作者:张惠静, 毕颖楠, 郝敦玲
作者单位:第三军医大学医学检验系分析化学教研室, 重庆 400038
关键词:循环肿瘤细胞; 检测; 微流控芯片
摘要:
循环肿瘤细胞(circulating tumor cells,ctcs)存在于肿瘤患者外周血中,特异、敏感地检测ctcs对肿瘤患者的预后评价和临床的个体化治疗均有重要意义。该文在综述ctcs的富集、筛选和鉴定技术的基础之上,对微流控芯片技术在这一领域的应用做了重点阐述。
the development and prospect of circulating tumour cells detection
zhang hui-jing, bi ying-nan, hao dun-ling
department of analytical chemistry, faculty of laboratory medicine, the third military medical university, chongqing 400038, china
abstract: circulating tumor cells (ctcs) exist in peripheral blood of tumor patients. to detect ctcs specifically and sensitively is important to prognosis evaluation and individual therapy for the tumor patients. this review overviews the enriching, screening and identifying technology of ctcs, and particularly represents the application of microfluidic chip technology in this domain.
keywords: circulating tumor cells; detection; microfluidic chip
2015, 36(5): 1-4 收稿日期: 2010-4-28;收到修改稿日期: 2010-7-6
基金项目: 重庆市科技攻关重点资助项目(cstc2009ab5198)
作者简介: 张惠静(1963-),女,重庆市人,教授,博士,主要研究方向为分子识别的物质基础及新型诊断技术。
参考文献
[1] paterlini-brechot p, benali n l. circulating tumor cells (ctc)detection:clinical impact and future directions[j]. cancer lett.,2007,253(2):180-204.
[2] 周小昀,李龙芸. 检测循环肿瘤细胞ctc在临床肿瘤诊断和治疗中的作用[j]. 癌症进展杂志,2006,4(3):240-243.
[3] giribaldi g, procida s, ulliers d,et al. specific detection of cytokeratin 20-positive cells in blood of colorectal and breast cancer patients by a high sensitivity real-time reverse transcriptase-polymerase chain reaction method[j]. j. mol. diagn.,2006,8(1):105-112.
[4] pinzani p,salvadori b,simi l,et al. isolation by size of epithelial tumor cells in peripheral blood of patients with breast cancer:correlation with real-time reverse transcriptase-polymerase chain reaction results and feasibility of molecular analysis by laser microdissection[j]. hum.pathol.,2006,37(6):711-718.
[5] mejean a,vona g,nalpas b,et al. detection of circulating prostate derived cells inpatients with prostate adenocarcinoma is an independentrisk factor for tumor recurrence[j]. j.urol.,2000(163):2022-2029.
[6] costanzo f di, pinzani p, orlando c,et al. circulating tumour cells in colorectal cancer[j]. european journal of cancer supplements,2008,6(14):52-59.
[7] sleijfer s, gratama j w, sieuwerts a m, et al. circulating tumour cell detection on its way to routine diagnostic implementation[j]. eur. j. cancer,2007,43(18):2645-2650.
[8] smerage j b, hayes d f. the measurement and therapeutic implications of circulating tumour cells in breast cancer[j]. br. j. cancer,2006(94):8-12.
[9] hu x c, wang y, shi d r, et al. immunomagnetic tumor cell enrichment is promising in detecting circulating breast cancer cells[j]. oncology,2003,64(2):160-165.
[10] kopreski m s, benko f a, kwak l w, et al. detection of tumor messenger rna in the serum of patients with malignant melanoma[j]. clin. cancer res.,1999,5(8):1961-1965.
[11] helo p, cronin a m, danila d c, et al. circulating prostate tumor cells detected by reverse transcription-pcr in men with localized or castration-refractory prostate cancer: concordance with cellsearch assay and association with bone metastases and with survival[j]. clin. chem.,2009,55(4):765-773.
[12] xi l q, nicastri d g, el-hefnawy t, et al. optimal markers for real-time quantitative reverse transcription pcr detection of circulating tumor cells from melanoma,breast, colon,esophageal,head and neck,and lung cancers[j]. clin. chem.,2007,53(7):1206-1215.
[13] el a j, sorger p k, jensen k f. cells on chips[j]. nature,2006,442(7101):403-411.
[14] yager p, edwards t, fu e, et al. microfluidic diagnostic technologies for global public health[j]. nature,2006,442(7101):412-418.
[15] nagrath s, sequist l v, maheswaran s,et al. isolation of rare circulating tumour cells in cancer patients by microchip technology[j]. nature,2007,450(7173):1168-1169.
[16] maheswaran s,sequist l v, nagrath s, et al. detection of mutations in egfr in circulating lung-cancer cells[j]. n. engl. j. med.,2008,359(4):366-377.
[17] adams a a, okagbare p i, feng j, et al. highly efficient circulating tumor cell isolation from whole blood and label-free enumeration using polymer-based microfluidics with an integrated conductivity sensor[j]. j. am. chem. soc.,2008,130(27):8633-8841.
