Degradable polymers (both biomacromolecules and several synthetic polymers) for
biomedical applications have been promising very much in the recent past due to their low …

The field of neural tissue engineering has undergone a revolution due to advancements in
3D printing technology. This technology now enables the creation of intricate neural tissue …

Triple positive breast cancer (TPBC) is one of the most aggressive breast cancer. Due to the
unique cell phenotype, aggressiveness, metastatic potential and lack of receptors or targets …

The development of biomedical applications is a transdisciplinary field that in recent years
has involved researchers from chemistry, pharmacy, medicine, biology, biophysics, and …

Cancer is one of the major diseases leading to death worldwide, and the fight against the
disease is still challenging. Cancer diseases are usually associated with increased oxidative …

Bone defects caused by trauma, tumor resection, and infections are significant clinical
challenges. Excessive reactive oxygen species (ROS) usually accumulate in the defect area …

A fundamental outcome of bone tissue engineering is the regeneration of bone defects
presenting large dimensions. A promising solution in biomedical practice is the implantation …

Plant fibers possess high strength, high fracture toughness and elasticity, and have proven
useful because of their diversity, versatility, renewability, and sustainability. For biomedical …

A newly developed drug-delivery method involves using cell membranes to encapsulate
drug-loaded nanoparticles, creating biomimetic 'nanodecoys'[1, 2]. These novel …

The objective of the study was to explore the feasibility of a new drug delivery system using
laponite (LAP) and cyclic poly (ethylene glycol)(cPEG). Variously shaped and flexible hybrid …