Electrical impedance cardiogram in derivation of systolic time intervals.

“…The onset of left ventricular ejection has been identified as 15% of the dZ/dt signal [11,12], the point of rapid upstroke of dZ/dt [3,9,10] and the zero crossing of dZ/dt [2,[4][5][6][7][8]. When comparing these methods (zero crossing, rapid upstroke and 15 % dZ/dt) of determining STI with the AP method under normal conditions, clearly the best relationships are demonstrated with the zero crossing and rapid upstroke methods.…”

“…The utility of having the means to accurately deter mine STI noninvasively has been examined, by many authors, in regards to specific factors or cardiac anoma lies that can influence fluctuations in timing [1,2,3,[17][18][19], Accuracy in determining these intervals is, therefore, of utmost importance. We used only healthy dogs in this study.…”

“…Fur ther, coefficients of variation between signals within dog and indi vidual were assessed. In addition, from the same dZ/dt signals, STI were determined from the zero crossing method [2,6,7], the rapid upstroke method [3,5,9] and 15% dZ/dt method [11,12]. AP, delta Z and dZ/dt were determined simultaneously (see text).…”

“…Although systolic time intervals (STI) have classically been determined noninvasively by the combined utiliza tion of phonocardiography, a carotid pulse tracing, and electrocardiography to assess ventricular function [1], other noninvasive bioelectric impedance methods [2][3][4][5] have also been utilized to make these determinations. The first derivative of the impedance waveform (dZ/dt) has been used by several workers in the attempt to deter tromechanical systole (EMS)) were determined from the impedance signals and were compared to those simulta neously ascertained from the ascending AP waveforms.…”

“…mine the onset of left ventricular ejection. The zero crossing of dZ/dt (the point where the dZ/dt waveform crosses the baseline) has been described by some authors [2,[4][5][6][7][8]. Others have used the point of the rapid up stroke of dZ/dt [3,9,10].…”

Noninvasive Measurement of Systolic Time Intervals in the Dog Through the Use of Bioelectric Impedance

“…The onset of left ventricular ejection has been identified as 15% of the dZ/dt signal [11,12], the point of rapid upstroke of dZ/dt [3,9,10] and the zero crossing of dZ/dt [2,[4][5][6][7][8]. When comparing these methods (zero crossing, rapid upstroke and 15 % dZ/dt) of determining STI with the AP method under normal conditions, clearly the best relationships are demonstrated with the zero crossing and rapid upstroke methods.…”

“…The utility of having the means to accurately deter mine STI noninvasively has been examined, by many authors, in regards to specific factors or cardiac anoma lies that can influence fluctuations in timing [1,2,3,[17][18][19], Accuracy in determining these intervals is, therefore, of utmost importance. We used only healthy dogs in this study.…”

“…Fur ther, coefficients of variation between signals within dog and indi vidual were assessed. In addition, from the same dZ/dt signals, STI were determined from the zero crossing method [2,6,7], the rapid upstroke method [3,5,9] and 15% dZ/dt method [11,12]. AP, delta Z and dZ/dt were determined simultaneously (see text).…”

“…Although systolic time intervals (STI) have classically been determined noninvasively by the combined utiliza tion of phonocardiography, a carotid pulse tracing, and electrocardiography to assess ventricular function [1], other noninvasive bioelectric impedance methods [2][3][4][5] have also been utilized to make these determinations. The first derivative of the impedance waveform (dZ/dt) has been used by several workers in the attempt to deter tromechanical systole (EMS)) were determined from the impedance signals and were compared to those simulta neously ascertained from the ascending AP waveforms.…”

“…mine the onset of left ventricular ejection. The zero crossing of dZ/dt (the point where the dZ/dt waveform crosses the baseline) has been described by some authors [2,[4][5][6][7][8]. Others have used the point of the rapid up stroke of dZ/dt [3,9,10].…”

Noninvasive Measurement of Systolic Time Intervals in the Dog Through the Use of Bioelectric Impedance

Possibilities and Limitations of Thoracic Impedance Cardiography

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