TY - JOUR
T1 - A Novel Microflow Phantom Dedicated to Ultrasound Microvascular Measurements
AU - Grand-Perret, Virginie
AU - Jacquet, Jean René
AU - Leguerney, Ingrid
AU - Benatsou, Baya
AU - Grégoire, Jean Marc
AU - Willoquet, Georges
AU - Bouakaz, Ayache
AU - Lassau, Nathalie
AU - Pitre-Champagnat, Stephanie
N1 - Publisher Copyright:
© The Author(s) 2018.
PY - 2018/9/1
Y1 - 2018/9/1
N2 - Tumor microvascularization is a biomarker of response to antiangiogenic treatments and is accurately assessed by ultrasound imaging. Imaging modes used to visualize slow flows include Power Doppler imaging, dynamic contrast-enhanced ultrasonography, and more recently, microvascular Doppler. Flow phantoms are used to evaluate the performance of Doppler imaging techniques, but they do not have a steady flow and sufficiently small channels. We report a novel device for robust and stable microflow measurements and the study of the microvascularization. Based on microfluidics technology, the prototype features wall-less cylindrical channels of diameters ranging from as small as 147 up to 436 µm, cast in a soft silicone polymer and perfused via a microfluidic flow pressure controller. The device was assessed using flow rates from 49 to 146 µL/min, with less than 1% coefficient of variation over three minutes, corresponding to velocities of 6 to 142 mm/s. This enabled us to evaluate and confirm the reliability of the Superb Microvascular Imaging Doppler mode compared with the Power Doppler mode at these flow rates in the presence of vibrations mimicking physiological motion.
AB - Tumor microvascularization is a biomarker of response to antiangiogenic treatments and is accurately assessed by ultrasound imaging. Imaging modes used to visualize slow flows include Power Doppler imaging, dynamic contrast-enhanced ultrasonography, and more recently, microvascular Doppler. Flow phantoms are used to evaluate the performance of Doppler imaging techniques, but they do not have a steady flow and sufficiently small channels. We report a novel device for robust and stable microflow measurements and the study of the microvascularization. Based on microfluidics technology, the prototype features wall-less cylindrical channels of diameters ranging from as small as 147 up to 436 µm, cast in a soft silicone polymer and perfused via a microfluidic flow pressure controller. The device was assessed using flow rates from 49 to 146 µL/min, with less than 1% coefficient of variation over three minutes, corresponding to velocities of 6 to 142 mm/s. This enabled us to evaluate and confirm the reliability of the Superb Microvascular Imaging Doppler mode compared with the Power Doppler mode at these flow rates in the presence of vibrations mimicking physiological motion.
KW - flow imaging
KW - flow phantom
KW - microfluidics
KW - microvascular Doppler
KW - power Doppler imaging
KW - superb microvascular imaging
KW - ultrasound microvasculature
UR - http://www.scopus.com/inward/record.url?scp=85048827223&partnerID=8YFLogxK
U2 - 10.1177/0161734618783975
DO - 10.1177/0161734618783975
M3 - Article
C2 - 29923458
AN - SCOPUS:85048827223
SN - 0161-7346
VL - 40
SP - 325
EP - 338
JO - Ultrasonic Imaging
JF - Ultrasonic Imaging
IS - 5
ER -