Long-term Trial of Corticosteroid Therapy for the Recurrence of Cerebral Amyloid Angiopathy-related Hemorrhages : A Case Study Using [11C] BF-227 Amyloid-PET
Aim : To clarify a long-term preventive effect of corticosteroid therapy for the recurrence of cerebral amyloid angiopathy (CAA)-related hemorrhages. Subjects and methods : Cases consisted of one male and two females, being consistent with the diagnosis of G3 to G4 in Boston validation criteria of C...
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| Published in | THE SHINSHU MEDICAL JOURNAL Vol. 62; no. 3; pp. 155 - 165 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
The Shinshu Medical Society
10.06.2014
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0037-3826 1884-6580 |
| DOI | 10.11441/shinshumedj.62.155 |
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| Abstract | Aim : To clarify a long-term preventive effect of corticosteroid therapy for the recurrence of cerebral amyloid angiopathy (CAA)-related hemorrhages. Subjects and methods : Cases consisted of one male and two females, being consistent with the diagnosis of G3 to G4 in Boston validation criteria of CAA. To detect cerebral Aβ amyloidosis, they underwent positron emission tomography combined with a novel amyloid specific tracer, BF-227, all showing positive brain shadow. A 66-year-old man (case 1) with a diagnosis of G3 was given an initial dose of prednisolone at 50mg/day. The dose was gradually reduced and was tapered off 6 months later, but after the next 6 months cerebral hemorrhage recurred. He again received similar corticosteroid therapy. A 69-year-old woman (case 2) with a diagnosis of G3 was given dexamethasone 16mg/day after suffering recurrent cerebral hemorrhages. A week later dexamethasone was switched to prednisolone 30mg/day and the dose of this corticosteroid was gradually reduced, until being kept at 8mg/day. Another 75-year-old woman (case 3) with a diagnosis of G4 was given an initial dose of prednisolone at 30mg/day and the dose of this corticosteroid was gradually reduced and has been kept at 8mg/day. During the observation periods they were evaluated by clinical manifestations and T2* MR images : the total area of microbleeds was assessed by computer-assisted morphometry. After treatment two cases received a second PET scan and the regional standard uptake value ratio (SUVR) of BF-227 at the occipital lobe was compared with the previous one. Results : Case 1 suffered a small hemorrhage in the left frontal lobe at 20 months after receiving the corticosteroid therapy and steroid pulse therapy was added. During the remaining 33 months he has been free of cerebral hemorrhages. SUVR in his PET scan showed 2.0 to 2.2 in a 14- month follow-up period and the total area of microbleeds extended from 410.2 to 445.5mm2 during the 48-month observation period. Case 2 showed two simultaneous small hemorrhages at 29 months after starting the corticosteroid therapy and herdose of prednisolone was temporally increased. During the remaining 17 months she has not had any strokes and SUVR in her PET showed 1.5 to 1.4 in an 18-month follow-up period. The total area of microbleeds extended from 512.5 to 560.8mm2 during the 27-month observation period. Case 3 has been free of cerebral hemorrhages for 22 months after this corticosteroid therapy and the total area of microbleeds ranged from 152.5 to 154.1mm2 during the 13-month observation period. Conclusions : Corticosteroid therapy seems to be clinically effective for the long-term prevention of recurrences of CAA-related hemorrhages but current brain image data are inadequate to lead to this conclusion. This is the first report showing that domestically developed BF227 PET scan is useful in visualizing CAA lesions. |
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| AbstractList | Aim : To clarify a long-term preventive effect of corticosteroid therapy for the recurrence of cerebral amyloid angiopathy (CAA)-related hemorrhages. Subjects and methods : Cases consisted of one male and two females, being consistent with the diagnosis of G3 to G4 in Boston validation criteria of CAA. To detect cerebral Aβ amyloidosis, they underwent positron emission tomography combined with a novel amyloid specific tracer, BF-227, all showing positive brain shadow. A 66-year-old man (case 1) with a diagnosis of G3 was given an initial dose of prednisolone at 50mg/day. The dose was gradually reduced and was tapered off 6 months later, but after the next 6 months cerebral hemorrhage recurred. He again received similar corticosteroid therapy. A 69-year-old woman (case 2) with a diagnosis of G3 was given dexamethasone 16mg/day after suffering recurrent cerebral hemorrhages. A week later dexamethasone was switched to prednisolone 30mg/day and the dose of this corticosteroid was gradually reduced, until being kept at 8mg/day. Another 75-year-old woman (case 3) with a diagnosis of G4 was given an initial dose of prednisolone at 30mg/day and the dose of this corticosteroid was gradually reduced and has been kept at 8mg/day. During the observation periods they were evaluated by clinical manifestations and T2* MR images : the total area of microbleeds was assessed by computer-assisted morphometry. After treatment two cases received a second PET scan and the regional standard uptake value ratio (SUVR) of BF-227 at the occipital lobe was compared with the previous one. Results : Case 1 suffered a small hemorrhage in the left frontal lobe at 20 months after receiving the corticosteroid therapy and steroid pulse therapy was added. During the remaining 33 months he has been free of cerebral hemorrhages. SUVR in his PET scan showed 2.0 to 2.2 in a 14- month follow-up period and the total area of microbleeds extended from 410.2 to 445.5mm2 during the 48-month observation period. Case 2 showed two simultaneous small hemorrhages at 29 months after starting the corticosteroid therapy and herdose of prednisolone was temporally increased. During the remaining 17 months she has not had any strokes and SUVR in her PET showed 1.5 to 1.4 in an 18-month follow-up period. The total area of microbleeds extended from 512.5 to 560.8mm2 during the 27-month observation period. Case 3 has been free of cerebral hemorrhages for 22 months after this corticosteroid therapy and the total area of microbleeds ranged from 152.5 to 154.1mm2 during the 13-month observation period. Conclusions : Corticosteroid therapy seems to be clinically effective for the long-term prevention of recurrences of CAA-related hemorrhages but current brain image data are inadequate to lead to this conclusion. This is the first report showing that domestically developed BF227 PET scan is useful in visualizing CAA lesions. [Aim]: To clarify a long-term preventive effect of corticosteroid therapy for the recurrence of cerebral amyloid angiopathy (CAA)-related hemorrhages. [Subjects and methods]: Cases consisted of one male and two females, being consistent with the diagnosis of G3 to G4 in Boston validation criteria of CAA. To detect cerebral Aβ amyloidosis, they underwent positron emission tomography combined with a novel amyloid specific tracer, BF-227, all showing positive brain shadow. A 66-year-old man (case 1) with a diagnosis of G3 was given an initial dose of prednisolone at 50 mg/day. The dose was gradually reduced and was tapered off 6 months later, but after the next 6 months cerebral hemorrhage recurred. He again received similar corticosteroid therapy. A 69-year-old woman (case 2) with a diagnosis of G3 was given dexamethasone 16 mg/day after suffering recurrent cerebral hemorrhages. A week later dexamethasone was switched to prednisolone 30 mg/day and the dose of this corticosteroid was graduallyreduced, until being kept at 8 mg/day. Another 75-year-old woman (case 3) with a diagnosis of G4 was given an initial dose of prednisolone at 30 mg/day and the dose of this corticosteroid was gradually reduced and has been kept at 8 mg/day. During the observation periods they were evaluated by clinical manifestations and T2* MR images: the total area of microbleeds was assessed by computer-assisted morphometry. After treatment two cases received a second PET scan and the regional standard uptake value ratio (SUVR) of BF-227 at the occipital lobe was compared with the previous one. [Results]: Case 1 suffered a small hemorrhage in the left frontal lobe at 20 months after receiving the corticosteroid therapy and steroid pulse therapy was added. During the remaining 33 months he has been free of cerebral hemorrhages. SUVR in his PET scan showed 2.0 to 2.2 in a 14- month follow-up period and the total area of microbleeds extended from 410.2 to 445.5 mm2 during the 48-month observation period. Case 2 showed two simultaneous small hemorrhages at 29 months after starting the corticosteroid therapy and her dose of prednisolone was temporally increased. During the remaining 17 months she has not had any strokes and SUVR in her PET showed 1.5 to 1.4 in an 18-month follow-up period. The total area of microbleeds extended from 512.5 to 560.8 mm2 during the 27-month observation period. Case 3 has been free of cerebral hemorrhages for 22 months after this corticosteroid therapy and the total area of microbleeds ranged from 152.5 to 154.1 mm2 during the 13-month observation period. [Conclusions]: Corticosteroid therapy seems to be clinically effective for the long-term prevention of recurrences of CAA-related hemorrhages but current brain image data are inadequate to lead to this conclusion. This is the first report showing that domestically developed BF227 PET scan is useful in visualizing CAA lesions. |
| Author | YASUDE, Takuji MACHIDA, Kazuko IKEDA, Shu-ichi |
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| References | 30) Hawkes CA, McLaurin J : Selective targeting of perivascular macrophages for clearance of β-amyloid in cerebral amyloid angiopathy. Proc Natl Acad Sci USA 106 : 1261-1266, 2009 8) Previti ML, Zhang W, Van Nostrand WE : Dexamethasone diminishes the pro-inflammatory and cytotoxic effects of amyloid β-protein in cerebrovascular smooth muscle cells. J Neuroinflammation 3 : 18-26, 2006 11) Kudo Y, Okamura N, Furumoto S, Tashiro M, Furukawa K, Maruyama M, Itoh M, Iwata R, Yanai K, Arai H : 2-(2-[2-Dimethylaminothiazol-5-yl]ethenyl)-6-(2-[fluoro]ethoxy) benzoxazole : a novel PET agent for in vivo detection of dense amyloid plaques in Alzheimer's disease patients. J Nucl Med 8 : 553-561, 2007 9) Machida K, Tsuchiya-Suzuki A, Sano K, Arima K, Saito Y, Kametani F, Ikeda S : Postmortem findings in a patient with cerebral amyloid angiopathy actively treated with corticosteroid. Amyloid 19 : 47-52, 2012 29) Tsuchiya-Suzuki A, Yazaki M, Sekijima Y, Kametani F, Ikeda S : Steady turnover of amyloid fibril proteins in gastric mucosa after liver transplantation in familial amyloid polyneuropathy. Amyloid 20 : 156-163, 2013 18) Hendricks HT, Franke CL, Theunissen PH : Cerebral amyloid angiopathy : diagnosis by MRI and brain biopsy. Neurology 40 : 1308-1310, 1990 6) Hoshi K, Yoshida K, Nakamura A, Tada T, Tamaoka A, Ikeda S : Cessation of cerebral hemorrhage recurrence associated with corticosteroid treatment in a patient with cerebral amyloid angiopathy. Amyloid 7 : 284-288, 2000 19) Rosand J, Muzikansky A, Kumar A, Wisco J, Smith EE, Betensky RA, Greenberg SM : Spatial clustering of hemorrhages in probable cerebral amyloid angiopathy. Ann Neurol 58 : 459-462, 2005 5) Campbell DM, Bruins S, Vogel H, Sher LM, Wijman CAC : Intracerebral hemorrhage caused by cerebral amyloid angiopathy in a 53-year-old man. J Neurol 255 : 597-598, 2008 17) Revesz T, Ghiso J, Lashley T, Plant G, Rostagno A, Frangione B, Holton JL : Cerebral amyloid angiopathy : a pathologic, biochemical, and genetic view. J Neuropathol Exp Neurol 62 : 885-898, 2003 20) Lee S-H, Kim S-M, Kim N, Yoon B-W, Roh J-K : Cortico-subcortical distribution of microbleeds is different between hypertension and cerebral amyloid angiopathy. J Neurol Sci 258 : 111-114, 2007 4) O'Donnell HC, Rosand J, Knudsen KA, Furie KL, Segal AZ, Chiu RI, Ikeda D, Greenberg SM : Apolipoprotein E genotype and the risk of recurrent lobar intracerebral hemorrhage. N Engl J Med 342 : 240-245, 2000 14) Knudsen KA, Rosand J, Karluk D, Greenberg SM : Clinical diagnosis of cerebral amyloid angiopathy : validation of the Boston criteria. Neurology 56 : 537-539, 2001 1) Biffi A, Greenberg SM : Cerebral amyloid angiopathy : a systematic review. J Clin Neurol 7 : 1-9, 2011 25) Scolding NJ, Joseph F, Kirby PA, Mazanti I, Gray F, Mikol J, Ellison D, Hilton DA, Williams TL, Mackenzie JM, Xuereb JH, Love S : Aβ-related angiitis : primary angiitis of the central nervous system associated with cerebral amyloid angiopathy. Brain 128 : 500-515, 2005 7) Machida K, Tojo K, Naito K, Gono T, Nakata Y, Ikeda S : Cortical petechial hemorrhage, subarachnoid hemorrhage and corticosteroid-responsive leukoencephalopathy in a patient with cerebral amyloid angiopathy. Amyloid 15 : 60-64, 2008 23) Johnson KA, Gregas M, Becker JA, Kinnecom C, Salat DH, Moran EK, Smith EE, Rosand J, Rents DM, Klunk WE, Mathis CA, Price JC, DeKosky ST, Fischman AJ, Greenberg MG : Imaging of amyloid burden and distribution in cerebral amyloid angiopathy. Ann Neurol 62 : 229-234, 2007 13) Furukawa K, Ikeda S, Okamura N, Tashiro M, Tomita N, Furumoto S, Iwata R, Yanai K, Kudo Y, Arai H : Cardiac positron-emission tomography images with an amyloid-specific tracer in familial transthyretin-related systemic amyloidosis. Circulation 125 : 556-557, 2012 22) Bacskai BJ, Frosch MP, Freeman SH, Raymond SB, Augustinack JC, Johnson KA, Irizarry MC, Klunk WE, Mathis CA, DeKosky ST, Greenberg SM, Hyman BT, Growdon JH : Molecular imaging with Pittsburgh Compound B confirmed at autopsy. Arch Neurol 64 : 431-434, 2007 28) Boche D, Zotova E, Weller RO, Love S, Neal JW, Pickering RM, Wilkinson D, Holmes C, Nicoll JAR : Conse quence of Aβ immunization on the vasculature of human Alzheimer's disease brain. Brain 131 : 3299-3310, 2008 21) Klunk WE, Engler H, Nordberg A, Wang Y, Blomqvist G, Holt DP, Bergström M, Savitcheva I, Huang G-F, Estrada S, Ausén B, Debnath ML, Barletta J, Price JC, Sandell J, Lopresti BJ, Wall A, Koivisto P, Antoni G, Mathis CA, Längström B : Imaging brain amyloid in Alzheimer's disease with Pittsburgh Compound-B. Ann Neurol 55 : 306-319, 2004 3) Hirohata M, Yoshita M, Ishida C, Ikeda SI, Tamaoka A, Kuzuhara S, Shoji M, Ando Y, Tokuda T, Yamada M : Clinical features of non-hypertensive lobar intracerebral hemorrhage related to cerebral amyloid angiopathy. Eur J Neurol 17 : 823-829, 2010 15) Walker DA, Broderick DF, Kotsenas AL, Rubino FA : Routine use of gradient-echo MRI to screen for cerebral amyloid angiopathy in elderly patients. Am J Radiol 182 : 1547-1550, 2004 26) Harkness KAC, Coles A, Pohl U, Xuereb JH, Baron JC, Lennox GG : Rapidly reversible dementia in cerebral amyloid inflammatory vasculopathy. Eur J Neurol 11 : 59-62, 2004 12) Furukawa K, Okamura N, Tashiro M, Waragai M, Furumoto S, Iwata R, Yanai K, Kudo Y, Arai H : Amyloid PET in mild cognitive impairment and Alzheimer's disease with BF-227 : comparison to FDG-PET. J Neurol 257 : 721-727, 2010 16) Chao CP, Kotsenas AL, Broderick DF : Cerebral amyloid angiopathy : CT and MR imaging findings. RadioGraphics 26 : 1517-1531, 2006 10) Kametani F, Ikeda S : Proteomic analysis of leptomeningeal amyloid fibril extracts of cerebral amyloid angiopathy (CAA) patients with or without corticosteroid therapy. Amyloid 20 : 277-278, 2013 24) Eng JA, Frosch MP, Choi K, Rebeck GW, Greenberg SM : Clinical manifestations of cerebral amyloid angiopathy-related inflammation. Ann Neurol 55 : 250-256, 2004 2) Attems J : Sporadic cerebral amyloid angiopathy : pathology, clinical implications, and possible pathomechanisms. Acta Neuropathol 110 : 345-359, 2005 27) Nicoll JA, Wilkinson D, Holmes C, Steart P, Markham H, Weller RO : Neuropathology of human Alzheimer disease after immunization with amyloid-βpeptide : a case report. Nat Med 9 : 448-452, 2003 |
| References_xml | – reference: 6) Hoshi K, Yoshida K, Nakamura A, Tada T, Tamaoka A, Ikeda S : Cessation of cerebral hemorrhage recurrence associated with corticosteroid treatment in a patient with cerebral amyloid angiopathy. Amyloid 7 : 284-288, 2000 – reference: 8) Previti ML, Zhang W, Van Nostrand WE : Dexamethasone diminishes the pro-inflammatory and cytotoxic effects of amyloid β-protein in cerebrovascular smooth muscle cells. J Neuroinflammation 3 : 18-26, 2006 – reference: 21) Klunk WE, Engler H, Nordberg A, Wang Y, Blomqvist G, Holt DP, Bergström M, Savitcheva I, Huang G-F, Estrada S, Ausén B, Debnath ML, Barletta J, Price JC, Sandell J, Lopresti BJ, Wall A, Koivisto P, Antoni G, Mathis CA, Längström B : Imaging brain amyloid in Alzheimer's disease with Pittsburgh Compound-B. Ann Neurol 55 : 306-319, 2004 – reference: 18) Hendricks HT, Franke CL, Theunissen PH : Cerebral amyloid angiopathy : diagnosis by MRI and brain biopsy. Neurology 40 : 1308-1310, 1990 – reference: 2) Attems J : Sporadic cerebral amyloid angiopathy : pathology, clinical implications, and possible pathomechanisms. Acta Neuropathol 110 : 345-359, 2005 – reference: 19) Rosand J, Muzikansky A, Kumar A, Wisco J, Smith EE, Betensky RA, Greenberg SM : Spatial clustering of hemorrhages in probable cerebral amyloid angiopathy. Ann Neurol 58 : 459-462, 2005 – reference: 10) Kametani F, Ikeda S : Proteomic analysis of leptomeningeal amyloid fibril extracts of cerebral amyloid angiopathy (CAA) patients with or without corticosteroid therapy. Amyloid 20 : 277-278, 2013 – reference: 29) Tsuchiya-Suzuki A, Yazaki M, Sekijima Y, Kametani F, Ikeda S : Steady turnover of amyloid fibril proteins in gastric mucosa after liver transplantation in familial amyloid polyneuropathy. Amyloid 20 : 156-163, 2013 – reference: 1) Biffi A, Greenberg SM : Cerebral amyloid angiopathy : a systematic review. J Clin Neurol 7 : 1-9, 2011 – reference: 15) Walker DA, Broderick DF, Kotsenas AL, Rubino FA : Routine use of gradient-echo MRI to screen for cerebral amyloid angiopathy in elderly patients. Am J Radiol 182 : 1547-1550, 2004 – reference: 11) Kudo Y, Okamura N, Furumoto S, Tashiro M, Furukawa K, Maruyama M, Itoh M, Iwata R, Yanai K, Arai H : 2-(2-[2-Dimethylaminothiazol-5-yl]ethenyl)-6-(2-[fluoro]ethoxy) benzoxazole : a novel PET agent for in vivo detection of dense amyloid plaques in Alzheimer's disease patients. J Nucl Med 8 : 553-561, 2007 – reference: 22) Bacskai BJ, Frosch MP, Freeman SH, Raymond SB, Augustinack JC, Johnson KA, Irizarry MC, Klunk WE, Mathis CA, DeKosky ST, Greenberg SM, Hyman BT, Growdon JH : Molecular imaging with Pittsburgh Compound B confirmed at autopsy. Arch Neurol 64 : 431-434, 2007 – reference: 28) Boche D, Zotova E, Weller RO, Love S, Neal JW, Pickering RM, Wilkinson D, Holmes C, Nicoll JAR : Conse quence of Aβ immunization on the vasculature of human Alzheimer's disease brain. Brain 131 : 3299-3310, 2008 – reference: 30) Hawkes CA, McLaurin J : Selective targeting of perivascular macrophages for clearance of β-amyloid in cerebral amyloid angiopathy. Proc Natl Acad Sci USA 106 : 1261-1266, 2009 – reference: 4) O'Donnell HC, Rosand J, Knudsen KA, Furie KL, Segal AZ, Chiu RI, Ikeda D, Greenberg SM : Apolipoprotein E genotype and the risk of recurrent lobar intracerebral hemorrhage. N Engl J Med 342 : 240-245, 2000 – reference: 17) Revesz T, Ghiso J, Lashley T, Plant G, Rostagno A, Frangione B, Holton JL : Cerebral amyloid angiopathy : a pathologic, biochemical, and genetic view. J Neuropathol Exp Neurol 62 : 885-898, 2003 – reference: 26) Harkness KAC, Coles A, Pohl U, Xuereb JH, Baron JC, Lennox GG : Rapidly reversible dementia in cerebral amyloid inflammatory vasculopathy. Eur J Neurol 11 : 59-62, 2004 – reference: 20) Lee S-H, Kim S-M, Kim N, Yoon B-W, Roh J-K : Cortico-subcortical distribution of microbleeds is different between hypertension and cerebral amyloid angiopathy. J Neurol Sci 258 : 111-114, 2007 – reference: 25) Scolding NJ, Joseph F, Kirby PA, Mazanti I, Gray F, Mikol J, Ellison D, Hilton DA, Williams TL, Mackenzie JM, Xuereb JH, Love S : Aβ-related angiitis : primary angiitis of the central nervous system associated with cerebral amyloid angiopathy. Brain 128 : 500-515, 2005 – reference: 9) Machida K, Tsuchiya-Suzuki A, Sano K, Arima K, Saito Y, Kametani F, Ikeda S : Postmortem findings in a patient with cerebral amyloid angiopathy actively treated with corticosteroid. Amyloid 19 : 47-52, 2012 – reference: 24) Eng JA, Frosch MP, Choi K, Rebeck GW, Greenberg SM : Clinical manifestations of cerebral amyloid angiopathy-related inflammation. Ann Neurol 55 : 250-256, 2004 – reference: 5) Campbell DM, Bruins S, Vogel H, Sher LM, Wijman CAC : Intracerebral hemorrhage caused by cerebral amyloid angiopathy in a 53-year-old man. J Neurol 255 : 597-598, 2008 – reference: 14) Knudsen KA, Rosand J, Karluk D, Greenberg SM : Clinical diagnosis of cerebral amyloid angiopathy : validation of the Boston criteria. Neurology 56 : 537-539, 2001 – reference: 23) Johnson KA, Gregas M, Becker JA, Kinnecom C, Salat DH, Moran EK, Smith EE, Rosand J, Rents DM, Klunk WE, Mathis CA, Price JC, DeKosky ST, Fischman AJ, Greenberg MG : Imaging of amyloid burden and distribution in cerebral amyloid angiopathy. Ann Neurol 62 : 229-234, 2007 – reference: 13) Furukawa K, Ikeda S, Okamura N, Tashiro M, Tomita N, Furumoto S, Iwata R, Yanai K, Kudo Y, Arai H : Cardiac positron-emission tomography images with an amyloid-specific tracer in familial transthyretin-related systemic amyloidosis. Circulation 125 : 556-557, 2012 – reference: 3) Hirohata M, Yoshita M, Ishida C, Ikeda SI, Tamaoka A, Kuzuhara S, Shoji M, Ando Y, Tokuda T, Yamada M : Clinical features of non-hypertensive lobar intracerebral hemorrhage related to cerebral amyloid angiopathy. Eur J Neurol 17 : 823-829, 2010 – reference: 16) Chao CP, Kotsenas AL, Broderick DF : Cerebral amyloid angiopathy : CT and MR imaging findings. RadioGraphics 26 : 1517-1531, 2006 – reference: 27) Nicoll JA, Wilkinson D, Holmes C, Steart P, Markham H, Weller RO : Neuropathology of human Alzheimer disease after immunization with amyloid-βpeptide : a case report. Nat Med 9 : 448-452, 2003 – reference: 7) Machida K, Tojo K, Naito K, Gono T, Nakata Y, Ikeda S : Cortical petechial hemorrhage, subarachnoid hemorrhage and corticosteroid-responsive leukoencephalopathy in a patient with cerebral amyloid angiopathy. Amyloid 15 : 60-64, 2008 – reference: 12) Furukawa K, Okamura N, Tashiro M, Waragai M, Furumoto S, Iwata R, Yanai K, Kudo Y, Arai H : Amyloid PET in mild cognitive impairment and Alzheimer's disease with BF-227 : comparison to FDG-PET. J Neurol 257 : 721-727, 2010 |
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| Title | Long-term Trial of Corticosteroid Therapy for the Recurrence of Cerebral Amyloid Angiopathy-related Hemorrhages : A Case Study Using [11C] BF-227 Amyloid-PET |
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