iPSCs As Models, Part 2: Modeling the Human Brain with Organoids
Get a walkthrough of how to generate and characterize iPSC-derived brain organoids from Dr. Anjana Nityanandam, Director of the Human Stem Cell Lab core facility at St. Jude Children’s Research Hospital. Learn how to improve reliability and reproducibility of data from brain organoid models, and get an overview of disease modeling case studies using various 3D cultures.
Part 2 of 2 of an event hosted by Labroots. Click here to view Part 1, an introduction to iPSCs.
Request Pricing
Thank you for your interest in this product. Please provide us with your contact information and your local representative will contact you with a customized quote. Where appropriate, they can also assist you with a(n):
Estimated delivery time for your area
Product sample or exclusive offer
In-lab demonstration
Related Multimedia
-
Madeline Lancaster on Brain Organoids: Modeling Human Brain Development in a Dish
Publish Date: September 20, 2017 -
Building Brain Organoids and AssemBloids™ to Study Human Development and Disease
Publish Date: October 30, 2020 -
iPSCs As Models, Part 1: What Are Induced Pluripotent Stem Cells and How Do You Use Them?
Publish Date: September 07, 2021
Explore Our Products
-
Kit for serum-free culture of primary tissue-derived neurons in BrainPhys™ Neuronal Medium -
STEMdiff™ Cerebral Organoid Maturation Kit
Culture medium kit for extended maturation of human cerebral organoids -
STEMdiff™ Dorsal Forebrain Organoid Differentiation Kit
Cell culture medium kit for robust generation of dorsal forebrain neural organoids from human pluripotent stem cells -
BrainPhys™ Neuronal Medium N2-A & SM1 Kit
Kit for serum-free culture of ES/iPS cell-derived neurons in BrainPhys™ Neuronal Medium
