Fabrication of a high frequency in vivo ultrasonic Doppler wall shear rate measuring device using micromolding techniques

Fabrication of a high frequency in vivo ultrasonic Doppler wall shear rate measuring device using micromolding techniques

The purpose of this paper is to develop micromolding techniques for the fabrication of a more accurate high frequency pulse ultrasonic Doppler wall shear rate (PUDWSR) device. The PUDWSR device was developed utilizing three, center-aligned, 20-MHz ultrasound crystal-lens combinations with beam angle...

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Hauptverfasser: Xu, Y., Morley, A.T., Crain, M.M., Roussel, T.J., Conklin, J.A., Price, L., Barnett, E., McGuyer, J.C., Cambron, S., Friedrich, C.R., Walsh, K.M., Keynton, R.S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acoustic beams
Crystals
Fabrication
Frequency measurement
In vivo
Lenses
Mechanical engineering
Ultrasonic imaging
Ultrasonic transducers
Ultrasonic variables measurement
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Zusammenfassung:The purpose of this paper is to develop micromolding techniques for the fabrication of a more accurate high frequency pulse ultrasonic Doppler wall shear rate (PUDWSR) device. The PUDWSR device was developed utilizing three, center-aligned, 20-MHz ultrasound crystal-lens combinations with beam angles of 37/spl deg/, 49/spl deg/ and 58/spl deg/ to the plane of flow with corresponding inter-crystal spacings of 1.51 mm and 2.03 mm. The crystal-lens combinations were made using a micromolding/stamping technique and the correct position of the three crystal-lens combinations was maintained by three fixed-angled wells constructed out of Sylgard using photolithography technology. Both the radius of curvature of the micromolded acoustical lenses and crystal-lens combination angles were found to be within 3% of the design.
DOI:10.1109/MMB.2002.1002270