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Walsh JT, Gregorini L, Mancia G. Evaluation of an index of peripheral vascular resistance in human subjects. J Hypertens. 1985;3(6):621-9doi: 10.1097/00004872-198512000-00008.
Walsh, J. T., Gregorini, L., & Mancia, G. (1985). Evaluation of an index of peripheral vascular resistance in human subjects. Journal of hypertension, 3(6), 621-9. https://doi.org/10.1097/00004872-198512000-00008
Walsh, J T, et al. "Evaluation of an index of peripheral vascular resistance in human subjects." Journal of hypertension vol. 3,6 (1985): 621-9. doi: https://doi.org/10.1097/00004872-198512000-00008
Walsh JT, Gregorini L, Mancia G. Evaluation of an index of peripheral vascular resistance in human subjects. J Hypertens. 1985 Dec;3(6):621-9. doi: 10.1097/00004872-198512000-00008. PMID: 4086819.
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J Hypertens. 1985 Dec;3(6):621-9. doi: 10.1097/00004872-198512000-00008.

Evaluation of an index of peripheral vascular resistance in human subjects.

Journal of hypertension

J T Walsh, L Gregorini, G Mancia

PMID: 4086819 DOI: 10.1097/00004872-198512000-00008

Abstract

Based on evidence in animal studies, an index of resistance in man has been evaluated. In 10 human subjects, ranging in age from 31 to 60 years, direct brachial arterial pressure was measured, and a computer program using linear regression calculated the index of resistance from the slope of the logarithm of the pressure versus time during the second half of diastole. Resistance was independently calculated from 20-s averages of pressure and cardiac output obtained by thermodilution. Resistance was varied by infusion of phenylephrine and nitroprusside. The values of the index of resistance were compared with independently calculated resistance by linear regression and correlation. The index of resistance was variably correlated with independently calculated resistance. However, when the comparison was limited to points with a model correlation coefficient greater than or equal to 0.98 (i.e. a good fit of a straight line to the logarithm of pressure versus time), the correlation of the index of resistance with calculated resistance approached or exceeded 0.9 in eight of 10 subjects. In the two subjects showing poor correlation of the index with calculated resistance, estimated compliance from the same model was much lower than in the other subjects. In the same two subjects pressure dependence of estimated compliance was much higher than in the other subjects, suggesting the presence of significant atherosclerosis. We concluded that the diastolic decay of pressure may be used to calculate a useful index of resistance, provided that a single exponential decay fits the observed diastolic waveform well, and arterial compliance is not significantly reduced by atherosclerosis.

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