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£Û15£Ýtakano t, ohe y, sakamoto h, et al. epidermal growth factor receptor gene mutations and increased copy numbers predict gefitinib sensitivity in patients with recurrent nonª²smallª²cell lung cancer£Ûj£Ý. journal of clinical oncology, 2005,23(28):6829ª²6837.

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£Û17£Ýwang my., lu kv, zhu s, et al. mammalian target of rapamycin inhibition promotes response to epidermal growth factor receptor kinase inhibitors in ptenª²deficient and ptenª²intact glioblastoma cells£Ûj£Ý. cancer res, 2006 , 66(16): 7864ª²7869.

£Û18£Ý she qb, solit d, basso a, et al. resistance to gefitinib in ptenª²null herª²overexpressing tumor cells can be overcome through restoration of pten function or pharmacologic modulation of constitutive phosphatidylinositol 3ª²kinase/akt pathway signaling£Ûj£Ý. clinical cancer res, 2003,9(12):4340ª²4346.

£Û19£Ýnathan ti, gillian pm, margareta ib. the phosphatidylinositolª²3ª²kinase inhibitor pxª²866 overcomes resistance to the epidermal growth factor receptor inhibitor gefitinib in aª²549 human nonª²small cell lung cancer xenografts£Ûj£Ý. mol cancer ther, 2005,4(9):1349ª²1357.

£Û20£Ýnormanno n, de la, maiello mr, et al. the mek/mapk pathway is involved in the resistance of breast cancer cells to the egfr tyrosine kinase inhibitor gefitinb£Ûj£Ý. j cell physiol, 2006,207(2):420ª²427.

£Û21£Ýkalish lh, kwong ra, cole ie, et al. deregulated cyclin d1 expression is associated with decreased efficacy of the selective epidermal growth factor receptor tyrosine kinase inhibitor gefitinib in head and neck squamous cell carcinoma cell lines£Ûj£Ý. clinical cancer res, 2004,10(22):7764ª²7774.