TY - JOUR
T1 - Application of pulsed-wave Doppler ultrasound to exploration of the peripheral vasomotor response by gender and hand dominance
AU - Chang, Ke Vin
AU - Wu, Chueh Hung
AU - Yeh, Tian Shin
AU - Wang, Tyng Guey
AU - Hsiao, Ming Yen
AU - Chen, Wen Shiang
N1 - Funding Information:
Acknowledgments The authors would like to thank the staff and volunteers who participated in the study and the researchers who conducted the original study. This research was partially supported by a grant from the National Science Council, no. 99-2320-B-002-005-MY3.
PY - 2011/10
Y1 - 2011/10
N2 - Purpose: Laser Doppler flowmetry measures peripheral vasomotor response but fails to detect changes in vascular diameters, resistance, and heart rates. Because this response contributes to assessing sympathetic disorders and relies on the above variables to be correctly interpreted, we used pulsed-wave Doppler (PWD) ultrasound to evaluate the response and to determine whether it was affected by gender or hand dominance. Methods: PWD was applied to bilateral deep palmar branches of the radial arteries of 22 men and 22 women, using post-inspiratory cough as the sympathetic stimulus. Pulsatility index (PI), arterial diameters, heart rates, flow velocity, and blood flow before and after sympathetic stimuli were analyzed for both groups. Results: Women had a higher PI value of the radial arteries at rest; in contrast, that of men was higher after sympathetic stimuli. Blood flow velocity (V max, V max mean, and V mean) at rest was higher for men than for women. A significant difference was observed in V min after stimulus. Arterial diameters and blood flow before and after stimuli were higher for men than for women. Post-inspiratory cough caused significant diameter reduction in women but heart rate elevation in men. Hand dominance had no effect. Conclusions: This study demonstrated the suitability of PWD for detailing peripheral vasomotor response, which was affected by gender but not hand dominance. Our results suggest application of PWD to diseases with unilateral sympathetic impairment, but responses for different sexes should be treated with caution.
AB - Purpose: Laser Doppler flowmetry measures peripheral vasomotor response but fails to detect changes in vascular diameters, resistance, and heart rates. Because this response contributes to assessing sympathetic disorders and relies on the above variables to be correctly interpreted, we used pulsed-wave Doppler (PWD) ultrasound to evaluate the response and to determine whether it was affected by gender or hand dominance. Methods: PWD was applied to bilateral deep palmar branches of the radial arteries of 22 men and 22 women, using post-inspiratory cough as the sympathetic stimulus. Pulsatility index (PI), arterial diameters, heart rates, flow velocity, and blood flow before and after sympathetic stimuli were analyzed for both groups. Results: Women had a higher PI value of the radial arteries at rest; in contrast, that of men was higher after sympathetic stimuli. Blood flow velocity (V max, V max mean, and V mean) at rest was higher for men than for women. A significant difference was observed in V min after stimulus. Arterial diameters and blood flow before and after stimuli were higher for men than for women. Post-inspiratory cough caused significant diameter reduction in women but heart rate elevation in men. Hand dominance had no effect. Conclusions: This study demonstrated the suitability of PWD for detailing peripheral vasomotor response, which was affected by gender but not hand dominance. Our results suggest application of PWD to diseases with unilateral sympathetic impairment, but responses for different sexes should be treated with caution.
KW - Doppler
KW - Radial artery
KW - Sex
KW - Sympathetic nerve system
KW - Vasomotor response
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U2 - 10.1007/s10396-011-0310-2
DO - 10.1007/s10396-011-0310-2
M3 - Article
AN - SCOPUS:84855269515
SN - 1346-4523
VL - 38
SP - 195
EP - 202
JO - Journal of Medical Ultrasonics
JF - Journal of Medical Ultrasonics
IS - 4
ER -