Details
| Originalsprache | Englisch |
|---|---|
| Seiten (von - bis) | 817-824 |
| Seitenumfang | 8 |
| Fachzeitschrift | Journal of Cardiovascular Surgery |
| Jahrgang | 49 |
| Ausgabenummer | 6 |
| Publikationsstatus | Veröffentlicht - Dez. 2008 |
Abstract
Aim. Despite continuous development of anticalcification treatment for bioprosthetic valves, calcification remains one major cause of structural failure. The aim of this study is to investigate changes in hemodynamic performance and leaflet kinematics in progressively calcified pericardial and porcine aortic valve prostheses. Methods. Five pericardial (Edwards Perimount Magna) and 5 porcine (Medtronic Mosaic Ultra) aortic valve prostheses (∅23 mm) were exposed to a high concentration Calcium-phosphate fluid in an in vitro pulse duplicator (300 cycles/minute) for 6 weeks. The prostheses were removed weekly and tested in an artificial circulation system (70 beats/ min, Cardiac Output 5 1/rain). All prostheses underwent X-ray, computed tomography (CT)-Scan and photographic examination for evaluation of progressive calcification. Leaflet kinematics were visualized with a high-speed camera. Results. Pericardial valves demonstrated faster degeneration with significantly larger radiographic areas of leaflet calcification (16.5±4.3% versus 5.6%±2.0%) and also significantly higher Ca-uptake (170±71 pg/mg versus 103±49 pg/mg) after 6 weeks. Despite degeneration systolic function remained superior for pericardial valves (mean effective orifice area [EOA] 1.52±0.05 versus 1.28±0.11 cm2, P<0.01), but leaflet kinematics showed longer closing times (135±11 msec versus 85±9 msec after 6 weeks) accompanied by higher regurgitant flow (7.8±1.12 mL versus 1.2±0.28 mL, P<0.001). Conclusion. In vitro pericardial valves calcified faster and more severe than porcine valves leading to impaired diastolic function with prolongation of closing times and higher closing volume. Systolic function remained almost undisturbed by the calcification process. As a consequence in clinical settings, follow-up examinations for structural valve deterioration in porcine valves should focus on systolic performance, in pericardial valves on diastolic function.
ASJC Scopus Sachgebiete
- Medizin (insg.)
- Chirurgie
- Medizin (insg.)
- Kardiologie und kardiovaskuläre Medizin
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in: Journal of Cardiovascular Surgery, Jahrgang 49, Nr. 6, 12.2008, S. 817-824.
Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review
}
TY - JOUR
T1 - Impact of valve calcification on systolic and diastolic valvular function - An in vitro model
AU - Dzemali, O.
AU - Bakhtiary, F.
AU - Steinseiffer, U.
AU - Schmitz, C.
AU - Glasmacher, B.
AU - Moritz, A.
AU - Kleine, P.
PY - 2008/12
Y1 - 2008/12
N2 - Aim. Despite continuous development of anticalcification treatment for bioprosthetic valves, calcification remains one major cause of structural failure. The aim of this study is to investigate changes in hemodynamic performance and leaflet kinematics in progressively calcified pericardial and porcine aortic valve prostheses. Methods. Five pericardial (Edwards Perimount Magna) and 5 porcine (Medtronic Mosaic Ultra) aortic valve prostheses (∅23 mm) were exposed to a high concentration Calcium-phosphate fluid in an in vitro pulse duplicator (300 cycles/minute) for 6 weeks. The prostheses were removed weekly and tested in an artificial circulation system (70 beats/ min, Cardiac Output 5 1/rain). All prostheses underwent X-ray, computed tomography (CT)-Scan and photographic examination for evaluation of progressive calcification. Leaflet kinematics were visualized with a high-speed camera. Results. Pericardial valves demonstrated faster degeneration with significantly larger radiographic areas of leaflet calcification (16.5±4.3% versus 5.6%±2.0%) and also significantly higher Ca-uptake (170±71 pg/mg versus 103±49 pg/mg) after 6 weeks. Despite degeneration systolic function remained superior for pericardial valves (mean effective orifice area [EOA] 1.52±0.05 versus 1.28±0.11 cm2, P<0.01), but leaflet kinematics showed longer closing times (135±11 msec versus 85±9 msec after 6 weeks) accompanied by higher regurgitant flow (7.8±1.12 mL versus 1.2±0.28 mL, P<0.001). Conclusion. In vitro pericardial valves calcified faster and more severe than porcine valves leading to impaired diastolic function with prolongation of closing times and higher closing volume. Systolic function remained almost undisturbed by the calcification process. As a consequence in clinical settings, follow-up examinations for structural valve deterioration in porcine valves should focus on systolic performance, in pericardial valves on diastolic function.
AB - Aim. Despite continuous development of anticalcification treatment for bioprosthetic valves, calcification remains one major cause of structural failure. The aim of this study is to investigate changes in hemodynamic performance and leaflet kinematics in progressively calcified pericardial and porcine aortic valve prostheses. Methods. Five pericardial (Edwards Perimount Magna) and 5 porcine (Medtronic Mosaic Ultra) aortic valve prostheses (∅23 mm) were exposed to a high concentration Calcium-phosphate fluid in an in vitro pulse duplicator (300 cycles/minute) for 6 weeks. The prostheses were removed weekly and tested in an artificial circulation system (70 beats/ min, Cardiac Output 5 1/rain). All prostheses underwent X-ray, computed tomography (CT)-Scan and photographic examination for evaluation of progressive calcification. Leaflet kinematics were visualized with a high-speed camera. Results. Pericardial valves demonstrated faster degeneration with significantly larger radiographic areas of leaflet calcification (16.5±4.3% versus 5.6%±2.0%) and also significantly higher Ca-uptake (170±71 pg/mg versus 103±49 pg/mg) after 6 weeks. Despite degeneration systolic function remained superior for pericardial valves (mean effective orifice area [EOA] 1.52±0.05 versus 1.28±0.11 cm2, P<0.01), but leaflet kinematics showed longer closing times (135±11 msec versus 85±9 msec after 6 weeks) accompanied by higher regurgitant flow (7.8±1.12 mL versus 1.2±0.28 mL, P<0.001). Conclusion. In vitro pericardial valves calcified faster and more severe than porcine valves leading to impaired diastolic function with prolongation of closing times and higher closing volume. Systolic function remained almost undisturbed by the calcification process. As a consequence in clinical settings, follow-up examinations for structural valve deterioration in porcine valves should focus on systolic performance, in pericardial valves on diastolic function.
KW - Aortic valve
KW - Bioprosthesis
KW - Hemodynamics
UR - http://www.scopus.com/inward/record.url?scp=59849106358&partnerID=8YFLogxK
M3 - Article
C2 - 19043396
AN - SCOPUS:59849106358
VL - 49
SP - 817
EP - 824
JO - Journal of Cardiovascular Surgery
JF - Journal of Cardiovascular Surgery
SN - 0021-9509
IS - 6
ER -