三维生物打印和癌症实验模型系统的革命--回顾开发新模型和体外三维生物打印乳腺癌组织模拟结构的经验。

IF 2.3 4区 医学 Q3 ONCOLOGY
Pathology & Oncology Research Pub Date : 2023-02-09 eCollection Date: 2023-01-01 DOI:10.3389/pore.2023.1610996
Dániel Sztankovics, Dorottya Moldvai, Gábor Petővári, Rebeka Gelencsér, Ildikó Krencz, Regina Raffay, Titanilla Dankó, Anna Sebestyén
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引用次数: 0

摘要

越来越多的证据表明,替代技术(基于人体细胞的相关技术,如芯片上的器官或生物制造模型,或人工智能组合技术)有助于体外测试并更准确地预测医学研究中的人体反应和毒性。体外疾病模型的开发为减少和替代动物实验,建立基于人体细胞的体外测试系统,用于研究、创新和药物测试做出了巨大的努力。我们需要以人体细胞为基础的测试系统用于疾病模型和癌症实验研究;因此,体外三维(3D)模型复兴了,这些技术的重新发现和发展也越来越快。这篇最新论文总结了细胞生物学/细胞病理学、细胞、组织培养和癌症研究模型的早期历史。此外,我们还重点介绍了越来越多地使用三维模型系统和三维生物打印/生物制造模型的发展成果。此外,我们还介绍了新建立的三维生物打印管腔 B 型乳腺癌模型系统,以及体外三维模型(尤其是生物打印模型)的优势。根据我们的研究结果和对体外乳腺癌模型发展的回顾,使用三维生物打印、生物制造的模型可以更好地表现癌症组织的异质性和体内真实情况。然而,三维生物打印方法的标准化对于未来应用于不同的高通量药物测试和患者衍生肿瘤模型是非常必要的。在不久的将来,应用这些标准化的新模型可以使抗癌药物的研发更加成功、高效,从而提高成本效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

3D bioprinting and the revolution in experimental cancer model systems-A review of developing new models and experiences with <i>in vitro</i> 3D bioprinted breast cancer tissue-mimetic structures.

3D bioprinting and the revolution in experimental cancer model systems-A review of developing new models and experiences with <i>in vitro</i> 3D bioprinted breast cancer tissue-mimetic structures.

3D bioprinting and the revolution in experimental cancer model systems-A review of developing new models and experiences with <i>in vitro</i> 3D bioprinted breast cancer tissue-mimetic structures.

3D bioprinting and the revolution in experimental cancer model systems-A review of developing new models and experiences with in vitro 3D bioprinted breast cancer tissue-mimetic structures.

Growing evidence propagates those alternative technologies (relevant human cell-based-e.g., organ-on-chips or biofabricated models-or artificial intelligence-combined technologies) that could help in vitro test and predict human response and toxicity in medical research more accurately. In vitro disease model developments have great efforts to create and serve the need of reducing and replacing animal experiments and establishing human cell-based in vitro test systems for research use, innovations, and drug tests. We need human cell-based test systems for disease models and experimental cancer research; therefore, in vitro three-dimensional (3D) models have a renaissance, and the rediscovery and development of these technologies are growing ever faster. This recent paper summarises the early history of cell biology/cellular pathology, cell-, tissue culturing, and cancer research models. In addition, we highlight the results of the increasing use of 3D model systems and the 3D bioprinted/biofabricated model developments. Moreover, we present our newly established 3D bioprinted luminal B type breast cancer model system, and the advantages of in vitro 3D models, especially the bioprinted ones. Based on our results and the reviewed developments of in vitro breast cancer models, the heterogeneity and the real in vivo situation of cancer tissues can be represented better by using 3D bioprinted, biofabricated models. However, standardising the 3D bioprinting methods is necessary for future applications in different high-throughput drug tests and patient-derived tumour models. Applying these standardised new models can lead to the point that cancer drug developments will be more successful, efficient, and consequently cost-effective in the near future.

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来源期刊
CiteScore
6.30
自引率
0.00%
发文量
134
审稿时长
4-8 weeks
期刊介绍: Pathology & Oncology Research (POR) is an interdisciplinary Journal at the interface of pathology and oncology including the preclinical and translational research, diagnostics and therapy. Furthermore, POR is an international forum for the rapid communication of reviews, original research, critical and topical reports with excellence and novelty. Published quarterly, POR is dedicated to keeping scientists informed of developments on the selected biomedical fields bridging the gap between basic research and clinical medicine. It is a special aim for POR to promote pathological and oncological publishing activity of colleagues in the Central and East European region. The journal will be of interest to pathologists, and a broad range of experimental and clinical oncologists, and related experts. POR is supported by an acknowledged international advisory board and the Arányi Fundation for modern pathology.
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