The continuous advancement of molecular detection technology has greatly propelled the development of precision medicine for lung cancer. However, tumor heterogeneity is closely associated with tumor metastasis, recurrence, and drug resistance. Additionally, different lung cancer patients with the same genetic mutation may exhibit varying treatment responses to different therapeutic strategies. Therefore, the development of modern precision medicine urgently requires the precise formulation of personalized treatment strategies through personalized tumor models. Lung cancer organoid (LCO) can highly simulate the biological characteristics of tumor in vivo, facilitating the application of innovative drugs such as antibody-drug conjugate in precision medicine for lung cancer. With the development of co-culture model of LCO with tumor microenvironment and tissue engineering technology such as microfluidic chip, LCO can better preserve the biological characteristics and functions of tumor tissue, further improving high-throughput and automated drug sensitivity experiment. In this review, we combine the latest research progress to summarize the application progress and challenges of LCO in precision medicine for lung cancer. .
【中文题目:肺癌类器官在肺癌精准医学的应用 及其研究进展】 【中文摘要:分子检测技术的不断进步极大地推动了肺癌精准医学的发展,但是肿瘤的异质性与肿瘤的转移、复发和耐药密切相关,并且具有同一基因突变的不同肺癌患者采用不同的治疗策略会呈现出一定的疗效差异,因此现代精准医学的发展亟需通过个性化的肿瘤模型来精准制定个性化的治疗策略。肺癌类器官(lung cancer organoid, LCO)能够高度模拟肿瘤在体内的生物学特征,促进抗体药物偶联物等创新药物在肺癌精准医学的应用。随着LCO与肿瘤微环境共培养模型和微流控芯片等组织工程技术的发展,LCO可以更好地保留肿瘤组织的生物学特征和功能,进一步提高高通量和自动化药物敏感性实验。本文结合了最新的LCO研究进展,总结了LCO在肺癌精准医学中的应用进展与挑战。 】 【中文关键词:肺肿瘤;类器官;精准医学】.
Keywords: Lung neoplasms; Organoid; Precision medicine.