Thermoresponsive polymers hold great potential in the biomedical field, since they enable
the fabrication of cell sheets, in situ drug delivery and 3D-printing under physiological …

Thermoresponsive surfaces, prepared by grafting of poly (N-isopropylacrylamide)(PIPAAm)
or its copolymers, have been investigated for biomedical applications. Thermoresponsive …

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 …

After the biotech medicine era, regenerative medicine is expected to be an advanced
medicine that is capable of curing patients with difficult-to-treat diseases and physically …

Regenerative medicine is a burgeoning field that is important to combat challenging
diseases and functional impairments. Compared with traditional cell therapies with evident …

In recent years, scaffold‐free bio‐3D printing using cell aggregates (spheroids) as “bio‐inks”
has attracted increasing attention as a method for 3D cell construction. Bio‐3D printing uses …

Periodontitis is a inflammation induced by a bacterial infection that causes the destruction of
the attachment apparatus of dental roots. Several materials, such as bone graft materials …

Novel thermoresponsive polymer brush surfaces for harvesting cell sheet were fabricated by
the surface-initiated RAFT polymerization of N-isopropylacrylamide (IPAAm) on azoinitiator …

Newly developed fabrication technique of thermoresponsive surface using RAFT-mediated
block copolymerization and photolithography achieved stripe-like micropatterning of poly (N …

The development and application of the tissue engineering technique has shown a
significant potential in regenerative medicine. However, the limitations of conventional tissue …