Nanohybrid scaffolds of chitosan have been designed for controlled drug delivery and bone
regeneration. Sulfonated graphene oxide has been used to develop the nanohybrids …

The novel chitosan nanohybrid hydrogel and scaffold have been developed with high
mechanical strength and tailor the drug release ability for their applications in the biomedical …

A professional guide to 3D and 4D printing technology in the biomedical and
pharmaceutical fields 3D and 4D Printing in Biomedical Applications offers an authoritative …

An injectable hydrogel of chemically modified chitosan has been developed for controlled
drug delivery application. Highly hydrophilic chitosan is chemically modified through grafting …

Hydrogels and porous lyophilized hydrogels have been designed using a polyurethane
brush with a chitosan backbone through grafting. The degree of substitution of grafting has …

Biofabrication is a multidisciplinary research field combining principles from engineering,
biology, and material sciences through the use of manufacturing processes to create …

Candida species is one of the pathogenic fungi of the eye responsible for keratitis that
frequently causes vision impairment and blindness. Effective treatment requires long-term …

Natural polymers have greatly impacted the advancement of modern medicine. Natural
polymer-based biomaterials are biodegradable. A significant advantage of natural polymers …

Chitin, a bioactive, antibacterial and biodegradable polymer is commonly utilized by diverse
marine organisms as the main scaffold material during biomineralization. Due to its …

Polymers derived from microbial sources have emerged as promising materials for tissue
engineering owing to their biodegradability, biocompatibility, wide availability, and tailorable …