Optimization of Tumor Spheroid Preparation and Morphological Analysis for Drug Evaluation

IF 5.5 3区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
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Abstract

Due to its similarity to in vivo conditions, tumor spheroids are actively used in research areas, such as drug screening and cell–cell interactions. A substantial quantity of spheroids is crucial for obtaining dependable results in high-throughput screening. Conventional fabrication methods of spheroid have limitations in low yield and morphological variation. Droplet-based microfluidic system capable of mass-producing uniformed spheroids can overcome these limitations. In this study, we investigated the optimal culture conditions, which allows to researchers provide guidelines for producing spheroids with the desired diameter and quantity. Mass-produced spheroids were employed to analyze compaction, which is crucial for evaluating the remission effects of drugs, as well as the formation of a necrotic core, which induces a bias in the analysis of drug response and viability. The time point at which compaction is completed and the diameter begins to increase was measured using spheroids with diameters of both > 400 μm and < 400 μm, and spheroids do not proliferate a linear growth trend. Spheroid with diameters ranging from 73.4 ± 11.42 μm to 371 ± 5.11 μm was used to predict the formation of the necrotic core based on live cell counting, and diameter of 300–330 μm was mathematically calculated as the diameter where a necrotic core forms. Additionally, the use of artificial intelligence (AI) for high-throughput analysis is crucial for obtaining time-saving and reproducible data. We produced BT474 and MCF-7 spheroids with diameters of 100, 200, and 300 μm and obtained morphological indicators from an AI-based program to compare the differences in heterogeneous breast tumor spheroids. Through this study, we optimized the diameter of spheroids and the initiation timing for drug screening and emphasized the importance of AI-based morphological analysis in high-throughput screening.

优化肿瘤小球的制备和形态学分析以进行药物评估
摘要 由于与体内条件相似,肿瘤球样被积极用于药物筛选和细胞-细胞相互作用等研究领域。要在高通量筛选中获得可靠的结果,大量的球形体至关重要。传统的球形体制作方法存在产量低和形态变化大的局限性。基于液滴的微流体系统能够大量制造均匀的球形体,从而克服了这些局限性。在这项研究中,我们对最佳培养条件进行了研究,从而为研究人员生产所需直径和数量的球形体提供了指导。批量生产的球体可用于分析压实(这对评估药物的缓解效果至关重要)以及坏死核心的形成(这会导致药物反应和存活率分析出现偏差)。使用直径为 > 400 μm 和 < 400 μm 的球形体测量了压实完成和直径开始增大的时间点,球形体的增殖并不呈线性增长趋势。根据活细胞计数,用直径为 73.4 ± 11.42 μm 至 371 ± 5.11 μm 的球形体预测坏死核心的形成,并通过数学计算得出坏死核心形成的直径为 300-330 μm。此外,使用人工智能(AI)进行高通量分析对于获得省时、可重复的数据至关重要。我们制作了直径为 100、200 和 300 μm 的 BT474 和 MCF-7 球形体,并通过基于人工智能的程序获得了形态学指标,以比较异质乳腺肿瘤球形体的差异。通过这项研究,我们优化了药物筛选的球体直径和启动时间,并强调了基于人工智能的形态学分析在高通量筛选中的重要性。
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来源期刊
BioChip Journal
BioChip Journal 生物-生化研究方法
CiteScore
7.70
自引率
16.30%
发文量
47
审稿时长
6-12 weeks
期刊介绍: BioChip Journal publishes original research and reviews in all areas of the biochip technology in the following disciplines, including protein chip, DNA chip, cell chip, lab-on-a-chip, bio-MEMS, biosensor, micro/nano mechanics, microfluidics, high-throughput screening technology, medical science, genomics, proteomics, bioinformatics, medical diagnostics, environmental monitoring and micro/nanotechnology. The Journal is committed to rapid peer review to ensure the publication of highest quality original research and timely news and review articles.
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