Rb. Panerai et al., IMPULSE-RESPONSE ANALYSIS OF BARORECEPTOR SENSITIVITY, American journal of physiology. Heart and circulatory physiology, 41(4), 1997, pp. 1866-1875
The impulse response function (IRF) can express the dynamic relationsh
ip between systolic arterial pressure (SAP) and pulse interval (PI) an
d, consequently, represents an alternative method to assess barorecept
or sensitivity (BRS) in humans. Five normotensive and 13 hypertensive
subjects (age 68 +/- 5 yr, range 60-74 yr) were studied at rest in the
supine position during baseline conditions and after injections of ph
enylephrine and sodium nitroprusside. SAP and PI signals were derived
from multiple 5-min noninvasive recordings of arterial blood pressure
(Finapres) and electrocardiogram. Standard estimates of BRS were obtai
ned by the slopes of transient changes in SAP and PI after the injecti
on of phenylephrine and sodium nitroprusside (BRSPE and BRSSNP) and by
spectral analysis (cr-index). impulse responses were obtained by the
inverse Fourier transform of the transfer function between PI and SAP.
The temporal pattern of the IRF was characterized by a main peak at t
= 0, preceded by a ''trough'' at t = -1 s. A mathematical model of th
e baroreflex suggests that the peak value of IRF is linearly related t
o the BRS. The peak value and its smoothed version were shown to be si
gnificantly correlated to alpha, BRSPE, and BRSSNP and significantly r
educed in the hypertensive group during the three stages of the protoc
ol. We suggest that IRF might be the ideal method to assess BRS becaus
e it does not require any subjective preselection of data segments or
spectral bands.