How to Analyze and Characterize Your 3D Cell Culture
https://www.thermofisher.com/us/en/ho... As we develop new methods to create more biologically relevant models for research in understanding disease etiology and innovating new treatment options, one of the most requested areas for educational materials is 3D cell models such as organoid and spheroid systems. Thermo Fisher Scientific is proud to present our webinar series on 3D culture & analysis, and more importantly, how you can get started, how to monitor and analyze 3D models and what to do with these once you have successfully cultured your organoid or spheroid model of interest.
▶︎
Getting started in 3D - Setting up your lab and reviewing common pitfalls of researchers new to 3D
▶︎
The Basics of Flow Cytometry | #webinar #science #flowcytometry
▶︎
How AI Cracked the Protein Folding Code and Won a Nobel Prize
▶︎
What do tech pioneers think about the AI revolution? - The Engineers, BBC World Service
▶︎
The Next Step in Evolution of 3D Culture
▶︎
Absolute Gene-ius S4E9: From brewing to bioprocessing – Steve Lewis on molecular biology trends
▶︎
How to analyze/characterize your 3D culture
▶︎
3D Cell Models: Organoids, Spheroids & Culture Insights
▶︎
AlphaFold - The Most Useful Thing AI Has Ever Done
▶︎
Mastering 3D Cell Culture with Microfluidics | Webinar by Lisa Muiznieks, PhD
▶︎
Basics of Flow Cytometry E-Course
▶︎
Thermo Scientific™ Nunclon™ Sphera at ISSCR 2014
▶︎
But what is quantum computing? (Grover's Algorithm)
▶︎
Webinar: Understanding mechanisms of drugs toxicity using hepatocytes-based spheroids.
▶︎
Gas Chromatography Demystified - Understanding How A GC Works
▶︎
Hans Clevers (Hubrecht I., UU) 1: Discovery and Characterization of Adult Stem Cells in the Gut
▶︎
If You Have A Bad Memory, I’ll Help You Fix It In 28 Minutes
▶︎
Organoids and Beyond - 3D Tissue in a Dish
▶︎
Sterile Cell Culture Technique
▶︎