Clinical applications and optimization of patient-derived organoids in intestinal diseases

Brain Organoid and Systems Neuroscience Journal Pub Date : 2022-08-25 DOI:10.51335/organoid.2022.2.e22

Tae Il Kim

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Abstract

Since the first successful establishment of organoids from adult intestinal stem cells, organoid technology has rapidly developed. With advances in normal organoid technology, intestinal disorders, such as colorectal tumors and inflammatory bowel disease, have been major target diseases for patient-derived organoid (PDO) development. PDO biobanking for colorectal cancer has subsequently been developed, and some reports have shown the possibility of using PDO models to predict anticancer drug responses. However, to apply these models to real-world practice, we need more long-term clinical follow-up data from further large-scale PDO biobanks, as well as advanced technology for more rapid and efficient PDO establishment. In addition, in the field of regenerative medicine, the implantation of healthy intestinal PDOs to refractory tissue defects could be a new treatment strategy to accelerate the healing and repair of mucosal defects. This PDO technology could also be applied to inflammatory bowel diseases and serve as a very useful model for drug development via high-throughput screening of useful candidate drugs.

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患者源性类器官在肠道疾病中的临床应用及优化

自首次成功建立成体肠道干细胞类器官以来，类器官技术得到了迅速发展。随着正常类器官技术的进步，肠道疾病，如结肠直肠肿瘤和炎症性肠病，已成为患者源性类器官(PDO)发展的主要目标疾病。结肠直肠癌的PDO生物库随后得到了发展，一些报告显示使用PDO模型预测抗癌药物反应的可能性。然而，为了将这些模型应用于现实世界的实践，我们需要更多来自更大规模PDO生物库的长期临床随访数据，以及更快速高效的PDO建立的先进技术。此外，在再生医学领域，健康肠道PDOs植入难治性组织缺损可能成为加速黏膜缺损愈合和修复的新治疗策略。这种PDO技术也可以应用于炎症性肠病，并通过高通量筛选有用的候选药物，作为药物开发的非常有用的模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brain Organoid and Systems Neuroscience Journal

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