB changes after experimental subarachnoid hemorrhage. Life Sci 2000;66:779–790
PubMed

[21] Asano T, Takakura K, Sano K, et al. Effects of a hydroxyl radical scavenger on delayed ischemic neurological deficits following aneurysmal subarachnoid hemorrhage: result of a multicenter, placebo-controlled double-blind trial. J Neurosurg 1996;84:792–803
CrossRef PubMed Web of Science

[22] Shishido T, Suzuki R, Qian L, Hirakawa K. The role of superoxide anions in the pathogenesis of cerebral vasospasm. Stroke 1994;25:864–868
Abstract/FREE Full Text

[23] ↵
Macdonald RL, Weir BK. Cerebral vasospasm and free radicals. Free Radic Biol Med 1994;16:633–643
CrossRef PubMed Web of Science

[24] ↵
Szatrowski TP, Nathan CF. Production of large amounts of hydrogen peroxide by human tumor cells. Cancer Res 1991;51:794–798
Abstract/FREE Full Text

[25] ↵
Offner FA, Schiefer J, Wirtz HC, et al. Tumor-cell-endothelial interactions: free radicals are mediators of melanoma-induced endothelial cell damage. Virchows Arch 1996;428:99–106
PubMed Web of Science

[26] ↵
Ikeda Y, Brelsford KL, Ikeda K, Long DM. Oxygen-free radicals in traumatic brain edema. Neurol Res 1989;11:213–216
PubMed

[27] ↵
Benjelloun N, Renolleau S, Represa A, Ben-Ari Y, Charriaut-Marlangue C. Inflammatory responses in the cerebral cortex after ischemia in the P7 neonatal rat. Stroke 1999;30:1916–1924
Abstract/FREE Full Text

[28] Stoll G, Jander S, Schroeter M. Inflammation and glial responses in ischemic brain lesions. Prog Neurobiol 1998;58:149–171

[29] ↵
Dirnagl U, Kodel U, Pfister HW, Villringer A, Schleinkofer L, Einhaupl KM. Detection of brain free oxygen radical generated photons in vivo: preliminary results. Adv Exp Med Biol 1993;333:203–212
PubMed Web of Science

[30] ↵
Does MD, Zhong J, Gore JC. In vivo measurement of ADC change due to intravascular susceptibility variation. Magn Reson Med 1999;41:236–240
CrossRef PubMed Web of Science

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