A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease ...

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease modeling, soft robotics and more, according to researchers.

We will focus on recent advances using biomaterial hydrogels to study cell–substrate interactions and their use in cell transplantation and bioactive molecule delivery to the injured CNS ...

The development of LivGels at Penn State offers a breakthrough in biomaterials, mimicking ECMs for improved tissue repair and ...

The Instructive Biomaterials for Regenerative Engineering Lab leverages materials science, micro-nano fabrication, and organic chemistry to develop hydrogel-based biomaterials with tunable ...

We engineer these material properties with biological questions in mind to elucidate fundamental mechanobiological interactions and to create new designer biomaterials for personalized medicine.

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease modeling, soft robotics and more, according to researchers at Penn State.

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease ...

This hydrogel utilizes harmless visible light ... The research was recently published in the journal Biomaterials. Bone defects, which arise from various causes such as trauma, infection, and ...

Moreover, the role of inflammation in this process has been recently recognized as critical for dictating disease progression. We use hydrogel biomaterials to recapitulate sex-specific healthy and ...

Zustiak’s primary research interests are in hydrogel biomaterials and tissue engineering, with emphasis on developing novel biomaterials as cell scaffolds and drug screening platforms, and elucidating ...