Webinars

Exploring Spatial Biology: 2D-4D Atlasing of the Human Body

United States • Webinar

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22 Apr 2025

Advancing Human-Relevant Models for Real-World Impact

United States • Webinar

Image: Human stem cell-derived mid brain organoids. Courtesy of Dr Tanya Singh, University of Oxford.

Unlocking the Secrets of Organoid Models in Biomedical Research

Get ready to delve deeper into the world of organoids and 3D models, which are essential tools for advancing our understanding of human health. Navigating these complex structures and obtaining clear…

Transfection using the Uncommon Bio reprogramming system. Image acquired using the THUNDER Imager 3D Cell Culture with THUNDER Large Volume Computational Clearing (LVCC) applied. Image courtesy of Samuel East, Uncommon Bio.

利用新型可扩展的干细胞培养设计未来

具有远见卓识的生物技术初创企业 Uncommon Bio 正在应对世界上最大的健康挑战之一：食品可持续性。在这次网络研讨会上，干细胞科学家塞缪尔-伊斯特（Samuel East）将展示他们如何使细胞农业的干细胞培养基既安全又经济可行。了解他们如何将培养基成本降低 1000 倍，并开发出不含动物成分、食品安全的 iPSC 培养基。

Dapi – Nucleus, GFP – Plasma Membrane, Thickness 100µm, 63x objektive, 469 Z planes, 2 channels, THUNDER Imager 3D Cell Culture. Courtesy M.Sc. Dana Krauß, Medical University of Vienna (Austria).

您的 3D 类器官成像和分析工作流程效率如何？

类器官模型已经改变了生命科学研究，但优化图像分析协议仍然是一个关键挑战。本次网络研讨会探讨了类器官研究的简化工作流程，首先是实时的三维细胞培养检查，接下来是高速、高分辨率的三维成像，生成清晰的图像和更纯净的数据，以便对生长速率、细胞迁移和三维细胞相互作用等参数进行准确地人工智能分割和量化，从而实现更深入的洞察。

2D slice of colon cancer tissue stained with 30 markers and imaged using the Cell DIVE system. Analysis performed using Aivia 13’s new multiplex cell detection recipe and automatic clustering tool. Each phenotype denoted in a different color.

Transforming Multiplexed 2D Data into Spatial Insights Guided by AI

Aivia 13 handles large 2D images and enables researchers to obtain deep insights into microenvironment surrounding their phenotypes with millions of detected objects and automatic clustering up to 30…

利用 SPARCS 探索亚细胞空间表型

功能日益强大的显微镜可提供信息丰富的各种细胞表型数据。如果与深度学习的最新进展相结合，这将成为在基因筛选中读出感兴趣的生物表型的理想技术。在本网络讲座中，您将了解到空间分辨 CRISPR 筛选 (SPARCS)，这是一种利用自动化高速激光显微切割技术在人类基因组尺度上揭示各种亚细胞空间表型的平台。

THY1-EGFP labeled neurons in mouse brain processed using the PEGASOS 2 tissue clearing method, imaged on a Leica confocal microscope. Neurons were traced using Aivia’s 3D Neuron Analysis – FL recipe. Image credit: Hu Zhao, Chinese Institute for Brain Research.

借助人工智能，揭示复杂而密集的神经元图像中的洞察

神经元的3D形态学分析通常需要使用不同的成像模式，捕捉多种类型的神经元，并在各种密度下相连的传统Leica SP8显微镜采集多达解神经元的形态，这对许多研究人员来说仍然是一个耗时的挑战。