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  • Author or Editor: Jia Wang x
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Xiaofeng Deng, Yan Zhang, Long Xu, Bo Wang, Shuo Wang, Jun Wu, Dong Zhang, Rong Wang, Jia Wang and Jizong Zhao


Cerebral arteriovenous malformations (AVMs) are congenital malformations that may grow in the language cortex but usually do not lead to aphasia. In contrast, language dysfunction is a common presentation for patients with a glioma that involves language areas. The authors attempted to demonstrate the difference in patterns of language cortex reorganization between cerebral AVMs and gliomas by blood oxygen level–dependent (BOLD) functional MRI (fMRI) evaluation.


The authors retrospectively reviewed clinical and imaging data of 63 patients with an unruptured cerebral AVM (AVM group) and 38 patients with a glioma (glioma group) who underwent fMRI. All the patients were right handed, and all their lesions were located in the left cerebral hemisphere. Patients were further categorized into 1 of the 2 following subgroups according to their lesion location: the BA subgroup (overlying or adjacent to the inferior frontal or the middle frontal gyri [the Broca area]) and the WA subgroup (overlying or adjacent to the supramarginal, angular, or superior temporal gyri [the Wernicke area]). Lateralization indices of BOLD signal activations were calculated separately for the Broca and Wernicke areas. Statistical analysis was performed to identify the difference in patterns of language cortex reorganization between the 2 groups.


In the AVM group, right-sided lateralization of BOLD signal activations was observed in 23 patients (36.5%), including 6 with right-sided lateralization in the Broca area alone, 12 in the Wernicke area alone, and 5 in both areas. More specifically, in the 34 patients in the AVM-BA subgroup, right-sided lateralization of the Broca area was detected in 9 patients (26.5%), and right-sided lateralization of the Wernicke area was detected in 4 (11.8%); in the 29 patients in the AVM-WA subgroup, 2 (6.9%) had right-sided lateralization of the Broca area, and 13 (44.8%) had right-sided lateralization of the Wernicke area. In the glioma group, 6 patients (15.8%) showed right-sided lateralization of the Wernicke area, including 2 patients in the glioma-BA subgroup and 4 patients in the glioma-WA subgroup. No patient showed right-sided lateralization of the Broca area. Moreover, although the incidence of right-sided lateralization was higher in cases of low-grade gliomas (5 in 26 [19.2%]) than in high-grade gliomas (1 in 12 [8.3%]), no significant difference was detected between them (p = 0.643). Compared with the AVM group, the incidence of aphasia was significantly higher (p < 0.001), and right-sided lateralization of language areas was significantly rarer (p = 0.026) in the glioma group.


Right-sided lateralization of BOLD signal activations was observed in patients with a cerebral AVM and in those with a glioma, suggesting that language cortex reorganization may occur with both diseases. However, the potential of reorganization in patients with gliomas seems to be insufficient compared with patients AVMs, which is suggested by clinical manifestations and the fMRI findings. Moreover, this study seems to indicate that in patients with an AVM, a nidus near the Broca area mainly leads to right-sided lateralization of the Broca area, and a nidus near the Wernicke area mainly leads to right-sided lateralization of the Wernicke area.

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Xiaofeng Deng, Faliang Gao, Dong Zhang, Yan Zhang, Rong Wang, Shuo Wang, Yong Cao, Yuanli Zhao, Yuesong Pan, Xun Ye, Xingju Liu, Qian Zhang, Jia Wang, Ziwen Yang, Meng Zhao and Jizong Zhao


Bypass surgery is the most common treatment for moyamoya disease (MMD), but there is controversy over which surgical modality is best. The objective of this study was to evaluate the clinical outcome of patients with MMD after undergoing different surgical modalities.


A series of 696 consecutive MMD patients treated between June 2009 and May 2015 were screened in this prospective cohort study. Patients who did not undergo revascularization surgeries and those who underwent different surgical modalities in bilateral hemispheres were excluded. Finally, 529 patients who were observed for at least 12 months were included: 438 patients underwent unilateral surgery, and 91 patients underwent bilateral surgery. Of these, 241 patients underwent direct bypass (DB); 81, a combined bypass (CB); and 207, an indirect bypass (IB). Three clinical outcomes were evaluated and compared between surgical groups: recurrent stroke events, modified Rankin Scale (mRS) scores, and change in the main symptoms.


The mean follow-up period was 40 months. During the follow-up period, recurrent stroke was observed in 43 patients, including 15 patients with hemorrhage, 26 patients with ischemia (transient ischemic attack in 19 patients and infarction in 7 patients), and 2 patients with both hemorrhage and cerebral infarction. Kaplan-Meier analysis showed that patients who underwent a CB or DB had a longer ischemia-free time than those who underwent IB (p = 0.013); however, there was no significant difference in the hemorrhage-free time between the different surgical modalities (p = 0.534). A good neurological status (mRS score ≤ 2) was achieved in 495 patients (93.6%) and was significantly achieved by more children (98.2%) than adults (92.3%; p = 0.022). Surgical modalities were not significantly associated with outcome neurological status (p = 0.860). Moreover, improvement in symptoms was observed in 449 patients (84.9%) and was also significantly more common in children (93.0%) than in adults (82.7%; p = 0.006). No significant difference was observed between the different surgical modalities (p = 0.548).


CB and DB are more effective at preventing recurrent ischemic strokes than IB. However, there is no evidence that these 3 surgical modalities demonstrate significant differences in preventing recurrent hemorrhage.

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Xiaohui Ren, Song Lin, Zhongcheng Wang, Lin Luo, Zhongli Jiang, Dali Sui, Zhiyong Bi, Yong Cui, Wenqing Jia, Yan Zhang, Lanbing Yu and Siyuan Chen


Most intracranial epidermoid cysts typically present with long T1 and T2 signals on MR images. Other epidermoid cysts with atypical MR images are often misdiagnosed as other diseases. In this study the authors aimed to analyze the incidence and the clinical, radiological, and pathological features of atypical epidermoid cysts.


Among 428 cases of intracranial epidermoid cysts that were surgically treated between 2002 and 2008 at Beijing Tiantan Hospital, cases with an atypical MR imaging appearance were chosen for analysis. Clinical and pathological parameters were recorded and compared in patients with lesions demonstrating typical and atypical MR appearance.


An atypical epidermoid cyst accounts for 5.6% of the whole series. Radiologically, 58.3% of atypical epidermoids were misdiagnosed as other diseases. Compared with a typical epidermoid cyst, atypical epidermoid lesions were significantly larger (p = 0.016, chi-square test). Pathologically, hemorrhage was found in 21 patients with atypical epidermoid cyst and is significantly correlated with granulation (p = 0.010, Fisher exact test). Old hemorrhage was found in 13 cases and was significantly correlated with cholesterol crystals. Twenty-one patients were followed up for 1.3–8.6 years after surgery. The 5- and 8-year survival rates were both 100%. Three patients experienced cyst recurrence. The 5- and 8-year recurrence-free rates were 95% and 81.4%, respectively.


Radiologically, an atypical epidermoid cyst should be differentiated from dermoid cyst, teratoma, schwannoma, glioma, craniopharyngioma, and cavernous angioma. A tendency toward spontaneous hemorrhage is confirmed in atypical epidermoid cysts, and a hypothesis was proposed for spontaneously intracystic hemorrhage in atypical epidermoid cysts. Follow-up confirmed long-term survival of patients with atypical epidermoid cysts.