Abstract 4D bioprinting is the next-generation additive manufacturing-based fabrication
platform employed to construct intricate, adaptive, and dynamic soft and hard tissue …

4D printing has emerged as a transformative technology in the field of biomedical
engineering, offering the potential for dynamic, stimuli-responsive structures with …

The design and development of nanofibrous biotextiles have aroused much interest in the
fields of tissue engineering and regenerative medicine, because they not only possess …

The high throughput deposition of microscale objects with precise spatial arrangement
represents a key step in microfabrication technology. This can be done by creating physical …

Over the past few decades, additive manufacturing (AM) has become a reliable tool for
prototy** and low-volume production. In recent years, the market share of such products …

Photo‐crosslinkable platelet lysate (PL)‐based hydrogels have been proven to support
human‐derived cell cultures owing to their high content of bioactive molecules, such as …

Recent advancements in 3D bioprinting and microfluidic lab-on-chip systems offer promising
solutions to the limitations of traditional animal models in biomedical research. Three …

The eye is one of the most important organs in the human body providing critical information
on the environment. Many corneal diseases can lead to vision loss affecting the lives of …

Recent advances in both cardiac tissue engineering and hearts‐on‐a‐chip are grounded in
new biomaterial development as well as the employment of innovative fabrication …

A modular and 3D compartmentalized microfluidic system with electrospun porous
membranes (PMs) for epithelialized organ-on-a-chip systems is presented. Our novel …