Integration of imaging and systems biology to study treatment of medulloblastoma

机译：成像与系统生物学研究肌油母细胞瘤研究治疗的整合

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Medulloblastoma is a highly malignant childhood brain tumor and is often characterized by alterations in cell cycle regulatory pathways and genes. Using FDA-approved arsenic trioxide (ATO) treated ND2-SmoAl mouse model, we present an integrated imaging and systems biology approach to assess tumor responses to ATO and to uncover the complexity of therapeutic molecular biology. Kaplan-Meier survival and MRI tumor growth analyses established the effectiveness of ATO treatment. Differential analysis of protein data identified biologically plausible gene markers. Differential dependence network analyses further revealed novel rewiring “hubs” of biological networks triggered by ATO at systems level. Functional analyses on statistically significant networked molecular markers confirmed ATO's role as an effective anti-proliferative and pro-apoptotic drug, in vivo.

机译：Medulloblastoma是一种高度恶性的儿童脑肿瘤，并且通常通过细胞周期调节途径和基因的改变来表征。使用FDA批准的砷三氧化砷（ATO）处理的ND2-Smoal小鼠模型，我们提出了一种综合的成像和系统生物学方法来评估肿瘤对Ato的反应并揭示治疗分子生物学的复杂性。 Kaplan-Meier生存和MRI肿瘤生长分析建立了ATO治疗的有效性。蛋白质数据鉴定的生物合理基因标志物的差异分析。差分依赖网络分析进一步揭示了由ATO在系统级触发的生物网络重新加热的“集线器”。在统计学上显着的网络分子标记上的功能分析证实了ATO作为有效的抗增殖和促凋亡药物体内的作用。

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《IEEE International Workshop on Genomic Signal Processing and Statistics》|2012年||共4页
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Wang Sean S.; Rodriguez Olga C.; Tian Ye; Ye Shaozhen; Petricoin Emanual; Albanese Chris;
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中图分类 TN911.7-53;
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Cancer imaging; Molecular analysis; Network analysis; Survival analysis;

机译：癌症成像;分子分析;网络分析;生存分析;

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4. Integration of imaging and systems biology to study treatment of medulloblastoma [C] . Wang Sean S., Rodriguez Olga C., Tian Ye, 2012 IEEE International Workshop on Genomic Signal Processing and Statistics . 2012

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Integration of imaging and systems biology to study treatment of medulloblastoma

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