1.Updated Korean Clinical Practice Guidelines on Decompressive Surgery for Malignant Middle Cerebral Artery Territory Infarction.
Dae Hyun KIM ; Sang Bae KO ; Jae Kwan CHA ; Keun Sik HONG ; Kyung Ho YU ; Ji Hoe HEO ; Sun Uck KWON ; Hee Joon BAE ; Byung Chul LEE ; Byung Woo YOON ; Jeong Eun KIM ; Hyun Seung KANG ; Dae Hee SEO ; Sukh Que PARK ; Seung Hun SHEEN ; Hyun Sun PARK ; Sung Don KANG ; Jae Min KIM ; Chang Wan OH ; In Sung PARK ; Joung Ho RHA
Journal of Stroke 2015;17(3):369-376
No abstract available.
Infarction*
;
Middle Cerebral Artery*
2.Microsurgical Anatomy of the Middle Cerebral Artery.
Journal of Korean Neurosurgical Society 1998;27(12):1769-1773
The microsurgical anatomy of the middle cerebral artery(MCA) was reviewed. Embryology, segments, major branches, perforating branches, anomalies of the MCA and the anatomy of the Sylvian fissure were summarized.
Embryology
;
Middle Cerebral Artery*
3.Traumatic Dissection of Middle Cerebral Artery with Intimal Flap.
Journal of the Korean Neurological Association 2007;25(2):255-256
No abstract available.
Middle Cerebral Artery*
4.Aneurysm at the Origin of the Accessory Middle Cerebral Artery : A Case Report.
Journal of Korean Neurosurgical Society 2000;29(6):832-835
No abstract available.
Aneurysm*
;
Middle Cerebral Artery*
5.Aneurysm at the Origin of the Accessory Middle Cerebral Artery : A Case Report.
Journal of Korean Neurosurgical Society 2000;29(6):832-835
No abstract available.
Aneurysm*
;
Middle Cerebral Artery*
6.Tuberculous Granuloma Compressing the Middle Cerebral Artery in the Sylvian Cistern.
Sook Young ROH ; Young Ik JUNG ; Junghee SEO ; Eun Mee HAN ; Jeong Yeon KIM
Journal of the Korean Neurological Association 2017;35(3):185-186
No abstract available.
Granuloma*
;
Middle Cerebral Artery*
7.Fluid-attenuated inversion recovery vascular hyperintensity: Correlation with other radiologic findings in acute ischemic stroke with middle cerebral artery occlusion
Chan-Chan Li ; Le-Kang Yin ; Xiao-Xue Zhang ; Xiao-Zhu Hao ; Jia-Qi Tian ; Zhen-Wei Yao ; Xiao-Yuan Feng ; Yan-Mei Yang
Neurology Asia 2017;22(3):193-202
Objective: To assess fluid-attenuated inversion recovery (FLAIR) vascular hyper-intensity (FVH) and
explore its relationship with CT perfusion (CTP) penumbral/infarct core mismatch ratio and diffusion
weighted imaging (DWI) final infarct volume in acute ischemic stroke (AIS) patients with middle
cerebral artery occlusion (MCAO). Methods: The CTP and MRI images of 38 AIS patients with MCAO
were reviewed. The FVH score (longitudinal direction) [FVH score (L)] and FVH score (transverse
direction) [FVH score (T)] were quantified on the FLAIR images. The FVH score (L) (range, 0-16)
was based on a rostrocaudal extension of FVH and the FVH score (T) (range, 0-3) was based on FVH
supply of the occluded MCA territory. The mismatch ratio was calculated from the ratio of the [mean
transit time - cerebral blood volume (CBV)] lesion/CBV lesion on the CTP images. The DWI infarct
volume was measured on the DWI images. Results: The mismatch ratio was larger for the group of
FVH score (L)=7~8 than those of FVH score (L)=5~6 and FVH score (L)=3~4 (p=0.03), whereas
the DWI infarct volume was smaller (p=0.04). Similarly, the mismatch ratio of FVH score (T)=2~3
group was larger than FVH score (T)=1 group (p=0.01), whereas the DWI infarct volume was smaller
(p=0.02). Both FVH score (L) and FVH score (T) correlated positively with mismatch ratio (P=0.02,
P=0.001, respectively), but negatively with DWI infarct volume (P=0.03, P=0.004, respectively).
Conclusions: Higher FVH score is associated with larger mismatch ratio and smaller DWI infarct
volume in AIS patients with MCAO. FLAIR vascular hyperintensity may represent collateral arterial
circulation, and may play a role in protecting the ischemic penumbra.
Infarction, Middle Cerebral Artery
8.Moyamoya-like Disease.
Kwan PARK ; Young Baeg KIM ; Byung Kook MIN ; Sung Nam HWANG ; Jong Sik SUK ; Duck Young CHOI
Journal of Korean Neurosurgical Society 1992;21(2):214-220
No abstract available.
Atherosclerosis
;
Cerebral Angiography
;
Infarction, Middle Cerebral Artery
9.Peripheral Cerebral Arterial Aneurysm: Case Report and Review of the Literature.
Taek Hyun KWON ; Youn Kwan PARK ; Heung Seob CHUNG ; Hoon Kap LEE ; Jung Keun SUH
Journal of Korean Neurosurgical Society 1999;28(9):1344-1347
Aneurysms arising from the peripheral distribution of the cerebral arteries are very rare, and those aneurysms are mostly mycotic in origin. We have experienced a rare case of non-mycotic, peripheral aneurysm of the middle cerebral artery. A clinical description of our case as well as a review of the literature about possible etiologies contributing to the peripheral aneurysmal formation is presented.
Aneurysm*
;
Cerebral Arteries
;
Middle Cerebral Artery
10.Late Spontaneous Recanalization of Chronic Middle Cerebral Artery Occlusion.
Cheol Young LEE ; Chang Woo RYU ; Jun Seok KOH ; Gook Ki KIM
Neurointervention 2012;7(2):113-116
Early spontaneous recanalization of the middle cerebral artery in acute ischemic phase artery is not uncommon, whereas the late spontaneous recanalization of chronic occluded artery is a very rare phenomenon and exact incidence and the timing of this event have not been quantified. We present a case in which late spontaneous recanalization of long-lasting middle cerebral artery occlusion occurred in the absence of surgical, endovascular and thrombolytic treatments.
Angiography
;
Arteries
;
Incidence
;
Infarction, Middle Cerebral Artery
;
Middle Cerebral Artery