Song Guang-min, Zhou Jian-ye, Hu Sheng-shou, Cui Jing-wei, Song Yun-hu, Tang Yue, Zhang Yan, Jiang Hong, Yuan Wei-min, Song Xue-ying
Regenerative Medical Center of Cardiovascular Disease, Cardiovascular Institute and Fuwai Hospital, Chinese Academy of Medical Science & Peking Union Medical College, Beijing 100037, China.
Zhonghua Yi Xue Za Zhi. 2008 Jul 29;88(29):2059-63.
To investigate the effects of a newly developed composite stentless porcine aortic valve constructed from noncoronary leaflets of three porcine aortic valves.
Fresh porcine hearts with ascending aorta were obtained from a slaughterhouse. The porcine aortic roots with ascending aorta and anterior leaflet of mitral valve and partial ventricular septum were dissected out and were pressurized to maintain their natural anatomical shapes with the leaflets floating freely at zero-pressure. Three noncoronary leaflets fixed in 0.6% glutaraldehyde were carefully matched for size and symmetry to construct a novel composite stentless porcine aortic valve. The lower margin and outside of the valve was covered with a piece of bovine pericardium. The novel stentless valves were tested in vitro pulsatile flow to detect the effective orifice area (EOA) and mean pressure difference (DeltaP) of the valve compared with the stented bovine pericardial bioprostheses of the same size. Sixteen male juvenile sheep underwent implantation of the novel valves in the supra-annular position in under cardio-pulmonary bypass. The intraoperative and postoperative echocardiography and pathological specimen were given to evaluate the hemodynamic performance and observed in the respects of a long-term survival, function of valve and pathological specimen.
Since novel valves had the unfavorable muscle-based right coronary leaflet characteristic of porcine valve removed it had larger EOA. Pulsatile flow testing indicated that the EOA of the 3 novel valves was (3.47 +/- 0.15), (3.69 +/- 0.11), and (3.92 +/- 0.18) cm2 respectively, all significantly greater than those of the stented bovine pericardial bioprosthesis [(2.00 +/- 0.16), (2.21 +/- 0.26), and (2.37 +/- 0.42) cm2 respectively] at each integral simulated cardiac output between 3 - 6 L/min (all P < 0.05), while the DeltaP levels of the novel valves were (2.35 +/- 0.41), (3.10 +/- 0.20), and (3.56 +/- 0.16) mm Hg respectively, all significantly lower than those of the stented bovine pericardial bioprosthesis [(4.98 +/- 0.46), (6.82 +/- 1.27), and (8.40 +/- 1.83) mm Hg respectively, all P < 0.05]. Twelve of the sixteen sheep survived after operation. Five of them had lived for more than 90 days, 3 more than 180 days, and 2 more than 360 days. The intra-operative echocardiographic analyses showed low DeltaP [(3.90 +/- 0.78) mm Hg] and no regurgitation in all sheep. After 15 to 360 days, all valves performed excellently. The sheep were postoperatively sacrificed in 5 d, 15 d, 45 d, 90 d, 180 d, or 300 d respectively. Necropsy revealed the valves had a low to mild level of calcification, without periprosthetic leakage and overgrowth of fibrous tissue.
The newly developed composite stentless porcine aortic valves show excellent hemodynamic performance with lower transvalvular pressure gradient and are relatively easy to implant.
研究一种新开发的由三个猪主动脉瓣无冠状动脉瓣叶构建的复合无支架猪主动脉瓣的效果。
从屠宰场获取带有升主动脉的新鲜猪心脏。将带有升主动脉、二尖瓣前叶和部分室间隔的猪主动脉根部解剖出来,并进行加压以保持其自然解剖形状,使瓣叶在零压力下自由漂浮。仔细匹配三个固定在0.6%戊二醛中的无冠状动脉瓣叶的大小和对称性,以构建一种新型复合无支架猪主动脉瓣。瓣膜的下缘和外侧用一片牛心包覆盖。将新型无支架瓣膜在体外脉动流中进行测试,以检测与相同尺寸的带支架牛心包生物假体相比,该瓣膜的有效瓣口面积(EOA)和平均压差(ΔP)。16只雄性幼年绵羊在体外循环下将新型瓣膜植入瓣环上位置。给予术中及术后超声心动图检查和病理标本,以评估血流动力学性能,并在长期存活、瓣膜功能和病理标本方面进行观察。
由于新型瓣膜去除了猪瓣膜不利的基于肌肉的右冠状动脉瓣叶特征,其EOA更大。脉动流测试表明,三个新型瓣膜的EOA分别为(3.47±0.15)、(3.69±0.11)和(3.92±0.18)cm²,在3 - 6 L/min的每个模拟心输出量积分时,均显著大于带支架牛心包生物假体的EOA[分别为(2.00±0.16)、(2.21±0.26)和(2.37±0.42)cm²](均P<0.05),而新型瓣膜的ΔP水平分别为(2.35±0.41)、(3.10±0.20)和(3.56±0.16)mmHg,均显著低于带支架牛心包生物假体的ΔP水平[分别为(4.98±0.46)、(6.82±1.27)和(8.40±1.83)mmHg,均P<0.05]。16只绵羊中有12只术后存活。其中5只存活超过90天,3只超过180天,2只超过360天。术中超声心动图分析显示所有绵羊的ΔP较低[(3.90±0.78)mmHg]且无反流。15至360天后,所有瓣膜表现良好。绵羊分别在术后5天、15天、45天、90天、180天或300天处死。尸检显示瓣膜钙化程度低至轻度,无假体周围渗漏和纤维组织过度生长。
新开发的复合无支架猪主动脉瓣显示出优异的血流动力学性能,跨瓣压差较低,且相对易于植入。
