Department of Pediatric Cardio-Thoracic Surgery, Heart Center of the University of Cologne, Cologne, Germany.
CVPath Institute, Gaithersburg, Md.
J Thorac Cardiovasc Surg. 2018 Jun;155(6):2591-2601.e3. doi: 10.1016/j.jtcvs.2017.12.046. Epub 2017 Dec 21.
To evaluate the safety and the short-term function of a novel pulmonary valved conduit (Xeltis Pulmonary Valved Conduit; XPV) up to 12 months in a sheep model.
XPV and Hancock bioprosthetic valved conduits (H, used as control) were implanted in adult sheep in the pulmonary artery position. Animals were killed at 2 months (n = 6 XPV), 6 months (n = 6 XPV and n = 3 H), and 12 months (n = 6 XPV) and examined histologically. During follow-up, function of the device as well as diameter of both XPV and H were assessed by transthoracic echocardiography.
Of 18 animals that received an XPV, 15 survived until they were killed; 3 animals that received H survived the planned observational interval. XPV showed mild neointimal thickening and degradation beginning at 2 months with an ongoing process until 12 months. Only 1 of the 18 animals with XPV had significant calcification at 6 months. Pathologic specimen did not show any significant narrowing of the conduit whereas neointimal thickness showed a peak at 6 months. Inflammatory process reached a maximum at 6 months and the degradation process at 12 months. Gel permeation chromatography analysis showed molecular weight loss beginning at 2 months with a peak at 12 months for the conduit with slower absorption for the leaflets. The wall of the H conduits showed more neointimal thickening, narrowing, and calcification compared with XPV, but the leaflets demonstrated minimal changes.
Both conduits demonstrated an acceptable safety and functionality. Significant calcification was rarely observed in the XPV, whereas the H developed more neointimal thickness with calcification of the porcine aortic root portion of the wall.
评估新型肺动脉带瓣管道(Xeltis 肺动脉带瓣管道;XPV)在绵羊模型中的安全性和短期功能,随访时间长达 12 个月。
将 XPV 和 Hancock 生物瓣带瓣管道(H,用作对照)植入成年绵羊的肺动脉位置。动物在 2 个月(n=6 XPV)、6 个月(n=6 XPV 和 n=3 H)和 12 个月(n=6 XPV)时处死,并进行组织学检查。在随访期间,通过经胸超声心动图评估设备的功能以及 XPV 和 H 的直径。
在接受 XPV 的 18 只动物中,15 只存活至处死;接受 H 的 3 只动物存活至计划观察间隔。XPV 在 2 个月时开始出现轻度新生内膜增厚和降解,直至 12 个月时仍在进行。只有 1 只 XPV 动物在 6 个月时有明显的钙化。病理标本未显示导管有任何明显狭窄,而新生内膜厚度在 6 个月时达到峰值。炎症过程在 6 个月时达到最大值,降解过程在 12 个月时达到最大值。凝胶渗透色谱分析显示,2 个月时开始出现分子量损失,12 个月时达到峰值,对于瓣叶吸收较慢的导管。H 导管的壁显示出比 XPV 更多的新生内膜增厚、狭窄和钙化,但瓣叶显示出最小的变化。
两种管道均表现出可接受的安全性和功能。XPV 中很少观察到明显的钙化,而 H 则表现出更明显的新生内膜增厚和钙化,尤其是猪主动脉根部部分的壁。
