The application of tissue-engineered heart valves in the high-pressure circulatory system is still challenging. One possible solution is the development of biohybrid scaffolds with textile reinforcement to achieve improved mechanical properties. In this article, we present a manufacturing process of bio-inspired fiber reinforcement for an aortic valve scaffold. The reinforcement structure consists of polyvinylidene difluoride monofilament fibers that are biomimetically arranged by a novel winding process. The fibers were embedded and fixated into electrospun polycarbonate urethane on a cylindrical collector. The scaffold was characterized by biaxial tensile strength, bending stiffness, burst pressure and hemodynamically in a mock circulatio...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Valvular heart disease is characterized by damage to or a defect in one of the four heart valves: th...
Tissue engineering appears as a promising option to create new heart valve substitutes able to overc...
The application of tissue-engineered heart valves in the high-pressure circulatory system is still c...
The mechanical properties of tissue-engineered heart valves still need to be improved to enable thei...
State-of-the-art tissue engineered heart valves are not strong enough to withstand aortic blood pres...
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...
The aortic valve is situated at the origin of the aorta. The valve can present pathological features...
The aortic valve maintains unidirectional blood flow between the left ventricle and the systemic cir...
Introduction:In situ tissue engineering (TE) of heart valves uses readily available acellular synthe...
This review discusses strategies that may address some of the limitations associated with replacing ...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
Creating autologous tissues with on-demand and native-like biomechanical properties is the ultimate ...
In this study, a composite scaffold consisting of an electrospun polyurethane and poly(ethylene gly...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Valvular heart disease is characterized by damage to or a defect in one of the four heart valves: th...
Tissue engineering appears as a promising option to create new heart valve substitutes able to overc...
The application of tissue-engineered heart valves in the high-pressure circulatory system is still c...
The mechanical properties of tissue-engineered heart valves still need to be improved to enable thei...
State-of-the-art tissue engineered heart valves are not strong enough to withstand aortic blood pres...
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...
The aortic valve is situated at the origin of the aorta. The valve can present pathological features...
The aortic valve maintains unidirectional blood flow between the left ventricle and the systemic cir...
Introduction:In situ tissue engineering (TE) of heart valves uses readily available acellular synthe...
This review discusses strategies that may address some of the limitations associated with replacing ...
The concept of tissue-engineered heart valves offers an alternative to current heart valve replaceme...
Creating autologous tissues with on-demand and native-like biomechanical properties is the ultimate ...
In this study, a composite scaffold consisting of an electrospun polyurethane and poly(ethylene gly...
This dissertation describes strategies that I have developed to introduce mechanical and biochemical...
Valvular heart disease is characterized by damage to or a defect in one of the four heart valves: th...
Tissue engineering appears as a promising option to create new heart valve substitutes able to overc...