Tannic acid: a versatile polyphenol for design of biomedical hydrogels
Tannic acid (TA), a natural polyphenol, is a hydrolysable amphiphilic tannin derivative of
gallic acid with several galloyl groups in its structure. Tannic acid interacts with various …
gallic acid with several galloyl groups in its structure. Tannic acid interacts with various …
Polyphenol scaffolds in tissue engineering
Polyphenols are a class of ubiquitous compounds distributed in nature, with fascinating
inherent biocompatible, bioadhesive, antioxidant, and antibacterial properties. The unique …
inherent biocompatible, bioadhesive, antioxidant, and antibacterial properties. The unique …
Advanced collagen‐based biomaterials for regenerative biomedicine
In recent decades, collagen is one of the most versatile biomaterials used in biomedical
applications, mostly due to its biomimetic and structural composition in the extracellular …
applications, mostly due to its biomimetic and structural composition in the extracellular …
Extrusion bioprinting of soft materials: An emerging technique for biological model fabrication
T Jiang, JG Munguia-Lopez, S Flores-Torres… - Applied Physics …, 2019 - pubs.aip.org
Bioprinting has attracted increasing attention in the tissue engineering field and has been
touted to potentially become the leading technology to fabricate, and regenerate, tissues …
touted to potentially become the leading technology to fabricate, and regenerate, tissues …
Advances and Current Challenges in Intestinal in vitro Model Engineering: A Digest
J Costa, A Ahluwalia - Frontiers in bioengineering and biotechnology, 2019 - frontiersin.org
The physiological environment of the intestine is characterized by its variegated
composition, numerous functions and unique dynamic conditions, making it challenging to …
composition, numerous functions and unique dynamic conditions, making it challenging to …
Combinations of photoinitiator and UV absorber for cell-based digital light processing (DLP) bioprinting
Digital light processing (DLP) bioprinting, which provides predominant speed, resolution,
and adaptability for fabricating complex cell-laden three-dimensional (3D) structures …
and adaptability for fabricating complex cell-laden three-dimensional (3D) structures …
Microfluidic lumen-based systems for advancing tubular organ modeling
Microfluidic lumen-based systems are microscale models that recapitulate the anatomy and
physiology of tubular organs. These technologies can mimic human pathophysiology and …
physiology of tubular organs. These technologies can mimic human pathophysiology and …
Collagen/bioceramic-based composite bioink to fabricate a porous 3D hASCs-laden structure for bone tissue regeneration
To successfully achieve the porous cell-blocks, a bioink is a prerequisite requirement.
However, although various hydrogel-based bioinks have been applied, a …
However, although various hydrogel-based bioinks have been applied, a …
Engineering hydrogels for the development of three-dimensional in vitro models
The superiority of in vitro 3D cultures over conventional 2D cell cultures is well recognized
by the scientific community for its relevance in mimicking the native tissue architecture and …
by the scientific community for its relevance in mimicking the native tissue architecture and …
The emergence of 3D bioprinting in organ-on-chip systems
Understanding complex cell–cell interactions and physiological microenvironments is critical
for the development of new therapies for treating human diseases. Current animal models …
for the development of new therapies for treating human diseases. Current animal models …