Add to ORKGA novel multi-axial bioreactor was designed and developed to deliver combinations of the following dynamic mechanical stimulation conditions: hydrostatic pressure, pulsatile perfusion flow and uniaxial compression in order to mimic in vivo conditions. This mechanical arrangement simultaneously allows triaxial stimulation and characterization of mechanical properties of samples, in particular simulating the conditions experienced by the nucleus pulposus in vivo. A series of initial experiments were performed on this prototype system using consistent, commercially-available, three dimensional scaffolds in combination with human dermal fibroblasts. Our results show that while such bioreactors hold much promise in tissue engineering of desired ...
The construction of tissue-engineered parts such as heart valves and arteries requires more than jus...
A new generation of bioreactors with integrated six degrees of freedom (6 DOF) aims to mimic more ac...
Physical stimuli are crucial for the structural and functional maturation of tissues both in vivo an...
A novel multi-axial bioreactor was designed and developed to deliver combinations of the following d...
Mechanical stimulation, in combination with biochemical factors, is likely to be essential to the ap...
We report on the development of a bioreactor system for mechanical stimulation of musculoskeletal ti...
A systematic design of experiments (DOE) approach was used to optimize the perfusion process of a tr...
After myocardial infarction, the implantation of stem cell seeded scaffolds on the ischemic zone rep...
The Regenerative medicine, or tissue engineering, is a multidisciplinary field involving engineering...
\u3cp\u3eTissue growth and remodeling are essential processes that should ensure long-term functiona...
132 p.The thesis reports on the design, fabrication and validation of a new generation of bioreactor...
During exercise, mechanical loads from the body are transduced into interstitial fluid pressure chan...
Biomaterials-based therapies targeting the nucleus pulposus (NP) have the potential to promote regen...
Tissue engineering is an interdisciplinary field in which cell biology, biomaterials science, and su...
The construction of tissue-engineered parts such as heart valves and arteries requires more than jus...
A new generation of bioreactors with integrated six degrees of freedom (6 DOF) aims to mimic more ac...
Physical stimuli are crucial for the structural and functional maturation of tissues both in vivo an...
A novel multi-axial bioreactor was designed and developed to deliver combinations of the following d...
Mechanical stimulation, in combination with biochemical factors, is likely to be essential to the ap...
We report on the development of a bioreactor system for mechanical stimulation of musculoskeletal ti...
A systematic design of experiments (DOE) approach was used to optimize the perfusion process of a tr...
After myocardial infarction, the implantation of stem cell seeded scaffolds on the ischemic zone rep...
The Regenerative medicine, or tissue engineering, is a multidisciplinary field involving engineering...
\u3cp\u3eTissue growth and remodeling are essential processes that should ensure long-term functiona...
132 p.The thesis reports on the design, fabrication and validation of a new generation of bioreactor...
During exercise, mechanical loads from the body are transduced into interstitial fluid pressure chan...
Biomaterials-based therapies targeting the nucleus pulposus (NP) have the potential to promote regen...
Tissue engineering is an interdisciplinary field in which cell biology, biomaterials science, and su...
The construction of tissue-engineered parts such as heart valves and arteries requires more than jus...
A new generation of bioreactors with integrated six degrees of freedom (6 DOF) aims to mimic more ac...
Physical stimuli are crucial for the structural and functional maturation of tissues both in vivo an...