This article provides insights into hydrogels of the most promising biodegradable natural
polymers and their mechanisms of degradation, highlighting the different possibilities of …

Wound healing is a crucial but complex process that represents an onerous burden on both
individuals and the healthcare system in the alarming growth of chronic diseases. Infection …

The compositional formulations and the optimization of process parameters to fabricate
hydrogel scaffolds with urological tissue-mimicking biophysical properties are not yet …

The treatment of bone defects remains a great clinical challenge. With the development of
science and technology, bone tissue engineering technology has emerged, which can …

Organoids, self-organized structures derived from stem cells cultured in a specific three-
dimensional (3D) in vitro microenvironment, have emerged as innovative platforms that …

Bone and cartilage tissues are essential for movement and structure, yet diseases like
osteoarthritis affect millions. Traditional therapies have limitations, necessitating innovative …

Abstract 3D bioprinting is a rapidly evolving field that has seen significant advancements in
technologies, materials, and strategies. It enables the production of living tissues and …

Macroporous hydrogel scaffolds are widely used in tissue engineering to promote cell
growth and proliferation. Aiming to enhance cell seeding efficiency and facilitate the …

Three-dimensional (3D) models with improved biomimicry are essential to reduce animal
experimentation and drive innovation in tissue engineering. In this study, we investigate the …

Microfluidics represents a methodology facilitating the manipulation of minute fluid volumes
via microchannels, with wide-ranging applications across biomedical and pharmaceutical …