[Effects of 3D tissue structure on drug sensitivity - 3D bioprinted tissue mimetic structures in cancer research].

Magyar onkologia Pub Date : 2023-09-28 Epub Date: 2023-09-05
Dorottya Moldvai, Dániel Sztankovics, Titanilla Dankó, Fatime Szalai, Risa Miyaura, Gábor Petővári, Ildikó Krencz, Rebeka Gelencsér, Anna Sebestyén
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Abstract

The issues surrounding the cost effectiveness of drug development and the ethical concerns associated with animal testing, emphasise the necessity for innovative in vitro models that allow enhanced pre-selection. Therefore, we aim to create 3D bioprinted tissue mimetic structures (TMS) utilizing various human cancer cell lines. We have generated TMSs from human tumour cell lines (breast, kidney, glioma), with detailed characterisation of the ZR75.1 cell line. In this study, the tissue heterogeneity, the growth rate, and the drug sensitivity of different in vitro and in vivo models were compared. Tissue formation occurs within the TMS after one week, with a tissue heterogeneity similar to in vivo growing tumours. Moreover, TMSs exhibit similar drug sensitivity to that observed in vivo. In summary, the established 3D bioprinted TMSs represent an advanced in vitro model, which can contribute to achieve a more effective and ethical drug development process in the field of oncology.

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【3D组织结构对药物敏感性的影响——癌症研究中的3D生物打印组织模拟结构】。
围绕药物开发的成本效益和与动物试验相关的伦理问题,强调了创新体外模型的必要性,以增强预选。因此,我们的目标是利用各种人类癌症细胞系创建3D生物打印的组织模拟结构(TMS)。我们已经从人类肿瘤细胞系(乳腺、肾脏、神经胶质瘤)中产生了TMS,并对ZR75.1细胞系进行了详细的表征。在本研究中,比较了不同体外和体内模型的组织异质性、生长速率和药物敏感性。一周后,组织在TMS内形成,组织异质性类似于体内生长的肿瘤。此外,TMS表现出与在体内观察到的相似的药物敏感性。总之,所建立的3D生物打印TMS代表了一种先进的体外模型,有助于在肿瘤学领域实现更有效和合乎道德的药物开发过程。
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