Search Results - "Korossis, S. A."

Tissue engineering of vascular conduits by Yow, K.-H., Ingram, J., Korossis, S. A., Ingham, E., Homer-Vanniasinkam, S.

“…Background: Autologous conduits are not available in up to 40 per cent of patients with arteriopathy who require coronary or lower limb revascularization, and…”
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The use of acellular matrices for the tissue engineering of cardiac valves by Knight, R L, Wilcox, H E, Korossis, S A, Fisher, J, Ingham, E

“…Tissue-engineering approaches to cardiac valve replacement have made considerable advances over recent years and it is likely that this application will…”
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Cardiac valve replacement: a bioengineering approach by Korossis, S A, Fisher, J, Ingham, E

“…The second most common major heart operation in the western world is valve replacement. Any one of the four heart valves may become either so stenotic or…”
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Tissue engineering of cardiac valve prostheses I: development and histological characterization of an acellular porcine scaffold by Booth, Catherine, Korossis, Sotiris A, Wilcox, Helen E, Watterson, Kevin G, Kearney, John N, Fisher, John, Ingham, Eileen

“…Several deficiencies in current heart valve prostheses make them problematic for use in younger patients. Tissue valve substitutes are non-viable with a life…”
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Tissue engineering of cardiac valve prostheses II: biomechanical characterization of decellularized porcine aortic heart valves by Korossis, Sotiris A, Booth, Catherine, Wilcox, Helen E, Watterson, Kevin G, Kearney, John N, Fisher, John, Ingham, Eileen

“…For both young patients with congenital heart disease and young, growing adults there is a need for replacement heart valves that will develop with the…”
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Development and characterization of an acellular human pericardial matrix for tissue engineering by Mirsadraee, Saeed, Wilcox, Helen E, Korossis, Sotiris A, Kearney, John N, Watterson, Kevin G, Fisher, John, Ingham, Eileen

“…This study aimed to produce an acellular human tissue scaffold with a view to recellularization with autologous cells to produce a tissue-engineered…”
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In-vitro assessment of the functional performance of the decellularized intact porcine aortic root by Korossis, Sotirios A, Wilcox, Helen E, Watterson, Kevin G, Kearney, John N, Ingham, Eileen, Fisher, John

“…Tissue-engineered heart valves offer the potential to deliver a heart valve replacement that will develop with the young patient. The present authors' approach…”
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Biocompatibility and recellularization potential of an acellular porcine heart valve matrix by Wilcox, Helen E, Korossis, Sotiris A, Booth, Catherine, Watterson, Kevin G, Kearney, John N, Fisher, John, Ingham, Eileen

“…Tissue-engineered heart valves have the potential to overcome the limitations of present heart valve replacements. The study aim was to investigate the…”
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