PGmatrix™ 3D Cells Platform (hiPSCs)
$450.00
Description
The most popular matrix for 3D cells, tumor organoids, organ organoids, iPSC (induced pluripotent stem cells), etc., cultures (10 mL).
PepGel™ PGmatrix™ is an advanced, fully synthetic 3D cell culture platform designed to recreate physiologically relevant cellular microenvironments. By enabling cells to grow and self-organize into complex 3D structures such as organoids, PGmatrix™ supports more predictive and in vivo–like biological responses.
This animal-free hydrogel system is compatible with a wide range of cell types, including primary cells, stem cells, and cancer models, making it a powerful tool for applications in organoid research, drug discovery, tissue engineering, and regenerative medicine. With its flexible formulation and user-friendly workflow, PGmatrix™ integrates seamlessly into both research and high-throughput screening environments.
Related products
Product description
The most popular matrix for 3D cells, tumor organoids, organ organoids, iPSC (induced pluripotent stem cells), etc., cultures (10 mL).
PepGel™ PGmatrix™ is an advanced, fully synthetic 3D cell culture platform designed to recreate physiologically relevant cellular microenvironments. By enabling cells to grow and self-organize into complex 3D structures such as organoids, PGmatrix™ supports more predictive and in vivo–like biological responses.
This animal-free hydrogel system is compatible with a wide range of cell types, including primary cells, stem cells, and cancer models, making it a powerful tool for applications in organoid research, drug discovery, tissue engineering, and regenerative medicine. With its flexible formulation and user-friendly workflow, PGmatrix™ integrates seamlessly into both research and high-throughput screening environments.
Features
- Physiologically relevant 3D environment
Supports natural cell growth, organization, and function with in vivo–like morphology - Animal-free, fully synthetic system
Eliminates variability associated with biological matrices - User-friendly workflow
Easy cell encapsulation, handling, and recovery at physiological conditions - No harsh conditions required
Enables cell harvesting without temperature or pH stress - Self-healing hydrogel structure
Allows direct pipetting, bioprinting, and lab-on-chip applications without additional crosslinking - Supports advanced applications
Ideal for organoid culture, drug screening, toxicity studies, and extracellular vesicle research - Tunable and customizable formulations
Adaptable to specific cell types and experimental needs - Scalable for research and screening
Suitable for both routine lab use and high-throughput workflows
