Polypeptide-affined interpenetrating hydrogels with tunable physical and mechanical properties

Oveissi, Farshad; Naficy, Sina; Le, Thi Yen Loan; Fletcher, David F.; Dehghani, Fariba

Polypeptide-affined interpenetrating hydrogels with tunable physical and mechanical properties

2019

Oveissi, Farshad | Naficy, Sina | Le, Thi Yen Loan | Fletcher, David F. | Dehghani, Fariba

Novel hydrogels with tunable mechanical properties similar to human soft tissue have increasing applications in biomedicine, soft robotics, and biocompatible electronics. However, most of these materials require multiple-step fabrication, are not robust, and compromise bioactivity. Thus, aiming to address these shortfalls, herein, we report a versatile hydrogel system with tunable properties and a facile one-pot fabrication process. The hydrogel system is comprised of a hydrogen-bonded hydrophilic polyurethane (HPU) network and a loosely crosslinked copolymer crosslinked with long chain crosslinkers and decorated with succinimide groups. The active succinimide sites conjugate to proteins, such as bovine serum albumin as a model protein, providing additional biocompatibility and controlled release of growth factors and peptides. The interpenetrating nature of this hydrogel system provides a high degree of freedom over mechanical and physical properties by adjusting the ratio of networks and the composition of the second network. Through this process, a library of biocompatible hydrogels with stiffness ranging from 1 to more than 200 kPa was developed. Moreover, it was found that the succinimide groups impact the degree of crosslinking and contribute to the controlled release of peptides.

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