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A 3D in vitro model of patient-derived prostate cancer xenograft for controlled interrogation of in vivo tumor-stromal interactions.一种用于可控研究体内肿瘤-基质相互作用的患者来源前列腺癌异种移植的3D体外模型。
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Combination cancer immunotherapies tailored to the tumour microenvironment.针对肿瘤微环境的定制化癌症免疫疗法组合。
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Clinical effects of autologous dendritic cells combined with cytokine-induced killer cells followed by chemotherapy in treating patients with advanced colorectal cancer: a prospective study.自体树突状细胞联合细胞因子诱导的杀伤细胞继以化疗治疗晚期结直肠癌患者的临床疗效:一项前瞻性研究
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Identification of drugs as single agents or in combination to prevent carcinoma dissemination in a microfluidic 3D environment.鉴定作为单一药物或联合用药以在微流控3D环境中预防癌转移的药物。
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Remote control of therapeutic T cells through a small molecule-gated chimeric receptor.通过小分子门控嵌合受体对治疗性T细胞进行远程控制。
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Contact-dependent carcinoma aggregate dispersion by M2a macrophages via ICAM-1 and β2 integrin interactions.M2a巨噬细胞通过细胞间黏附分子-1(ICAM-1)和β2整合素相互作用介导的接触依赖性癌细胞聚集体分散。
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Establishment of a heterotypic 3D culture system to evaluate the interaction of TREG lymphocytes and NK cells with breast cancer.建立一种异型三维培养系统以评估调节性T淋巴细胞和自然杀伤细胞与乳腺癌之间的相互作用。
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Therapeutic approaches to enhance natural killer cell cytotoxicity against cancer: the force awakens.增强自然杀伤细胞对癌症细胞的细胞毒性的治疗方法:原力觉醒。
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用于过继性细胞介导的癌症免疫疗法的微流控模型

Microfluidic models for adoptive cell-mediated cancer immunotherapies.

作者信息

Adriani Giulia, Pavesi Andrea, Tan Anthony T, Bertoletti Antonio, Thiery Jean Paul, Kamm Roger D

机构信息

Singapore-MIT Alliance for Research and Technology, BioSyM IRG, 1 Create Way, 138602, Singapore.

DUKE-NUS Graduate Medical School Singapore, Emerging Infectious Disease Program, 8 College Road, 169857, Singapore.

出版信息

Drug Discov Today. 2016 Sep;21(9):1472-1478. doi: 10.1016/j.drudis.2016.05.006. Epub 2016 May 13.

DOI:10.1016/j.drudis.2016.05.006
PMID:27185084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5035566/
Abstract

Current adoptive T cell therapies have shown promising results in clinical trials but need further development as an effective cancer treatment. Here, we discuss how 3D microfluidic tumour models mimicking the tumour microenvironment could help in testing T cell immunotherapies by assessing engineered T cells and identifying combinatorial therapy to improve therapeutic efficacy. We propose that 3D microfluidic systems can be used to screen different patient-specific treatments, thereby reducing the burden of in vivo testing and facilitating the rapid translation of successful T cell cancer immunotherapies to the clinic.

摘要

目前的过继性T细胞疗法在临床试验中已显示出有前景的结果,但作为一种有效的癌症治疗方法仍需进一步发展。在此,我们讨论模仿肿瘤微环境的3D微流控肿瘤模型如何通过评估工程化T细胞和确定联合疗法以提高治疗效果来帮助测试T细胞免疫疗法。我们提出,3D微流控系统可用于筛选不同的患者特异性治疗方法,从而减轻体内测试的负担,并促进成功的T细胞癌症免疫疗法快速转化至临床应用。