Heart valves are characterized to be highly flexible yet tough, and exhibit complex deformation characteristics such as nonlinearity, anisotropy, and viscoelasticity, which are, at best, only partially recapitulated in scaffolds for heart valve tissue engineering (HVTE). These biomechanical features are dictated by the structural properties and microarchitecture of the major tissue constituents, in particular collagen fibers. In this study, the unique capabilities of melt electrowriting (MEW) are exploited to create functional scaffolds with highly controlled fibrous microarchitectures mimicking the wavy nature of the collagen fibers and their load‐dependent recruitment. Scaffolds with precisely‐defined serpentine architectures reproduce th...
In this study, a composite scaffold consisting of an electrospun polyurethane and poly(ethylene gly...
Creating autologous tissues with on-demand and native-like biomechanical properties is the ultimate ...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
Heart valves are characterized to be highly flexible yet tough, and exhibit complex deformation char...
Tissue Engineered Heart Valvs (TEHVs) have the potential to replace synthetic and non-bioactive pros...
Heart valve tissue engineering (HVTE) aims to provide living autologous heart valve implants endowed...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Producción CientíficaHeart valve tissue engineering (HVTE) aims to provide living autologous heart v...
The mechanical properties of tissue-engineered heart valves still need to be improved to enable thei...
Valvular heart disease is predicted to be the next cardiac epidemic (d’Arcy et al., 2011) and valve ...
This thesis presented a novel platform for the design and manufacture of tissue engineered heart val...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
The application of tissue-engineered heart valves in the high-pressure circulatory system is still c...
Collagen and elastin are two major components of the extracellular matrix of heart valves. This work...
Tissue engineers have achieved limited success so far in designing an ideal scaffold for aortic valv...
In this study, a composite scaffold consisting of an electrospun polyurethane and poly(ethylene gly...
Creating autologous tissues with on-demand and native-like biomechanical properties is the ultimate ...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...
Heart valves are characterized to be highly flexible yet tough, and exhibit complex deformation char...
Tissue Engineered Heart Valvs (TEHVs) have the potential to replace synthetic and non-bioactive pros...
Heart valve tissue engineering (HVTE) aims to provide living autologous heart valve implants endowed...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Producción CientíficaHeart valve tissue engineering (HVTE) aims to provide living autologous heart v...
The mechanical properties of tissue-engineered heart valves still need to be improved to enable thei...
Valvular heart disease is predicted to be the next cardiac epidemic (d’Arcy et al., 2011) and valve ...
This thesis presented a novel platform for the design and manufacture of tissue engineered heart val...
Tissue engineered heart valves (TEHVs) that can grow and remodel have the potential to serve as perm...
The application of tissue-engineered heart valves in the high-pressure circulatory system is still c...
Collagen and elastin are two major components of the extracellular matrix of heart valves. This work...
Tissue engineers have achieved limited success so far in designing an ideal scaffold for aortic valv...
In this study, a composite scaffold consisting of an electrospun polyurethane and poly(ethylene gly...
Creating autologous tissues with on-demand and native-like biomechanical properties is the ultimate ...
The occurrence of dysfunctional aortic valves is increasing every year, and current replacement hear...