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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/26514


    Title: In vitro assessment of the flow fields in a three-dimensional pulmonary artery model with varying degrees of valvular stenosis
    Authors: Hsu,TL;Hsu,CH;Hsu,JC;Sung,HW
    Contributors: 化學工程與材料工程學系
    Keywords: PULSATILE FLOW;VELOCITY;INVITRO
    Date: 1998
    Issue Date: 2010-06-29 17:29:49 (UTC+8)
    Publisher: 中央大學
    Abstract: This study was conducted to assess the effects of varying degrees of valvular stenosis on the flow fields in a three-dimensional pulmonary artery model. Porcine pulmonary arteries procured from a slaughterhouse were used as test models. To produce dilated main (MPA) and left (LPA) pulmonary arteries similar to those clinically observed in valvular pulmonic stenosis, an epoxy fixation technique was employed. A three-dimensional echocardiographic reconstruction method for color Doppler flow mapping was used to examine the flow fields in the test models. Additionally, transvalvular pressure drops were measured by a side-hole catheter and predicted by a Doppler-derived Bernoulli equation. Changes in flow fields in the MPA were observed as the pulmonic valve became stenotic. A jet-like flow was present distal to the stenotic valve. The change in geometry in the MPA, due to its dilatation, had a marked effect on the pulmonary artery hemodynamics. The jet-like flow seen distal to the valve deflected away from the centerline and impinged on the roof of the MPA. The force impinging on the stenotic valve and the roof of the MPA increased with increasing degree of valvular stenosis. Clinically, this may impair the stenotic valve and make the dilatation of the MPA more profound. The Doppler-predicted pressure drops correlated well with the catheter-measured pressure drops. The measured transvalvular pressure drops increased with increasing degree of valvular stenosis, As a result of increasing pressure drop, the transvalvular energy loss increased as the valve became more stenotic. Some degree of pressure recovery, reflected by a decrease in transvalvular pressure drop with increasing distance from the valve, was observed for each stenotic valve. The extent of pressure recovery increased as the valve became more stenotic. The study demonstrates the necessity of considering complex biological flows from a three-dimensional viewpoint.
    Relation: JOURNAL OF THE CHINESE INSTITUTE OF ENGINEERS
    Appears in Collections:[National Central University Department of Chemical & Materials Engineering] journal & Dissertation

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