本帖最后由 滴水 于 2013-4-17 17:27 编辑
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: N* Y( `' e, ~2 l1. CP化疗联合低剂量口服cediranib,能提高反应率 (52% vs 34 %),但OS和FFS无区别,另外毒性反应会增加;是否提示凡德和化疗联合,也能提高反应率?
% Y! f9 i( N+ T3 K B: ~9 whttp://www.asco.org/ASCOv2/Meeti ... mp;abstractID=98578
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$ F0 |/ j! `% }9 z' z2. 多线治疗的NSCLC, xl184 100mg qd ,结果:0RR(CR+PR) 10%,肿瘤有退缩的64%% l5 o$ V: k2 Z/ J# x
http://meetinglibrary.asco.org/content/95281-114) X6 f0 N3 O" [
第一次特3个月就耐药,其中第一个月联合了12天 xl184,效果最明显,会不会其实是XL184在起作用?
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3. 野生和非野生的T790M突变
+ E3 u& j! n, @7 q Results: The T790M mutation was detected in 21/64 (32.8%) p in the erlotinib arm and 26/59 (44.1%) in the chemotherapy arm. PFS was 12.1 m for p with mutant T790M in the erlotinib arm, 8.8 m for p with wt T790M in the erlotinib arm, 6.3 m for p with mutant T790M in the chemotherapy arm, and 4.5 m for p with wt T790M in the chemotherapy arm (P<0.0001). OS was not reached for p with mutant T790M in the erlotinib arm, 16.1 m for p with wt T790M in the erlotinib arm, 22.6 m for p with mutant T790M in the chemotherapy arm, and 18.4 m for p with wt T790M in the chemotherapy arm (P=0.04). Conclusions: Our unexpected finding that p with EGFR compound mutants attain the maximum benefit from erlotinib suggests a need for more sensitive assays to detect EGFR compound mutants and for studies of inhibitors targeting the EGFR T790M mutation. Whole genome sequencing may provide greater understanding of the genetic factors involved in the differences in OS.( Z" s" V6 d2 h z) T' g, V+ ?
# E( m* K! K5 P. o9 M4. EGFR-TKI耐药后,继续联合化疗,比单独化疗应答率要高(41% vs 18%)$ h. l0 ^+ ~/ G. q7 ` z
http://www.asco.org/ASCOv2/Meeti ... mp;abstractID=985390 F/ g# n7 T- @! H
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5. EGFR-TKI耐药后,间隔一段时间重新服用,仍有一定的有效率% f! T" N6 y/ ~" `/ W" d7 `
http://www.asco.org/ASCOv2/Meeti ... mp;abstractID=948576 a9 h( F7 a. `) B. P c
, k# N7 X6 a" \" z( _8 @8 Y6. 有T790突变的EGFR-TKI耐药,进展比较慢
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