Xuejun Yang
0000-0001-7056-1223
57 papers found
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Conditioned medium from neural stem cells inhibits glioma cell growth
Hodotopical researchonneural pathway of Chinese language in posterior inferior frontal gyrus
Primary study on hand motor cortex mapping by using navigated transcranial magnetic stimulation
Study on synergistic effect of Rac1 inhibitor and temozolomide in inhibiting proliferation and invasiveness of glioma cells in vitro
Heterogeneity of MGMT gene promoter methylation and protein expression in serial specimens in newly diagnosed glioblastoma
Does Early Postsurgical Temozolomide Plus Concomitant Radiochemotherapy Regimen Have Any Benefit in Newly-diagnosed Glioblastoma Patients? A Multi-center, Randomized, Parallel, Open-label, Phase II Clinical Trial
Expression of cortactin in human gliomas and its effect on migration and invasion of glioma cells
Invasion and anti-invasion research of glioma cells in an improved model of organotypic brain slice culture
Randomized controlled study of limited margins IMRT and temozolomide chemotherapy in patients with malignant glioma
Store-operated Ca2+ entry regulates glioma cell migration and invasion via modulation of Pyk2 phosphorylation
Expression of the Arp2/3 complex in human gliomas and its role in the migration and invasion of glioma cells
Downregulation of Src enhances the cytotoxic effect of temozolomide through AKT in glioma
Multicenter randomized controlled study of temozolomide versus semustine in the treatment of recurrent malignant glioma
Relationship between Golgi apparatus and cell migration direction in vivo and in vitro
Preliminary application of intraoperative magnetic resonance imaging combined with neuronavigation in glioma surgery
Role of Rac1 in the SDF-1-induced migration and invasion of human glioma cell line U251
Advance in glioma surgery
[Glioma stem cells enhanced angiogenesis and its relationship with microvessel].
The application and progress of multimodality image fusion in neurosurgery
Rac1+ cells distributed in accordance with CD 133+ cells in glioblastomas and the elevated invasiveness of CD 133+ glioma cells with higher Rac1 activity
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