gelatin

Evaluating 3D printed Gelatin-Hydroxyapatite-Reduced Graphene Oxide Nanocomposites

As bone regeneration continues to be a source of enormous potential—and challenge—in tissue engineering, scientists around the world are experimenting with a wide range of techniques and materials. In ‘Physical…

3D Printing Scaffolds for Regeneration of Tissue After Mastectomies & Tissue Damage

Researchers from Belgium and Germany explore topics in bioprinting, evaluating biocompatible structures in the recently published ‘Evaluation of 3D Printed Gelatin-Based Scaffolds with Varying Pore Size for MSC-Based Adipose Tissue…

Omid Afarinan is Bioprinting in Iran

When we were assembling our bioprinting world map, we omitted some companies. We are adding to that map and will continue to do so until we have everyone. One of…

Colombian Researchers Study Potential for SIS-Based Photocrosslinking in Bioinks

Colombian researchers performed a recent study, outlined in ‘Formulation and Characterization of a SIS-Based Photocrosslinkable Bioink,’ explaining the possible value in crosslinking to create better materials for 3D printing cells….

Mexico: Researchers Test 3D Printed Alginate/Gelatin Hydrogels

Alginate, often used in research as it can be molded into stable structures, now plays a part in a study performed by scientists in Mexico, creating porous networks with hydrogels…

Biological Gradients Help Researchers Understand More in Bioprinting

Gradients present in structures today help us understand more about their properties, and this is critical in areas like bioprinting. Through replicating gradients we can begin to make accurate high…

Bioprinting 101: Part 8, Gelatin

Collagen Based Scaffold Most biomaterials all are vastly different than each other in interesting ways. For those who have kept up with this series, it is safe to assume we…