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(18)F and (18)FDG PET imaging of osteosarcoma to non-invasively monitor in situ changes in cellular proliferation and bone differentiation upon MYC inactivation.

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第一作者： Constadina,Arvanitis

第一单位： Department of Chemical and Systems Biology, Stanford School of Medicine, Stanford, California 94403, USA.

作者： Constadina,Arvanitis ^[1] ; Pavan K,Bendapudi ; Jeffrey R,Tseng ; Sanjiv Sam,Gambhir ; Dean W,Felsher

作者单位： Department of Chemical and Systems Biology, Stanford School of Medicine, Stanford, California 94403, USA. ^[1]

医学主题词动物(Animals);骨发育(Bone Development);骨肿瘤(Bone Neoplasms);骨和骨组织(Bone and Bones);细胞分化(Cell Differentiation);细胞分裂(Cell Division);疾病模型, 动物(Disease Models, Animal);氟放射性同位素(Fluorine Radioisotopes);氟脱氧葡萄糖F18(Fluorodeoxyglucose F18);基因沉默(Gene Silencing);基因, myc(Genes, myc);人类(Humans);小鼠(Mice);小鼠, 转基因(Mice, Transgenic);肿瘤侵润(Neoplasm Invasiveness);骨肉瘤(Osteosarcoma);正电子发射断层显像术(Positron-Emission Tomography);放射摄影术(Radiography)

DOI 10.4161/cbt.7.12.6947

PMID 18981708

发布时间 2020-09-30

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Cancer biology & therapy

2008年7卷12期

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2008年7卷12期

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(18)F and (18)FDG PET imaging of osteosarcoma to non-invasively monitor in situ changes in cellular proliferation and bone differentiation upon MYC inactivation.

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(18)F and (18)FDG PET imaging of osteosarcoma to non-invasively monitor in situ changes in cellular proliferation and bone differentiation upon MYC inactivation.

Cancer biology & therapy

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Cancer biology & therapy

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