Biofabrication has attracted tremendously increasing attention in the past decades due to the
interdisciplinary techniques that facilitate the studies of biological systems. Among various
building blocks including living cells, synthetic and naturally derived polymers, etc., nano-sized
materials are interesting components because of their small sizes, aspect ratios, chemical
modifiability, and many functions can be incorporated including, but not limited to magnetic,
antibiotic, diagnostic and therapeutic capabilities. Besides, nanomaterials are of great importance
in tuning the mechanics, rheology, degradability for resulting structures/scaffolds via interactions
within the matrix networks. However, nanomaterials-enabled regenerative engineering has faced
great challenges in terms of translational research for future clinical applications.
The Themed Research Topic will bring together reviews, opinions and original research works
on the topic of Nanomaterials-Enabled Biofabrication for Regenerative Engineering. The goal
of this collection is to boost advances in biofabrication enabled by nanomaterials for various
applications with a special focus on clinical translational research. The collection will help the
researchers within the academic and industrial community to gain knowledge in recent
developments by use of nanomaterials for biofabrication in regenerative engineering with a special
focus on clinical translations.
The Particular Themes we would like researchers to address include, but are not limited to:
1) Original research articles, short or comprehensive reviews, descriptive opinions, or
perspectives with the focuses on nanomaterials-based biomaterials with the-state-of-the art biofabrication techniques for regenerative engineering.
2) The most important point is to provide the current approaches in nanomaterials-enabled
biofabrication in regenerative engineering for clinical translations.
3) Appropriate data uses including ethical considerations as well as testing of different models
for data use will be included
Keywords:
Biofabrication, biomedical engineering, bioengineering, nanomaterials, soft materials, in vitro modelling
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Biofabrication has attracted tremendously increasing attention in the past decades due to the
interdisciplinary techniques that facilitate the studies of biological systems. Among various
building blocks including living cells, synthetic and naturally derived polymers, etc., nano-sized
materials are interesting components because of their small sizes, aspect ratios, chemical
modifiability, and many functions can be incorporated including, but not limited to magnetic,
antibiotic, diagnostic and therapeutic capabilities. Besides, nanomaterials are of great importance
in tuning the mechanics, rheology, degradability for resulting structures/scaffolds via interactions
within the matrix networks. However, nanomaterials-enabled regenerative engineering has faced
great challenges in terms of translational research for future clinical applications.
The Themed Research Topic will bring together reviews, opinions and original research works
on the topic of Nanomaterials-Enabled Biofabrication for Regenerative Engineering. The goal
of this collection is to boost advances in biofabrication enabled by nanomaterials for various
applications with a special focus on clinical translational research. The collection will help the
researchers within the academic and industrial community to gain knowledge in recent
developments by use of nanomaterials for biofabrication in regenerative engineering with a special
focus on clinical translations.
The Particular Themes we would like researchers to address include, but are not limited to:
1) Original research articles, short or comprehensive reviews, descriptive opinions, or
perspectives with the focuses on nanomaterials-based biomaterials with the-state-of-the art biofabrication techniques for regenerative engineering.
2) The most important point is to provide the current approaches in nanomaterials-enabled
biofabrication in regenerative engineering for clinical translations.
3) Appropriate data uses including ethical considerations as well as testing of different models
for data use will be included
Keywords:
Biofabrication, biomedical engineering, bioengineering, nanomaterials, soft materials, in vitro modelling
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.