Hydrogel-based fiber biofabrication techniques for skeletal muscle tissue engineering
The functional capabilities of skeletal muscle are strongly correlated with its well-arranged
microstructure, consisting of parallelly aligned myotubes. In case of extensive muscle loss …
microstructure, consisting of parallelly aligned myotubes. In case of extensive muscle loss …
[HTML][HTML] Biofabrication of natural hydrogels for cardiac, neural, and bone Tissue engineering Applications
Natural hydrogels are one of the most promising biomaterials for tissue engineering
applications, due to their biocompatibility, biodegradability, and extracellular matrix …
applications, due to their biocompatibility, biodegradability, and extracellular matrix …
Extrusion bioprinting: Recent progress, challenges, and future opportunities
Extrusion-based bioprinting involves extrusion of bioinks through nozzles to create three-
dimensional structures. The bioink contains living organisms with biological relevance for …
dimensional structures. The bioink contains living organisms with biological relevance for …
Bioinks and bioprinting strategies for skeletal muscle tissue engineering
M Samandari, J Quint… - Advanced …, 2022 - Wiley Online Library
Skeletal muscles play important roles in critical body functions and their injury or disease
can lead to limitation of mobility and loss of independence. Current treatments result in …
can lead to limitation of mobility and loss of independence. Current treatments result in …
In vivo printing of nanoenabled scaffolds for the treatment of skeletal muscle injuries
Extremity skeletal muscle injuries result in substantial disability. Current treatments fail to
recoup muscle function, but properly designed and implemented tissue engineering and …
recoup muscle function, but properly designed and implemented tissue engineering and …
Repurposing biomedical muscle tissue engineering for cellular agriculture: challenges and opportunities
Cellular agriculture is an emerging field rooted in engineering meat-mimicking cell-laden
structures using tissue engineering practices that have been developed for biomedical …
structures using tissue engineering practices that have been developed for biomedical …
Controlling cellular organization in bioprinting through designed 3D microcompartmentalization
Controlling cellular organization is crucial in the biofabrication of tissue-engineered
scaffolds, as it affects cell behavior as well as the functionality of mature tissue. Thus far …
scaffolds, as it affects cell behavior as well as the functionality of mature tissue. Thus far …
3D Printed Magneto‐Active Microfiber Scaffolds for Remote Stimulation and Guided Organization of 3D In Vitro Skeletal Muscle Models
This work reports the rational design and fabrication of magneto‐active microfiber meshes
with controlled hexagonal microstructures via melt electrowriting (MEW) of a magnetized …
with controlled hexagonal microstructures via melt electrowriting (MEW) of a magnetized …
Current strategies for the regeneration of skeletal muscle tissue
Traumatic injuries, tumor resections, and degenerative diseases can damage skeletal
muscle and lead to functional impairment and severe disability. Skeletal muscle …
muscle and lead to functional impairment and severe disability. Skeletal muscle …
Application of textile technology in tissue engineering: A review
One of the key elements in tissue engineering is to design and fabricate scaffolds with tissue-
like properties. Among various scaffold fabrication methods, textile technology has shown its …
like properties. Among various scaffold fabrication methods, textile technology has shown its …