Glutaraldehyde-fixed bovine pericardium is currently the most popular biomaterial utilized in the creation of bioprosthetic heart valves. However, recent studies indicate that glutaraldehyde fixation results in calcification and structural valve deterioration, limiting the longevity of bioprosthetic heart valves. Additionally, glutaraldehyde fixation renders the tissue incompatible with constructive recipient cellular repopulation, remodeling and growth. Use of unfixed xenogeneic biomaterials devoid of antigenic burden has potential to overcome the limitations of current glutaraldehyde-fixed biomaterials. Heart valves undergo billion cycles of opening and closing throughout the patient's lifetime. Therefore, understanding the response of un...
Mechanical loading is a powerful regulator of tissue properties in engineered cardiovascular tissues...
Tissue-engineered heart valves lack sufficient amounts of functionally organized structures and cons...
Objective: Precocious structural degeneration of bioprostheses in irradiated survivors of chest mali...
Bovine pericardium has been widely employed as a xenograft tissue for the manufacture of bioprosthet...
Glutaraldehyde crosslinked bovine pericardium has been used for fabrication of bioprosthetic heart v...
Soft tissue-derived exogenously cross-linked (EXL) biomaterials continue to be the best choice for t...
Glutaraldehyde-treated, surgical bioprosthetic heart valves undergo structural degeneration within 1...
Bovine and porcine pericardia are currently used for manufacturing prosthetic heart valves: their de...
Bioprosthetic heart valves (BHVs) have excellent short-term performance but suffer from poor long-te...
Glutaraldehyde-treated, surgical bioprosthetic heart valves undergo structural degeneration within 1...
Worldwide 275,000 diseased heart valves are replaced annually and approximately 50% are bioprostheti...
When implanted inside the body, bioprosthetic heart valve leaflets experience a variety of cyclic me...
Current mechanical conditioning approaches for heart valve tissue engineering concentrate on mimicki...
Major problems with valve bioprostheses are associated with progressive structural deterioration and...
Background: Exposing the developing tissue to flow and pressure in a bioreactor has been shown to en...
Mechanical loading is a powerful regulator of tissue properties in engineered cardiovascular tissues...
Tissue-engineered heart valves lack sufficient amounts of functionally organized structures and cons...
Objective: Precocious structural degeneration of bioprostheses in irradiated survivors of chest mali...
Bovine pericardium has been widely employed as a xenograft tissue for the manufacture of bioprosthet...
Glutaraldehyde crosslinked bovine pericardium has been used for fabrication of bioprosthetic heart v...
Soft tissue-derived exogenously cross-linked (EXL) biomaterials continue to be the best choice for t...
Glutaraldehyde-treated, surgical bioprosthetic heart valves undergo structural degeneration within 1...
Bovine and porcine pericardia are currently used for manufacturing prosthetic heart valves: their de...
Bioprosthetic heart valves (BHVs) have excellent short-term performance but suffer from poor long-te...
Glutaraldehyde-treated, surgical bioprosthetic heart valves undergo structural degeneration within 1...
Worldwide 275,000 diseased heart valves are replaced annually and approximately 50% are bioprostheti...
When implanted inside the body, bioprosthetic heart valve leaflets experience a variety of cyclic me...
Current mechanical conditioning approaches for heart valve tissue engineering concentrate on mimicki...
Major problems with valve bioprostheses are associated with progressive structural deterioration and...
Background: Exposing the developing tissue to flow and pressure in a bioreactor has been shown to en...
Mechanical loading is a powerful regulator of tissue properties in engineered cardiovascular tissues...
Tissue-engineered heart valves lack sufficient amounts of functionally organized structures and cons...
Objective: Precocious structural degeneration of bioprostheses in irradiated survivors of chest mali...