GelTech Applications
GelTech Applications
Tissue Engineering
Tissue Engineering
Harnessing hydrogels to support cell growth, scaffold development, and regenerative therapies with precision and reliability.
Harnessing hydrogels to support cell growth, scaffold development, and regenerative therapies with precision and reliability.
Tissue engineering relies on biomaterials that support cell growth, remodeling, and eventual integration with native tissues.
Tissue engineering relies on biomaterials that support cell growth, remodeling, and eventual integration with native tissues.
Tissue engineering relies on biomaterials that support cell growth, remodeling, and eventual integration with native tissues.
Why Swelling and Degradation Matter:
Why Swelling and Degradation Matter:
Why Swelling and Degradation Matter:
In tissue engineering, swelling and degradation dictate how scaffolds support cell growth, nutrient diffusion, and proper tissue regeneration.
Cell Growth & Nutrient Flow
A scaffold’s swelling can affect how cells populate it and how nutrients diffuse.
Cell Growth & Nutrient Flow
A scaffold’s swelling can affect how cells populate it and how nutrients diffuse.
Cell Growth & Nutrient Flow
A scaffold’s swelling can affect how cells populate it and how nutrients diffuse.
Cell Growth & Nutrient Flow
A scaffold’s swelling can affect how cells populate it and how nutrients diffuse.
Scaffold Stability
Its degradation must be tuned to match tissue regrowth rates—too fast, and the scaffold disappears before healing is complete; too slow, and it blocks tissue remodeling.
Scaffold Stability
Its degradation must be tuned to match tissue regrowth rates—too fast, and the scaffold disappears before healing is complete; too slow, and it blocks tissue remodeling.
Scaffold Stability
Its degradation must be tuned to match tissue regrowth rates—too fast, and the scaffold disappears before healing is complete; too slow, and it blocks tissue remodeling.
Scaffold Stability
Its degradation must be tuned to match tissue regrowth rates—too fast, and the scaffold disappears before healing is complete; too slow, and it blocks tissue remodeling.
Scaffold Stability
Its degradation must be tuned to match tissue regrowth rates—too fast, and the scaffold disappears before healing is complete; too slow, and it blocks tissue remodeling.
Example Applications
Example Applications
How GelTech Helps:
Our instruments quantify swelling behavior, porosity changes, and mass loss over time, under biologically relevant conditions.
Cardiac Patches
Cardiac Patches
Cardiac Patches
Cardiac Patches
Osteochondral (bone-cartilage) Scaffolds
Osteochondral (bone-cartilage) Scaffolds
Osteochondral (bone-cartilage) Scaffolds
Skin Graft Substitutes
Skin Graft Substitutes
Skin Graft Substitutes
Osteochondral (bone-cartilage) Scaffolds
Osteochondral (bone-cartilage) Scaffolds
Skin Graft Substitutes
Skin Graft Substitutes
Understanding and tuning material dynamics helps researchers create scaffolds that accelerate healing and improve implant success.
Understanding and tuning material dynamics helps researchers create scaffolds that accelerate healing and improve implant success.
Understanding and tuning material dynamics helps researchers create scaffolds that accelerate healing and improve implant success.
Contact
Contact
Get in touch
For questions about our technology, product demos, or partnership opportunities, reach out to our team. We're here to support your work in hydrogel research and help you take your lab capabilities to the next level.
Office
GelTech Labs Inc. 9510 Innovation Ln, La Jolla, CA 92093
sinan@geltechlabs.co
Telephone
+1 (646) 565-7155
Get in touch
For questions about our technology, product demos, or partnership opportunities, reach out to our team. We're here to support your work in hydrogel research and help you take your lab capabilities to the next level.
Office
9510 Innovation Ln, La Jolla, CA 92093
9510 Innovation Ln, La Jolla,
CA 92093
sinan@goltech.co
Telephone
+1 (646) 565-7155