Add to ORKGPreclinical musculoskeletal junction testbed: Optimisation of a reproducible skeletal muscle construct [Abstract
Skeletal muscle tissue is characterized by high metabolic requirements, defined structure and high r...
In vitro three‐dimensional (3D) tissue engineered (TE) structures have been shown to better represen...
Many congenital skeletal muscle disorders including muscular dystrophies are caused by genetic mutat...
Small-scale skeletal muscle constructs for in-vitro musculoskeletal junction preclinical testbed [Ab...
Preclinical musculoskeletal junction testbed: co-culture of 3D tissue engineered skeletal muscle and...
Three-dimensional tissue-engineered structures enable more representative determination of novel dru...
Three‐dimensional (3D) tissue engineered structures enable more representative determination of nove...
Three-dimensional tissue-engineered structures enable more representative determination of novel dru...
Traditionally in vitro 2D cultures were used for pre-clinical tests, followed by complex in vivo ass...
Tissue engineered skeletal muscle has great utility in experimental studies of physiology, clinical ...
Pre-clinical studies are a necessary step in the process of material and drug testing. For this, hig...
Engineered muscle tissues can be used for several different purposes, which include the production o...
Tissue engineered skeletal muscle allows investigation of the cellular and molecular mechanisms that...
Tissue engineered skeletal muscle allows investigation of the cellular and molecular mechanisms that...
<p>Transplantation of a functional engineered skeletal muscle substitute is a promising therapeutic ...
Skeletal muscle tissue is characterized by high metabolic requirements, defined structure and high r...
In vitro three‐dimensional (3D) tissue engineered (TE) structures have been shown to better represen...
Many congenital skeletal muscle disorders including muscular dystrophies are caused by genetic mutat...
Small-scale skeletal muscle constructs for in-vitro musculoskeletal junction preclinical testbed [Ab...
Preclinical musculoskeletal junction testbed: co-culture of 3D tissue engineered skeletal muscle and...
Three-dimensional tissue-engineered structures enable more representative determination of novel dru...
Three‐dimensional (3D) tissue engineered structures enable more representative determination of nove...
Three-dimensional tissue-engineered structures enable more representative determination of novel dru...
Traditionally in vitro 2D cultures were used for pre-clinical tests, followed by complex in vivo ass...
Tissue engineered skeletal muscle has great utility in experimental studies of physiology, clinical ...
Pre-clinical studies are a necessary step in the process of material and drug testing. For this, hig...
Engineered muscle tissues can be used for several different purposes, which include the production o...
Tissue engineered skeletal muscle allows investigation of the cellular and molecular mechanisms that...
Tissue engineered skeletal muscle allows investigation of the cellular and molecular mechanisms that...
<p>Transplantation of a functional engineered skeletal muscle substitute is a promising therapeutic ...
Skeletal muscle tissue is characterized by high metabolic requirements, defined structure and high r...
In vitro three‐dimensional (3D) tissue engineered (TE) structures have been shown to better represen...
Many congenital skeletal muscle disorders including muscular dystrophies are caused by genetic mutat...