Recent advances on bioprinted gelatin methacrylate-based hydrogels for tissue repair
Bioprinting of body tissues has gained great attention in recent years due to its unique
advantages, including the creation of complex geometries and printing the patient-specific …
advantages, including the creation of complex geometries and printing the patient-specific …
Bioprinting on organ-on-chip: development and applications
Organs-on-chips (OoCs) are microfluidic devices that contain bioengineered tissues or parts
of natural tissues or organs and can mimic the crucial structures and functions of living …
of natural tissues or organs and can mimic the crucial structures and functions of living …
Characterizing the effects of synergistic thermal and photo-cross-linking during biofabrication on the structural and functional properties of gelatin methacryloyl (GelMA …
Gelatin methacryloyl (GelMA) hydrogels have emerged as promising and versatile
biomaterial matrices with applications spanning drug delivery, disease modeling, and tissue …
biomaterial matrices with applications spanning drug delivery, disease modeling, and tissue …
Field-assisted additive manufacturing of polymeric composites
Additive manufacturing (AM) is a transformative manufacturing approach capable of building
parts with freeform and complex geometries. Polymers come with a wide range of material …
parts with freeform and complex geometries. Polymers come with a wide range of material …
Rationally designed anisotropic and auxetic hydrogel patches for adaptation to dynamic organs
P Chansoria, J Blackwell, EL Etter… - Advanced Functional …, 2022 - Wiley Online Library
Current hydrogel or fabric patches for organ repair are generally not designed to conform to
the complex mechanics of dynamic organs such as the lung or heart. This study presents a …
the complex mechanics of dynamic organs such as the lung or heart. This study presents a …
Acoustic-assisted 3D printing based on acoustofluidic microparticles patterning for conductive polymer composites fabrication
Multifunctional composites have been widely utilized in soft robots, electronics, batteries,
and biomedicine. Meanwhile, several fabrication processes have been proposed to …
and biomedicine. Meanwhile, several fabrication processes have been proposed to …
Multiscale anisotropic tissue biofabrication via bulk acoustic patterning of cells and functional additives in hybrid bioinks
P Chansoria, S Asif, N Gupta… - Advanced …, 2022 - Wiley Online Library
Recapitulation of the microstructural organization of cellular and extracellular components
found in natural tissues is an important but challenging feat for tissue engineering, which …
found in natural tissues is an important but challenging feat for tissue engineering, which …
Effects of surface patterning and topography on the cellular functions of tissue engineered scaffolds with special reference to 3D bioprinting
The extracellular matrix (ECM) of the tissue organ exhibits a topography from the nano to
micrometer range, and the design of scaffolds has been inspired by the host environment …
micrometer range, and the design of scaffolds has been inspired by the host environment …
Untethered: Using remote magnetic fields for regenerative medicine
Magnetic fields are increasingly being used for the remote, noncontact manipulation of cells
and biomaterials for a wide range of regenerative medical (RM) applications. They have …
and biomaterials for a wide range of regenerative medical (RM) applications. They have …
Regenerating dynamic organs using biomimetic patches
The regeneration of dynamic organs remains challenging because they are intrinsically
anisotropic and undergo large volumetric deformation during normal or pathological …
anisotropic and undergo large volumetric deformation during normal or pathological …