Classical approaches to engineer skeletal muscle tissue based on current regenerative and surgical procedures still do not meet the desired outcome for patient applications. Besides the evident need to create functional skeletal muscle tissue for the repair of volumetric muscle defects, there is also growing demand for platforms to study muscle-related diseases, such as muscular dystrophies or sarcopenia. Currently, numerous studies exist that have employed a variety of biomaterials, cell types and strategies for maturation of skeletal muscle tissue in 2D and 3D environments. However, researchers are just at the beginning of understanding the impact of different culture settings and their biochemical (growth factors and chemical changes) an...
Although skeletal muscle repairs itself following small injuries, genetic diseases or severe damages...
Skeletal muscle is a major target for tissue engineering, given its relative size in the body, fract...
Here, we aim to address the increasing need for a suitable human muscle in vitro model in order to a...
Classical approaches to engineer skeletal muscle tissue based on current regenerative and surgical p...
Advanced in vitro models of human skeletal muscle tissue are increasingly needed to model complex de...
Muscular dystrophies are a group of highly disabling disorders that share degenerative muscle weakne...
The growing deficit in suitable tissues for patients awaiting organ transplants demonstrates the cli...
Skeletal muscle related diseases cause loss and weakness in the muscle and affect the quality of lif...
Engineering models of human skeletal muscle tissue provides unique translational opportunities to in...
Engineering skeletal muscle tissue remains still a challenge, and numerous studies have indicated th...
In native skeletal muscle, densely packed myofibers exist in close contact with surrounding motor ne...
The generation of engineered tissues and organs has entered into the clinical practice in response t...
Skeletal muscle atrophy can occur for a number of reasons including degenerative diseases and age-re...
Many congenital skeletal muscle disorders including muscular dystrophies are caused by genetic mutat...
Advanced in vitro models of human skeletal muscle tissue are increasingly needed to model complex de...
Although skeletal muscle repairs itself following small injuries, genetic diseases or severe damages...
Skeletal muscle is a major target for tissue engineering, given its relative size in the body, fract...
Here, we aim to address the increasing need for a suitable human muscle in vitro model in order to a...
Classical approaches to engineer skeletal muscle tissue based on current regenerative and surgical p...
Advanced in vitro models of human skeletal muscle tissue are increasingly needed to model complex de...
Muscular dystrophies are a group of highly disabling disorders that share degenerative muscle weakne...
The growing deficit in suitable tissues for patients awaiting organ transplants demonstrates the cli...
Skeletal muscle related diseases cause loss and weakness in the muscle and affect the quality of lif...
Engineering models of human skeletal muscle tissue provides unique translational opportunities to in...
Engineering skeletal muscle tissue remains still a challenge, and numerous studies have indicated th...
In native skeletal muscle, densely packed myofibers exist in close contact with surrounding motor ne...
The generation of engineered tissues and organs has entered into the clinical practice in response t...
Skeletal muscle atrophy can occur for a number of reasons including degenerative diseases and age-re...
Many congenital skeletal muscle disorders including muscular dystrophies are caused by genetic mutat...
Advanced in vitro models of human skeletal muscle tissue are increasingly needed to model complex de...
Although skeletal muscle repairs itself following small injuries, genetic diseases or severe damages...
Skeletal muscle is a major target for tissue engineering, given its relative size in the body, fract...
Here, we aim to address the increasing need for a suitable human muscle in vitro model in order to a...