The development of 3D printing has significantly advanced the field of bone tissue
engineering by enabling the fabrication of scaffolds that faithfully recapitulate desired …

Synthetic polymers (SyPs) have found many relevant applications niches in biomedical
engineering. Their mechanical properties, defined chemical structure, batch to batch …

Hydrogel-based depots are of growing interest for release of biopharmaceuticals; however,
a priori selection of hydrogel compositions that will retain proteins of interest and provide …

Macromolecules (proteins/peptides) have the potential for the development of new
therapeutics. Due to their specific mechanism of action, macromolecules can be …

Carboxymethyl cellulose modified with norbornene groups (NorCMC) and cellulose
nanofibrils (CNFs) produced through mechanical refining without chemical pretreatment …

Hydrogels, a class of materials with a 3D network structure, are widely used in various
applications of therapeutic delivery, particularly cancer therapy. Micro and nanogels as …

Highlights•Hydrogels provide a flexible platform for design of ocular delivery
systems.•Intraocular injection of hydrogels can be accomplished via several …

Hydrogels are a promising drug delivery system for biomedical applications due to their
biocompatibility and similarity to native tissue. Programming the release rate from hydrogels …

The efficacy of hydrogel materials used in biomedical applications is dependent on polymer
network topology and the structure of water-laden pore space. Hydrogel microstructure can …

The translation of growth factors (GFs) into clinical applications is limited by their low stability
in physiological environments. Controlled GF delivery through biomaterial vehicles provides …