Muhammad Aanish Raees, Spencer Hogue, Alan O'Donnell, James F Cnota, David L S Morales, David G Lehenbauer, Farhan Zafar, James A Quintessenza, James S Tweddell, Awais Ashfaq
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Regurgitation fraction (RF%), closing volume (CV%), closing volume duration (CVd, second), effective orifice area (EOA, cm2), and peak pressure (PMax, mm Hg), and mean pressure (PMean, mm Hg) were measured. All valves reached goal cardiac output with mild regurgitation. Ovine pulmonary valves had significantly lower RF% than ePTFE valves (14 mm: 4.1 vs. 9.4%; 16 mm: 5.6 vs. 13.8%; 18 mm: 3.5 vs. 9.8%; 20 mm: 5.4% vs. 14.4%; p < 0.05, Table 3). Peak pressure was not significantly different between ovine versus ePTFE groups (14 mm: 37 vs. 24 mm Hg; 16 mm: 27 vs. 27 mm Hg; 18 mm: 26 vs. 27 mm Hg; 20 mm: 13 vs. 12 mm Hg). Expanded polytetrafluorethylene valves offer a viable option for pulmonary valve replacement given mild RF%, and comparable PMax. Further work is needed to understand the interplay between leaflet design and function.</p>","PeriodicalId":8844,"journal":{"name":"ASAIO Journal","volume":" ","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2025-08-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Ex Vivo Hydrodynamic Assessment of Expanded Polytetrafluoroethylene Trileaflet Pulmonary Valves.\",\"authors\":\"Muhammad Aanish Raees, Spencer Hogue, Alan O'Donnell, James F Cnota, David L S Morales, David G Lehenbauer, Farhan Zafar, James A Quintessenza, James S Tweddell, Awais Ashfaq\",\"doi\":\"10.1097/MAT.0000000000002521\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Handmade trileaflet valves using expanded polytetrafluorethylene (ePTFE) have been considered a viable option for pulmonary valve replacement. 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引用次数: 0
摘要
使用膨胀聚四氟乙烯(ePTFE)手工制作的三叶瓣膜被认为是肺瓣膜置换术的可行选择。研究已经对成人大小的瓣膜进行了体外测试,但儿科大小的ePTFE瓣膜的数据有限。我们的目的是评估儿科大小的ePTFE瓣膜和绵羊组织瓣膜作为比较来评估性能。使用尺寸为14至20毫米的0.1毫米ePTFE Gore-Tex膜构建三叶瓣膜,并将其缝合到hemasshield导管中。羊的肺瓣被收获,大小从14到20毫米不等。在儿童肺部条件下使用水动力测试仪测试阀门。测量回流分数(RF%)、关闭体积(CV%)、关闭体积持续时间(CVd,秒)、有效孔面积(EOA, cm2)、峰值压力(PMax, mm Hg)和平均压力(PMean, mm Hg)。所有瓣膜均达到目标心输出量,返流轻微。绵羊肺瓣膜的RF%明显低于ePTFE瓣膜(14 mm: 4.1 vs. 9.4%;16mm: 5.6% vs. 13.8%;18mm: 3.5 vs. 9.8%;20mm: 5.4% vs. 14.4%;p < 0.05,表3)。绵羊组和ePTFE组之间的峰值压力无显著差异(14 mm: 37 vs 24 mm Hg;16mm: 27mmhg vs 27mmhg;18mm: 26 vs. 27mmhg;20mm: 13 vs. 12mmhg)。膨胀式聚四氟乙烯瓣膜为肺瓣膜置换术提供了可行的选择,因为RF%较低,PMax也相当。需要进一步的工作来了解传单设计和功能之间的相互作用。
Ex Vivo Hydrodynamic Assessment of Expanded Polytetrafluoroethylene Trileaflet Pulmonary Valves.
Handmade trileaflet valves using expanded polytetrafluorethylene (ePTFE) have been considered a viable option for pulmonary valve replacement. Studies have performed ex vivo testing of adult sized valves, data on pediatric-sized ePTFE valves is limited. Our aim was to evaluate pediatric-sized ePTFE valves and ovine tissue valves as comparison to assess performance. Trileaflet valves were constructed using 0.1 mm ePTFE Gore-Tex membrane ranging from 14 to 20 mm in size and sutured into Hemashield conduits. Ovine pulmonary valves were harvested and ranged from 14 to 20 mm. Valves were tested under pediatric pulmonary conditions using a hydrodynamic tester. Regurgitation fraction (RF%), closing volume (CV%), closing volume duration (CVd, second), effective orifice area (EOA, cm2), and peak pressure (PMax, mm Hg), and mean pressure (PMean, mm Hg) were measured. All valves reached goal cardiac output with mild regurgitation. Ovine pulmonary valves had significantly lower RF% than ePTFE valves (14 mm: 4.1 vs. 9.4%; 16 mm: 5.6 vs. 13.8%; 18 mm: 3.5 vs. 9.8%; 20 mm: 5.4% vs. 14.4%; p < 0.05, Table 3). Peak pressure was not significantly different between ovine versus ePTFE groups (14 mm: 37 vs. 24 mm Hg; 16 mm: 27 vs. 27 mm Hg; 18 mm: 26 vs. 27 mm Hg; 20 mm: 13 vs. 12 mm Hg). Expanded polytetrafluorethylene valves offer a viable option for pulmonary valve replacement given mild RF%, and comparable PMax. Further work is needed to understand the interplay between leaflet design and function.
期刊介绍:
ASAIO Journal is in the forefront of artificial organ research and development. On the cutting edge of innovative technology, it features peer-reviewed articles of the highest quality that describe research, development, the most recent advances in the design of artificial organ devices and findings from initial testing. Bimonthly, the ASAIO Journal features state-of-the-art investigations, laboratory and clinical trials, and discussions and opinions from experts around the world.
The official publication of the American Society for Artificial Internal Organs.
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