A myoblast-laden collagen bioink with fully aligned Au nanowires for muscle-tissue regeneration
Contact guidance can promote cell alignment and is thus widely employed in tissue
regeneration. In particular, skeletal muscle consists of long fibrous bundles of multinucleated …
regeneration. In particular, skeletal muscle consists of long fibrous bundles of multinucleated …
3D bioprinting of functional cell-laden bioinks and its application for cell-alignment and maturation
Biomedical scaffolds should provide physical, biological, and topographical cues to seeded
or laden cells to successfully mimic the physiochemical properties of native tissues. Cell …
or laden cells to successfully mimic the physiochemical properties of native tissues. Cell …
Bioprinting 3D muscle tissue supplemented with endothelial-spheroids for neuromuscular junction model
The neuromuscular junction (NMJ) plays a critical role in muscle contraction, and its
dysfunction can result in various neuromuscular disorders. In vitro models for studying NMJ …
dysfunction can result in various neuromuscular disorders. In vitro models for studying NMJ …
Micro/nano-hierarchical scaffold fabricated using a cell electrospinning/3D printing process for co-culturing myoblasts and HUVECs to induce myoblast alignment and …
Human skeletal muscle is composed of intricate anatomical structures, including uniaxially
arranged myotubes and widely distributed blood capillaries. In this regard, vascularization is …
arranged myotubes and widely distributed blood capillaries. In this regard, vascularization is …
[HTML][HTML] A skeleton muscle model using GelMA-based cell-aligned bioink processed with an electric-field assisted 3D/4D bioprinting
The most important requirements of biomedical substitutes used in muscle tissue
regeneration are appropriate topographical cues and bioactive components for the induction …
regeneration are appropriate topographical cues and bioactive components for the induction …
3D cell printing of functional skeletal muscle constructs using skeletal muscle‐derived bioink
Engineered skeletal muscle tissues that mimic the structure and function of native muscle
have been considered as an alternative strategy for the treatment of various muscular …
have been considered as an alternative strategy for the treatment of various muscular …
Self-aligned myofibers in 3D bioprinted extracellular matrix-based construct accelerate skeletal muscle function restoration
To achieve rapid skeletal muscle function restoration, many attempts have been made to
bioengineer functional muscle constructs by employing physical, biochemical, or biological …
bioengineer functional muscle constructs by employing physical, biochemical, or biological …
Anisotropically aligned cell‐laden nanofibrous bundle fabricated via cell electrospinning to regenerate skeletal muscle tissue
For muscle regeneration, a uniaxially arranged micropattern is important to mimic the
structure of the natural extracellular matrix. Recently, cell electrospinning (CE) has been …
structure of the natural extracellular matrix. Recently, cell electrospinning (CE) has been …
Aligned chitosan-based nanofibers for enhanced myogenesis
A Cooper, S Jana, N Bhattarai, M Zhang - Journal of materials …, 2010 - pubs.rsc.org
Tissue-engineered nanofibrous matrices can potentially serve as an implantable scaffold for
the reconstruction of damaged or lost tissue by regulating cell proliferation, organization …
the reconstruction of damaged or lost tissue by regulating cell proliferation, organization …
Nanofiber yarn/hydrogel core–shell scaffolds mimicking native skeletal muscle tissue for guiding 3D myoblast alignment, elongation, and differentiation
Designing scaffolds that can mimic native skeletal muscle tissue and induce 3D cellular
alignment and elongated myotube formation remains an ongoing challenge for skeletal …
alignment and elongated myotube formation remains an ongoing challenge for skeletal …