Abstract Poly (N-isopropylacrylamide)(PNIPAAm) is the most well-known and widely used
stimuli-responsive polymer in the biomedical field owing to its ability to undergo temperature …

Cell aggregates, including sheets and spheroids, represent a simple yet powerful model
system to study both biochemical and biophysical intercellular interactions. However, it is …

In the last four decades, several researchers worldwide have routinely and meticulously
exercised cell culture experiments in two‐dimensional (2D) platforms. Using traditionally …

Thermoresponsive hydrogel-based wound dressings with an incorporated antimicrobial
agent can be fabricated employing 3D printing technology. A novel printable ink containing …

It is an emerging research area to integrate scaffolding materials in microfluidic devices for
3D cell culture (organs-on-a-chip). The technology of organs-on-a-chip holds the potential to …

Polymer nanofibers have exceptionally high surface area. This is advantageous compared
to bulk polymeric structures, as nanofibrils increase the area over which materials can be …

Tissue engineering has been a subject of extensive scientific exploration in the last two
decades making gradual inroads into clinical studies as well. Along with regenerative cells …

Mimicking the native three-dimensional microenvironment is of crucial importance when
biofabricating a new healthcare material. One aspect of the native tissue that is often omitted …

Electrospinning is known to be an effective and straightforward technique to fabricate
polymer non woven matrices made of nano and microfibers. Micro patterned morphology of …

Four-dimensional (4D) printing, as a newly evolving technology to formulate drug delivery
devices, displays distinctive advantages that can autonomously monitor drug release …