Recent years have witnessed extraordinary progress in tissue repair, driven primarily by innovations in biomaterial design and biofabrication. In ...

In a new study, researchers are investigating the types of material used in bone reconstruction to see which one works best. Bone injuries in the face and skull -- known as craniomaxillofacial defects ...

Our interdisciplinary research program focuses on developing advanced materials and bioengineering solutions for unmet clinical needs. We work at the interface of chemistry, materials science, ...

Silk fibroin and chitosan biomaterials are candidates for biomedical applications due to their biocompatibility and biodegradability. This webinar will review the ability of silk fibroin to ...

In the elderly, a multitude of factors contribute to diminished bone regeneration capabilities, including a reduction in the self-renewal and differentiation abilities of mesenchymal stem cells, an ...

Biomaterials, natural polymers, tissue engineering, tissue models, host-tissue interactions, biomaterial design for clinical translation Supported by a deep knowledge in structural biopolymer ...

Although medical device engineers have been utilizingtextile structures for decades, their complexity is increasing as biomaterialand fabric-forming options become more abundant. Some well-known ...

Biomaterials for Design explores the characteristics of various bioplastics and their potential application within design. A collaboration between science and design, we created a spectrum of ...

Next-generation metals, polymers, ceramics, and bioresorbables accelerate personalized implants, minimally invasive surgery, ...

Bone injuries in the face and skull—known as craniomaxillofacial defects—can be caused by sports injuries, vehicle accidents, or battlefield injuries. Repairing such defects is complicated because ...