Page 84 - Read Online
P. 84
aneurysms: role of inflammation. J Cereb Blood Flow Metab walls of human cerebral aneurysms: preliminary results. J Am Heart
2012;32:1659‑76. Assoc 2013;2:e000019.
104. Krischek B, Kasuya H, Tajima A, Akagawa H, Sasaki T, Yoneyama T, 112. Hasan DM, Chalouhi N, Jabbour P, Magnotta VA, Kung DK,
Ujiie H, Kubo O, Bonin M, Takakura K, Hori T, Inoue I. Network‑based Young WL. Imaging aspirin effect on macrophages in the wall
gene expression analysis of intracranial aneurysm tissue reveals role of human cerebral aneurysms using ferumoxytol‑enhanced MRI:
of antigen presenting cells. Neuroscience 2008;154:1398‑407. preliminary results. J Neuroradiol 2013;40:187‑91.
105. Ishibashi R, Aoki T, Nishimura M, Hashimoto N, Miyamoto S. 113. Hasan DM, Mahaney KB, Brown RD Jr, Meissner I, Piepgras DG,
Contribution of mast cells to cerebral aneurysm formation. Curr Huston J, Capuano AW, Torner JC; International Study of
Neurovasc Res 2010;7:113‑24. Unruptured Intracranial Aneurysms Investigators. Aspirin as a
106. Hasan D, Chalouhi N, Jabbour P, Hashimoto T. Macrophage promising agent for decreasing incidence of cerebral aneurysm
imbalance (M1 vs. M2) and upregulation of mast cells in wall rupture. Stroke 2011;42:3156‑62.
of ruptured human cerebral aneurysms: preliminary results. 114. Hasan D, Chalouhi N, Jabbour P, Dumont AS, Kung DK,
J Neuroinflammation 2012;9:222. Magnotta VA, Young WL, Hashimoto T, Winn HR, Heistad D. Early
107. Hashimoto T, Meng H, Young WL. Intracranial aneurysms: links change in ferumoxytol‑enhanced magnetic resonance imaging signal
among inflammation, hemodynamics and vascular remodeling. suggests unstable human cerebral aneurysm: a pilot study. Stroke
Neurol Res 2006;28:372‑80. 2012;43:3258‑65.
108. Kanematsu Y, Kanematsu M, Kurihara C, Tada Y, Tsou TL, van 115. Nakaoka H, Tajima A, Yoneyama T, Hosomichi K, Kasuya H,
Rooijen N, Lawton MT, Young WL, Liang EI, Nuki Y, Hashimoto T. Mizutani T, Inoue I. Gene expression profiling reveals distinct
Critical roles of macrophages in the formation of intracranial molecular signatures associated with the rupture of intracranial
aneurysm. Stroke 2011;42:173‑8. aneurysm. Stroke 2014;45:2239‑45.
109. Ruzevick J, Jackson C, Pradilla G, Garzon‑Muvdi T, Tamargo RJ.
Aneurysm formation in proinflammatory, transgenic haptoglobin
2‑2 mice. Neurosurgery 2013;72:70‑6.
110. Chyatte D, Bruno G, Desai S, Todor DR. Inflammation and Cite this article as: Amenta PS, Valle E, Dumont AS, Medel R. Inflammation
and intracranial aneurysms: mechanisms of initiation, growth, and rupture.
intracranial aneurysms. Neurosurgery 1999;45:1137‑46. Neuroimmunol Neuroinflammation 2015;2(2):68-76.
111. Hasan DM, Chalouhi N, Jabbour P, Dumont AS, Kung DK, Source of Support: Nil. Conflict of Interest: No.
Magnotta VA, Young WL, Hashimoto T, Richard Winn H, Heistad D.
Evidence that acetylsalicylic acid attenuates inflammation in the Received: 01-09-2014; Accepted: 11-11-2014
76 Neuroimmunol Neuroinflammation | Volume 2 | Issue 2 | April 15, 2015