- Xeno-free hydrogel for organoid formation
- Supports a wide range of organoids from patient-derived samples, stem cells, tissues, co-culture and PDX resources
- Scalable protocol for lab automation
- Easy 20-minute cell harvesting (enzyme-free)
VitroGel® ORGANOID (1-4) are xeno-free (animal origin-free) hydrogels that support the growth of patient-derived organoids or organoids developed from pluripotent stem cells (PSCs), co-culture, and PDX model.
The VitroGel ORGANOID Discovery Kit (Cat# VHM04-K) includes all four types of organoid hydrogels (VitroGel ORGANOID-1, VitroGel ORGANOID-2, VitroGel ORGANOID-3, VitroGel ORGANOID-4) which were formulated with various bio-functional ligands, mechanical strengths, and degradability to fulfill the needs of different organoid culture conditions. Use the Discovery Kit to screen which organoid hydrogel version works best for your organoid culture.
VitroGel ORGANOID hydrogels are ready to use at room temperature and have a neutral pH, transparent, permeable, and compatible with different imaging systems. The solution transforms into a hydrogel matrix by simply mixing with the cell culture medium. VitroGel ORGANOID hydrogels are good for both 3D cell culture and 2D hydrogel coating applications.
The VitroGel ORGANOID hydrogels can work in conjunction with VitroGel STEM (a xeno-free hydrogel for 3D static suspension cultures and scale-up of human pluripotent stem cells) by transferring stem cell spheroids cultured in VitroGel STEM to VitroGel ORGANOID hydrogels for organoid differentiation. See Xeno-free 3D Organoid Workflow B. Key growth factors and molecules can be directly mixed with the hydrogel matrix or by adding on the top of the hydrogel. Organoids cultured in this system can be easily harvested out with our VitroGel Cell Recovery Solution. VitroGel ORGANOID hydrogels provide a well-defined 3D microenvironment for the future of personalized medicine.
|Formulation||Xeno-free, functional hydrogel|
|Operation||Ready-to-use at room temperature|
|Biocompatibility||Biocompatible, safe for animal studies|
|Injection||Injectable hydrogel for in vivo studies and lab automation|
|Cell Harvesting||Easy cell recovery using VitroGel Cell Recovery Solution|
|Storage||Store at 2-8°C. Ships at ambient temperature|
|Sizes||Single Vial: 10 mL
Discovery Kit: (2 mL) each of ORGANOID-1, ORGANOID-2, ORGANOID-3, ORGANOID-4
|Number of Uses||(10 mL) 300 uses at 50 µL/test
(2 mL) 60 uses at 50 µL/test
Harvest organoids from the hydrogel in 20 minutes with high cell viability. Enzyme-free system.
Handbooks and Resources
Video Protocols & Demonstrations
VIDEO PROTOCOL TIP
VIDEO PROTOCOL TIP
VIDEO PROTOCOL TIP
VIDEO PROTOCOL TIP
VitroGel Organoid Methods vs Natural ECM Methods
VitroGel ORGANOID system can culture organoids in variety of methods:
- 2D hydrogel coating
- 3D cell culture encapsulation
- Hydrogel-Cell droplet (A unique method only to VitroGel ORGANOID)
Review all the following VitroGel ORGANOID protocol methods compared to the natural ECM methods and choose the one that best fits your project
2D Hydrogel Coating
Add cells on top of hydrogel for optimal interactions among cells, hydrogel, and medium.
3D Cell Culture Encapsulation
Encapsulate cells within the hydrogel for excellent mechanical support and the cell-matrix interactions.
Create a VitroGel-Cell droplet. This is a unique culture method only to the VitroGel system for generating great cell-matrix interactions and excellent medium penetration for organoid formation and scale-up.
Data and References
Xeno-free 3D Organoid Workflow A:
Using VitroGel ORGNAOID for organoid culture and maturation
Figure 1. Mouse intestinal organoid culture on VitroGel ORGANOID and Matrigel.
Small organoids recovered from liquid nitrogen were directly seeded with VitroGel and Matrigel, respectively. Images show the growth of mouse intestinal organoid from day 0 to day 14.
Xeno-free 3D Organoid Workflow B:
Start from iPSC spheroids for stem cell differentiation and organoid formation.
(Diagram below shows culturing human intestinal organoid from stem cell spheroids)
Figure 2. Culture human intestinal organoid from stem cell spheroids.
Human iPSCs recovered from liquid nitrogen were seeded with VitroGel STEM for static suspension culture (Refer to protocol of VitroGel STEM Cat# VHM02). The high-quality stem cell spheroids formed within 3-5 days with full pluripotent properties (showing the positive markers of SSEA4, OCT4, SOX2, and TRA-1-60). The spheroids were harvested by centrifuging (100 x g, 3 min), and resuspended with VitroGel STEM in endoderm differentiation medium for 3 days. The endoderm cell spheroids were then harvested by centrifuging (100 x g, 3 min), and resuspended with VitroGel STEM in mid/hindgut differentiation medium for 3-4 days. The mid/hindguts were collected by centrifuging (100 x g, 3 min), and characterized with CDX2 and E-Cadherin. The mid/hindguts were resuspended with organoid formation medium and mixed with VitroGel ORGANOID (following the protocol of VitroGel ORGANOID) for organoid formation and long-term maturating culture.
Figure 3. VitroGel ORGANOID improves immune cell-epithelial interactions in a co-culture model of Human Gastric Organoids (HGO) and Dendritic Cells.
The videos show a 20 h timelapse of mCherry-expressing human gastric organoids on the GOFlowChip co-cultured with CellTracker Green-labeled Monocyte-derived dendritic cells for 20 h. Organoids are embedded in VitoGel ORGANOID-3 (left) and Matrigel(right). Poor movement of MoDCs (green) when co-cultured with and HGOs (red) embedded in Matrigel. Improved migration of MoDCs (green) towards HGOs (red) embedded in VitroGel ORGANOID-3.
(Video credit to Barkan Sidar, Michelle Cherne, Jim Wilking, and Diane Bimczok from Montana State University).
Organoid 2D Hydrogel Coating Method
Figure 4. Organoids from breast cancer PDX cultured on VitroGel ORGANOID.
Cells were cultured on top of 2D hydrogel coating surface for 7 days.
Figure 5. Cerebral organoid culture with VitroGel ORGANOID and Matrigel comparison.
- Cherne, M. D., Sidar, B., Sebrell, T. A., Sanchez, H. S., Heaton, K., Kassama, F. J., Roe, M. M., Gentry, A. B., Chang, C. B., Walk, S. T., Jutila, M., Wilking, J. N., & Bimczok, D. (2021).A Synthetic Hydrogel, VitroGel® ORGANOID-3, Improves Immune Cell-Epithelial Interactions in a Tissue Chip Co-Culture Model of Human Gastric Organoids and Dendritic Cells. Frontiers in Pharmacology, (12). https://doi.org/10.1016/j.intimp.2021.107822
- Powell K. Adding depth to cell culture. Science, 356(6333), 96–98. https://doi.org/10.1126/science.356.6333.96
- References for more VitroGel hydrogels >
Matrigel is a trademark of Corning Incorporated.