窦维蓓

个人信息Personal Information

教授

教师英文名称:DOU Weibei

教师拼音名称:douweibei

办公地点:清华大学罗姆楼4-102

联系方式:Email: douwb@tsinghua.edu.cn; Tel: 010-62781703

学位:博士学位

毕业院校:电子科技大学学士、法国雷恩大学硕士、法国卡昂大学博士

学术论文

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Quantitative assessment of invasion of high grade gliomas using diffusion tensor magnetic resonance imaging

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影响因子:2.104

DOI码:10.1016/j.wneu.2018.02.095

发表刊物:World Neurosurgery

关键字:Diffusion tensor imaging, High-grade gliomas, Invasive range

摘要:High-grade gliomas (HGGs), especially glioblastomas, are the most malignant tumors in the brain, with median survival times of 11e15 months.1 Current standard treatments include resection combined with radiotherapy plus concomitant and adjuvant chemotherapy using temozolomide.2 Microsurgical tumor resection as an initial treatment contributes to prolonged overall survival and is considered the gold standard of treatment whenever safely feasible at the time of initial diagnosis.3 However, owing to the invasive histologic characteristics of this type of tumor, it is difficult to completely remove the tumor. Additionally, brain infiltrated with tumor does not always display enhancements but rather may still appear abnormal on other magnetic resonance imaging (MRI) sequences; thus, the contrast-enhanced tumor volume may underestimate the full extent of the tumor burden.4 Therefore, judgment of the tumor boundary plays a vital role in maximizing the resection. In addition, the influences of increased extents of resection and of reductions in tumor burden on the efficacy of postoperative chemotherapy, radiotherapy, and, ultimately, survival remain inadequately defined. Diffusion tensor imaging (DTI) is widely used in preoperative MRI protocols to visualize white matter tracts for improved surgical planning. In addition to fiber tracking, DTI can be used to assess apparent diffusion coefficient (ADC) and fractional anisotropy (FA) values to characterize tumors and to assess peri tumoral involvement in white matter tracts. In this study, we used advanced MRI techniques to determine the DTI parameters of a region of interest (ROI) within the HGG and in the surrounding affected brain tissue. With the help of navigation, the corre sponding specimens of the ROIs were obtained, pathologic and immunohistochemical tests of the specimens were performed, and the number of tumor cells in each ROI was determined. Based on the differences in the immunohistochemical indices of the ROIs and on the correlation between DTI parameter values and number of tumor cells, we could determine the heterogeneity of a tumor and its surrounding area and explore the scientific judg ment of the HGG invasion range on the basis of the correlation between DTI parameter values and tumor cell numbers.

合写作者:Xu Cai, Huan Li, Chun Zeng, Jianfeng Wang, Zhixian Gao, Mingyu Zhang, Weibei Dou, Ning Zhang, Jian Xie,Weibei Dou, Mingyu Zhang, Hongyan Chen, Shaowu Li,Mingyu Zhang, Hongyan Chen, Shaowu Li

第一作者:Zonggang Hou,Ruizhi Liao, Mingyu Zhang, Hongyan Chen, Shaowu Li

论文类型:期刊论文

通讯作者:Weibei Dou

卷号:113

页面范围:561-567

ISSN号:1878-8750

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发表时间:2018-05-01