Advanced Cell Models – Products
![Molecular Devices Continues Investment in Organoid Innovation Center content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/360948/molecular-devices-continues-investment-in-organoid-innovation-center-360948-640x360.jpg?cb=11738279)
Product News
Molecular Devices Continues Investment in Organoid Innovation Center
Next-gen 3D biology lab programs stem cells that differentiate and self-organize into organoid models with higher reproducibility and consistency for screening.
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App Note / Case Study
Creating a More Human-Relevant Model of the Small Intestine with Organ-Chip Technology
Current in vitro models of the small intestine offer limited predictivity due to their reliance on immortalized cell lines and static culture. To better predict human response to drug candidates, researchers need a model than can more closely recreate the intestinal microenvironment.
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App Note / Case Study
Label-Free, Real-Time Live Cell Assays for 3D Organoids
To successfully use these models across a variety of research disciplines and applications, approaches that reduce variability and technology pipelines to image and quantify these complex cell models are required.
![COVID-19 and Organoids: Mini Organs With Massive Potential content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/358243/covid-19-and-organoids-mini-organs-with-massive-potential-358243-640x360.jpg?cb=11621798)
Whitepaper
COVID-19 and Organoids: Mini Organs With Massive Potential
Download your whitepaper to learn more about modeling COVID-19 infection in organoids, how to combat COVID-19 variants as well as the future of organoid technology.
![Deep Learning-Based Image Analysis for Label-Free Monitoring of iPSC and 3D Organoid Cultures content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/356837/deep-learning-based-image-analysis-for-label-free-monitoring-of-ipsc-and-3d-organoid-cultures-356837-640x360.jpg?cb=11598327)
App Note / Case Study
Deep Learning-Based Image Analysis for Label-Free Monitoring of iPSC and 3D Organoid Cultures
Complex 3D biological models such as organoids and patient-derived spheroids are gaining popularity in many biomedical research areas because they more closely recapitulate in vivo tissues.
![Emulate Introduces the Second-Generation Zoë® Culture Module for Replicating Complex Human Biology and Drug Effect content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/355946/emulate-introduces-the-second-generation-zo-culture-module-for-replicating-complex-human-biology-355946-640x360.jpg?cb=11507895)
Product News
Emulate Introduces the Second-Generation Zoë® Culture Module for Replicating Complex Human Biology and Drug Effect
Emulate has launched the Zoë-CM2™ Culture Module, a second-generation Zoë instrument that is at the core of their Human Emulation System®.
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Product News
Generating Cell Repellent Surfaces in Microfluidic Devices
AMSBIO report that researchers from the Medical University of Vienna (Austria), have used Lipidure® - CM5206 to coat channels in their novel microfluidic devices, to prevent cell adhesion.
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Cultrex UltiMatrix Reduced Growth Factor Basement Membrane Extract
Cultrex UltiMatrix RGF BME is an optimized and effective growth scaffold for organoid, pluripotent stem cell, and advanced 3D culture applications. It can be used undiluted or diluted to a specific protein concentration.
![Sartorius Releases the 5th Edition of its Popular Live-Cell Analysis Handbook content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/354687/sartorius-releases-the-5th-edition-of-its-popular-live-cell-analysis-handbook-354687-640x360.jpg?cb=11457577)
Product News
Sartorius Releases the 5th Edition of its Popular Live-Cell Analysis Handbook
Sartorius has released the 5th edition of its Live-Cell Analysis Handbook. When this handbook was first launched in 2017, it was a comprehensive reference guide for live-cell analysis technologies, focusing on the complete suite of Incucyte® live-cell assays and reagents.
![Imaging Organoids With Light-Sheet Fluorescence Microscopy content piece image](https://assets.technologynetworks.com/production/dynamic/images/content/354582/imaging-organoids-with-light-sheet-fluorescence-microscopy-354582-640x360.jpg?cb=11475982)
App Note / Case Study
Imaging Organoids With Light-Sheet Fluorescence Microscopy
Studying tissue and organ biology is challenging, particularly in mammals, given sample accessibility and ethical concerns. However, the use of organoids alleviates these challenges, supporting researchers in exploring questions that previously could not have been investigated without them.
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