Shouka Parvin Nejad
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View article: Characterization of pediatric porcine pulmonary valves as a model for tissue engineered heart valves
Characterization of pediatric porcine pulmonary valves as a model for tissue engineered heart valves Open
Heart valve tissue engineering holds the potential to transform the surgical management of congenital heart defects affecting the pediatric pulmonary valve (PV) by offering a viable valve replacement. While aiming to recapitulate the nativ…
View article: Characterization of pediatric porcine pulmonary valves as a model for tissue engineered heart valves
Characterization of pediatric porcine pulmonary valves as a model for tissue engineered heart valves Open
Heart valve tissue engineering holds the potential to transform the surgical management of congenital heart defects affecting the pediatric pulmonary valve (PV) by offering a viable valve replacement with the compositional, architectural a…
View article: Serum- and xeno-free culture of human umbilical cord perivascular cells for pediatric heart valve tissue engineering
Serum- and xeno-free culture of human umbilical cord perivascular cells for pediatric heart valve tissue engineering Open
Background Constructs currently used to repair or replace congenitally diseased pediatric heart valves lack a viable cell population capable of functional adaptation in situ, necessitating repeated surgical intervention. Heart valve tissue…
View article: Serum- and xeno-free culture of human umbilical cord perivascular cells for pediatric heart valve tissue engineering
Serum- and xeno-free culture of human umbilical cord perivascular cells for pediatric heart valve tissue engineering Open
Background: Constructs currently used to repair or replace congenitally diseased pediatric heart valves lack a viable cell population capable of functional adaptation in situ , necessitating repeated surgical intervention. Heart valve tiss…
View article: Engineering Pulmonary Valve Tissue Sheets from Human Umbilical Cord Perivascular Cells and Electrospun Polyurethane
Engineering Pulmonary Valve Tissue Sheets from Human Umbilical Cord Perivascular Cells and Electrospun Polyurethane Open
Objective: Bioengineered pulmonary valve (PV) tissue synthesized from mesenchymal stromal cells (MSCs) on a degradable biomaterial can overcome the limitations of non-viable structures through living valves with the potential to grow and r…