Add to ORKGAn innovative, low-cost, 3D-printed sample-holder is proposed for reproducible and effective stirring-based decellularization of biological tissues. The sample-holder was designed to be low-cost, easy to use with conventional laboratory equipment, and manufacturable through 3D printing. During stirring-based decellularization, the sample holder exposes the samples to convective flow, enhancing the reagent transport while protecting the samples from disruptive forces. Computational fluid dynamics analyses were carried out to elucidate the developing hydrodynamics. Explanatory tests, performed on human cardiac tissue samples, demonstrated the effectiveness of the presented device
The centrifuge is an essential tool for many aspects of research and medical diagnostics. However, c...
Blood plasma separation is a prerequisite in numerous biomedical assays involving low abundance plas...
Due to the combined advantages of cellulose and nanoscale (diameter 20–60 nm), bacterial cellulose p...
Decellularized extracellular matrix is one of the most promising biological scaffold supporting in v...
Three-dimensional (3D) printing represents a key technology for rapid prototyping, allowing easy, ra...
Three-dimensional (3D) bioprinting promises to be essential in tissue engineering for solving the ri...
The precision and repeatability offered by computer-aided design and computer-numerically controlled...
The ability to create cell-laden fluidic models that mimic the geometries and physical properties of...
Due to the fast pace advancements in 3D printing technologies, it is now possible to bring to life t...
Bioprinting is a rapidly expanding technology with the ability to fabricate in vitro three-dimension...
Many biomedical research labs have a focus on developing models to understand how soft fibrous tissu...
Three-dimensional (3D) printing using a variety of metals and polymers is a driving force in revolut...
The present thesis aims to develop a Lab-on-Chip (LOC) platform technology for mixing, separation, a...
The centrifuge is an essential tool for many aspects of research and medical diagnostics. However, c...
3D bioprinting is a relatively new and very promising field that uses conventional 3D printing techn...
The centrifuge is an essential tool for many aspects of research and medical diagnostics. However, c...
Blood plasma separation is a prerequisite in numerous biomedical assays involving low abundance plas...
Due to the combined advantages of cellulose and nanoscale (diameter 20–60 nm), bacterial cellulose p...
Decellularized extracellular matrix is one of the most promising biological scaffold supporting in v...
Three-dimensional (3D) printing represents a key technology for rapid prototyping, allowing easy, ra...
Three-dimensional (3D) bioprinting promises to be essential in tissue engineering for solving the ri...
The precision and repeatability offered by computer-aided design and computer-numerically controlled...
The ability to create cell-laden fluidic models that mimic the geometries and physical properties of...
Due to the fast pace advancements in 3D printing technologies, it is now possible to bring to life t...
Bioprinting is a rapidly expanding technology with the ability to fabricate in vitro three-dimension...
Many biomedical research labs have a focus on developing models to understand how soft fibrous tissu...
Three-dimensional (3D) printing using a variety of metals and polymers is a driving force in revolut...
The present thesis aims to develop a Lab-on-Chip (LOC) platform technology for mixing, separation, a...
The centrifuge is an essential tool for many aspects of research and medical diagnostics. However, c...
3D bioprinting is a relatively new and very promising field that uses conventional 3D printing techn...
The centrifuge is an essential tool for many aspects of research and medical diagnostics. However, c...
Blood plasma separation is a prerequisite in numerous biomedical assays involving low abundance plas...
Due to the combined advantages of cellulose and nanoscale (diameter 20–60 nm), bacterial cellulose p...