PGmatrix™ Stem-X Platform (hiPSCs)
$379.00
Description
The most popular matrix for 3D hiPSCs maintenance and expansion in embedded dome, sheet or suspension (10 mL).
PepGel™ PGmatrix™ Stem-X is an advanced 3D cell culture platform designed specifically for stem cell maintenance, expansion, and differentiation in physiologically relevant conditions. By recreating native 3D microenvironments, Stem-X enables stem cells to retain their functionality and develop into complex, self-organized structures such as organoids and specialized somatic cell types.
With scalable workflows and customizable formulations, PGmatrix™ Stem-X integrates seamlessly from basic research to translational and bioprocessing applications.
Related products
Product description
The most popular matrix for 3D hiPSCs maintenance and expansion in embedded dome, sheet or suspension (10 mL).
PepGel™ PGmatrix™ Stem-X is an advanced 3D cell culture platform designed specifically for stem cell maintenance, expansion, and differentiation in physiologically relevant conditions. By recreating native 3D microenvironments, Stem-X enables stem cells to retain their functionality and develop into complex, self-organized structures such as organoids and specialized somatic cell types.
With scalable workflows and customizable formulations, PGmatrix™ Stem-X integrates seamlessly from basic research to translational and bioprocessing applications.
Features
- Optimized for stem cell applications
Supports maintenance, expansion, and controlled differentiation of stem cells - Physiologically relevant 3D environment
Enables natural cell morphology and enhances functional potential compared to 2D culture - Supports organoid generation
Enables formation of cerebral, cardiac, hepatic, and other complex organoid models - Animal-free, defined system
Ensures reproducibility and eliminates variability from biological matrices - Simple and scalable workflow
Compatible with standard lab formats as well as flasks and bioreactors - Mild handling conditions
Cell embedding, culture, and recovery at neutral pH and physiological temperature - Versatile culture formats
Supports dome, sheet, and suspension-based applications - Customizable formulations
Tailored to specific stem cell types and experimental needs
