Takamasa Fukuda scite author profile

Takamasa Fukuda

5Publications

4Citation Statements Received

0Citation Statements Given

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Affiliations

Kanto Gakuin University, Suzuki (Japan)

Publications

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Time-resolved particle image velocimetry and laser doppler anemometry study of the turbulent flow field of bileaflet mechanical mitral prostheses

Akutsu¹,

Fukuda²

2005

J Artif Organs

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Dynamic particle image velocimetry (PIV) was applied to the study of the flow field associated with prosthetic heart valves. The results were compared with those of laser Doppler anemometry (LDA). Anatomically and antianatomically oriented Jyros (JR) and St. Jude Medical (SJM) valves were compared in the mitral position to study the effects of valve design on the downstream flow field. The experimental program used a dynamic PIV system utilizing high-speed, high-resolution video to map the true time-resolved velocity field inside the simulated ventricle. This system was complemented by a study using the more traditional LDA system for comparison. Based on the experimental data, the following general conclusions can be made. High-resolution dynamic PIV can capture true chronological changes in the velocity and turbulence fields. It also produces very detailed velocity and turbulence information comparable to the LDA results. In the vertical measuring plane that passes both the center of the aortic and mitral valves (A-A section), the two valves (the SJM and the JR) show distinct circulatory flow patterns when the valve is installed in the antianatomical orientation. Small differences in valve design can generate noticeable differences, particularly during the accelerating flow phase. The SJM valve maintains a relatively high velocity through the central orifice; the curved leaflets of the JR valve generate higher velocities with a divergent flow during the accelerating and peak flow phases. In the velocity field directly below the mitral valve and normal to the previous measuring plane (B-B section), where characteristic differences in valve design will be visible, symmetrical twin circulations were observed because of the divergent nature of the flow generated by the two inclined half-disks installed in the antianatomical orientation. The SJM valve, with a central downward flow near the valve, is contrasted with the JR valve, which has a peripheral downward circulation with higher, turbulent stresses.

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Turbulent flow field analysis of the mechanical prosthetic valves using time resolved PIV system

Akutsu

Sakurai

Fukuda

2004

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Computational analysis of flow field characteristics of a liquid rocket unshrouded impeller

Negishi

Ohno

Fukuda³

et al. 2019

IOP Conf. Ser.: Earth Environ. Sci.

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235 Influence of the several mechanical bi-leaflet prosthetic mitral valve designs on the three dimensional flow field inside the ventricle

Akutsu

Saito

Fukuda

et al. 2006

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Ventricular Flow Field Analysis of the Mechanical Mitral Bi-leaflet Prostheses

Fukuda¹,

Saito²,

Imai³

et al. 2006

Journal of the Visualization Society of Japan

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Several bi-leaflet prostheses (the St. Jude Medical(SJM) valve etc.) were tested in the mitral position under pulsatile-flow condition. Dynamic PIV system was employed to analyze the flow field affected by the leaflet shapes and valve designs. Scanning PIV was developed to measure the three-dimensional flow inside the ventricular. The pulsed Nd:YLF laser was scanned by a polygon mirror in other to provide several light sheets inside ventricular. Detailed chronological comparison of the flow fields associated with the opening, accelerating, peak and closing phase of the flow revealed the significance of the leaflet and overall valve designs on the flow field. The Scanning PIV system was applied successfully to the study of the three-dimensional flow field.

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Takamasa Fukuda

Time-resolved particle image velocimetry and laser doppler anemometry study of the turbulent flow field of bileaflet mechanical mitral prostheses

Turbulent flow field analysis of the mechanical prosthetic valves using time resolved PIV system

Computational analysis of flow field characteristics of a liquid rocket unshrouded impeller

235 Influence of the several mechanical bi-leaflet prosthetic mitral valve designs on the three dimensional flow field inside the ventricle

Ventricular Flow Field Analysis of the Mechanical Mitral Bi-leaflet Prostheses

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