Add to ORKGTissue engineering skeletal muscle has versatile potential applications but it is still challenging to produce large functional muscle tissues in vitro. Mechanical stimulation has been shown to positively influence this process. In the present thesis a bioreactor for mechanical stimulation was designed, built and evaluated. The system allows the utilization of a wide variety of scaffold materials and designs. Two potential fibrous scaffold materials were tested under static conditions. C2C12 skeletal muscle progenitor cells were cultured on aligned elastic polyurethane micro diameter fiber arrays. Fibers were obtained from Hyosung (South Korea) and composition and shape were investigated using XPS, FT-IR ATR and SEM techniques. It was shown...
Compared to two-dimensional cell cultures, three-dimensional ones potentially allow recreating natur...
Tissue engineering represents a possible approach to replace the lost or defective muscle. The purp...
The aim of this study is to evaluate how cyclic mechanical stretching influences skeletal muscle dif...
Objective To give a concise review of the current state of the art in tissue engineering (TE) relate...
Engineered muscle tissues can be used for several different purposes, which include the production o...
Skeletal muscle tissue exhibits endogenous ability to regenerate. However, the self-repair mechanism...
Tissue engineering represents a possible approach to replace the lost or defective muscle. The purp...
Skeletal muscle tissue is characterized by high metabolic requirements, defined structure and high r...
Tissue engineering aims to develop in-vitro substitutes of native tissues. One approach of tissue en...
<p>Skeletal muscle is a scalable actuator system used throughout nature from the millimeter to meter...
Classical approaches to engineer skeletal muscle tissue based on current regenerative and surgical p...
Skeletal muscles can self-repair minor strains, lacerations, and contusions; however, in cases of vo...
This paper describes the development of novel bioreactor systems for use in studying the development...
This paper describes the development of novel bioreactor systems for use in studying the development...
The bioengineering of skeletal muscle tissue in-vitro has enabled researchers to more closely mimic ...
Compared to two-dimensional cell cultures, three-dimensional ones potentially allow recreating natur...
Tissue engineering represents a possible approach to replace the lost or defective muscle. The purp...
The aim of this study is to evaluate how cyclic mechanical stretching influences skeletal muscle dif...
Objective To give a concise review of the current state of the art in tissue engineering (TE) relate...
Engineered muscle tissues can be used for several different purposes, which include the production o...
Skeletal muscle tissue exhibits endogenous ability to regenerate. However, the self-repair mechanism...
Tissue engineering represents a possible approach to replace the lost or defective muscle. The purp...
Skeletal muscle tissue is characterized by high metabolic requirements, defined structure and high r...
Tissue engineering aims to develop in-vitro substitutes of native tissues. One approach of tissue en...
<p>Skeletal muscle is a scalable actuator system used throughout nature from the millimeter to meter...
Classical approaches to engineer skeletal muscle tissue based on current regenerative and surgical p...
Skeletal muscles can self-repair minor strains, lacerations, and contusions; however, in cases of vo...
This paper describes the development of novel bioreactor systems for use in studying the development...
This paper describes the development of novel bioreactor systems for use in studying the development...
The bioengineering of skeletal muscle tissue in-vitro has enabled researchers to more closely mimic ...
Compared to two-dimensional cell cultures, three-dimensional ones potentially allow recreating natur...
Tissue engineering represents a possible approach to replace the lost or defective muscle. The purp...
The aim of this study is to evaluate how cyclic mechanical stretching influences skeletal muscle dif...