Degradable polymers are used widely in tissue engineering and regenerative medicine.
Maturing capabilities in additive manufacturing coupled with advances in orthogonal …

Biodegradable poly (lactic acid)(PLA) presents suitable physicochemical properties and
biocompatibility for biomedical engineering. However, PLA has some drawbacks, such as …

Fabrication of well-ordered and bio-mimetic scaffolds is one of the most important research
lines in tissue engineering. Different techniques have been utilized to achieve this goal …

Chronic wound healing is an intricate time-consuming process (healing time∼ 12 weeks),
susceptible to external biological attack such as bacteria (eg E. coli, B. subtilis, S. aureus …

Surgical prostheses and implants used in hard-tissue engineering should satisfy all the
clinical, mechanical, manufacturing, and economic requirements in order to be used for load …

The dawn of 3D printing in medicine has given the field the hope of vitality in many patients
fighting a multitude of diseases. Also entitled bioprinting, this appertains to its sequential …

Alginate is a natural polymer of marine origin and, due to its exceptional properties, has
great importance as an essential component for the preparation of hydrogels and scaffolds …

Due to microbial infections dramatically affect cell survival and increase the risk of implant
failure, scaffolds produced with antimicrobial materials are now much more likely to be …

Introduction It is urgently needed to develop composite bone scaffold with excellent
mechanical properties and bioactivity in bone tissue engineering. Combining graphene …

Tissue Engineering (TE) is an interdisciplinary field that encompasses materials science in
combination with biological and engineering sciences. In recent years, an increase in the …