[HTML][HTML] Chitosan based thermoresponsive hydrogel containing graphene oxide for bone tissue repair
Abstract Chitosan (CS), glycerophosphate (GP) based injectable hydrogels are explored for
its implications in bone defect healing and regeneration. Both acellular and cell laden CS …
its implications in bone defect healing and regeneration. Both acellular and cell laden CS …
Osteogenic potential of graphene in bone tissue engineering scaffolds
Scaffolds are physical substrates for cell attachments, proliferation, and differentiation,
ultimately leading to tissue regeneration. Current literature validates tissue engineering as …
ultimately leading to tissue regeneration. Current literature validates tissue engineering as …
Graphene oxide enhances chitosan-based 3D scaffold properties for bone tissue engineering
The main goal of bone tissue engineering (BTE) is to refine and repair major bone defects
based on bioactive biomaterials with distinct properties that can induce and support bone …
based on bioactive biomaterials with distinct properties that can induce and support bone …
Three-dimensional high-porosity chitosan/honeycomb porous carbon/hydroxyapatite scaffold with enhanced osteoinductivity for bone regeneration
C Dai, Y Li, W Pan, G Wang, R Huang… - ACS Biomaterials …, 2019 - ACS Publications
Three-dimensional honeycomb porous carbon (HPC) has attracted increasing attention in
bioengineering due to excellent mechanical properties and a high surface-to-volume ratio …
bioengineering due to excellent mechanical properties and a high surface-to-volume ratio …
Electrical stimulation-induced osteogenesis of human adipose derived stem cells using a conductive graphene-cellulose scaffold
The versatile properties of graphene-based materials are enabling various tissue
regeneration, towards meeting an ever increasing demand for replacement tissues due to …
regeneration, towards meeting an ever increasing demand for replacement tissues due to …
Enhanced cell functions on graphene oxide incorporated 3D printed polycaprolactone scaffolds
JM Unagolla, AC Jayasuriya - Materials Science and Engineering: C, 2019 - Elsevier
For tissue engineering applications, a porous scaffold with an interconnected network is
essential to facilitate the cell attachment and proliferation in a three dimensional (3D) …
essential to facilitate the cell attachment and proliferation in a three dimensional (3D) …
Nanosheets-incorporated bio-composites containing natural and synthetic polymers/ceramics for bone tissue engineering
SP Adithya, DS Sidharthan, R Abhinandan… - International Journal of …, 2020 - Elsevier
Bone is a highly integrative and dynamic tissue of the human body that is regularly modeled
and remodeled by bone cells such as osteoblasts and osteoclasts. When a fraction of a …
and remodeled by bone cells such as osteoblasts and osteoclasts. When a fraction of a …
Chitosan/silver nanoparticle/graphene oxide nanocomposites with multi-drug release, antimicrobial, and photothermal conversion functions
In this work, we designed and fabricated a multifunctional nanocomposite system that
consists of chitosan, raspberry-like silver nanoparticles, and graphene oxide. The room …
consists of chitosan, raspberry-like silver nanoparticles, and graphene oxide. The room …
Fabrication and characterization of PHEMA–gelatin scaffold enriched with graphene oxide for bone tissue engineering
Background Growing investigations demonstrate that graphene oxide (GO) has an
undeniable impact on repairing damaged bone tissue. Moreover, it has been stated in the …
undeniable impact on repairing damaged bone tissue. Moreover, it has been stated in the …
Graphene oxide coated titanium surfaces with osteoimmunomodulatory role to enhance osteogenesis
Graphene oxide (GO) and its derivatives are currently being explored for the modification of
bone biomaterials. However, the effect of GO coatings on immunoregulation and …
bone biomaterials. However, the effect of GO coatings on immunoregulation and …