3D Cell Culture Feature

3D cell culture is the process of creating an artificial environment in which biological cells are permitted to grow or interact with their surroundings in three dimensions. 3D cultures are usually grown in bioreactors where the cells can grow into spheroids or 3D cell colonies.

This editorial feature covers the latest technologies to optimize the growth of cell cultures in three dimensions and will highlight the applications 3D cell cultures can benefit.

3D cell experiments scaled with confidence using Spark® Cyto 3Dai analysis tools and end-to-end automation


Complex 3D cell models hold great potential for many applications, from drug development to personalized medicine. In this free webinar, discover novel automated tools to increase throughput while achieving consistent and reliable results. Level up your cell research with these free resources.

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Explore the Spark® Cyto's new 3Dai analysis tools powered by AI-based segmentation in this video.

How to navigate the evolving landscape of 3D biology

Gain an in-depth exploration of 3D biology applications, techniques, and advancements. This eBook serves as a comprehensive guide for experts and scientists looking to navigate the continuously evolving landscape of 3D biology, offering deep insights into its transformative role in enhancing our understanding of biological systems and improving healthcare outcomes.

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The essential guide to organoids in drug discovery

Organoids closely resemble in vivo tissue, provide important insights into the mechanisms of tissue development and disease, and present a very valuable approach for biological research and drug development. This free resource from Molecular Devices provides all the information you need to know about organoids in drug discovery. 

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Microwell plates to standardize automated organoid workflows

Discover Gri3D® from SUN bioscience - a 96-well hydrogel microwell plate that enables culturing up to 10,000 reproducible organoids or spheroids on one focal plane. It supports high-resolution imaging and automated assays.

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How to get started with phenotypic 3D cell models

Discover how scalable matrix-embedded 3D cell models can replicate the complexity of the in vivo context and easily integrate with existing downstream analysis methods for drug discovery.

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Optimizing water for cell culture and other life sciences applications

Using the right water type for your application is essential. In this free resource, explore a range of reliable and cost-effective water purification systems from ELGA LabWater, including Type I ultrapure water and Type II+ water.

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3D neuronal microtissues for preclinical drug screening

Learn how ioCells™ from bit.bio use deterministic cell programming to consistently generate mature human neuronal cells, providing a robust and scalable system for medium- to high-throughput drug discovery assays.

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