Noninvasive Monitoring of Cardiac Preload and Contractility by Heart Beat-Derived Mechanical Vibration on the Chest Wall in Guinea Pigs

Adachi, Takeshi; Ohba, Takayoshi; Fujisawa, Susumu; Ono, Koichi

doi:10.17987/jatamis.v1i0.207

J.ATAMIS

2016

DOI: 10.17987/jatamis.v1i0.207

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Noninvasive Monitoring of Cardiac Preload and Contractility by Heart Beat-Derived Mechanical Vibration on the Chest Wall in Guinea Pigs

Takeshi Adachi¹,

Takayoshi Ohba²,

Susumu Fujisawa³

et al.

Abstract: Background: Myocardial motion produces compression waves that are transmitted to the surface of the chest and vibrate the chest wall. Piezoelectric transducers, which detect mechanical vibrations, may be useful for evaluating cardiac and/or breathing movements when the sensor is placed under an animal’s body.Methods: We assessed heartbeat-related chest vibration signals (CVS) detected… Show more

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“…While complications are infrequent, repeated invasive pressure measurements are avoided in patients 5 . Repeated measurements of invasive pressure can be utilized in large animal research, but the invasive nature of this measurement has motivated investigators [5][6][7][8][9][10][11][12] to develop noninvasive methods to measure ventricular contractility.…”

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confidence: 99%

Aortic acceleration as a noninvasive index of left ventricular contractility in the mouse

Perez

Ortiz-Urbina

Heredia

et al. 2021

Sci Rep

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The maximum value of the first derivative of the invasively measured left ventricular (LV) pressure (+ dP/dtmax or P′) is often used to quantify LV contractility, which in mice is limited to a single terminal study. Thus, determination of P′ in mouse longitudinal/serial studies requires a group of mice at each desired time point resulting in “pseudo” serial measurements. Alternatively, a noninvasive surrogate for P′ will allow for repeated measurements on the same group of mice, thereby minimizing physiological variability and requiring fewer animals. In this study we evaluated aortic acceleration and other parameters of aortic flow velocity as noninvasive indices of LV contractility in mice. We simultaneously measured LV pressure invasively with an intravascular pressure catheter and aortic flow velocity noninvasively with a pulsed Doppler probe in mice, at baseline and after the administration of the positive inotrope, dobutamine. Regression analysis of P′ versus peak aortic velocity (vp), peak velocity squared/rise time (vp2/T), peak (+ dvp/dt or v′p) and mean (+ dvm/dt or v′m) aortic acceleration showed a high degree of association (P′ versus: vp, r2 = 0.77; vp2/T, r2 = 0.86; v′p, r2 = 0.80; and v′m, r2 = 0.89). The results suggest that mean or peak aortic acceleration or the other parameters may be used as a noninvasive index of LV contractility.

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mentioning

confidence: 99%

Aortic acceleration as a noninvasive index of left ventricular contractility in the mouse

Perez

Ortiz-Urbina

Heredia

et al. 2021

Sci Rep

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Noninvasive Monitoring of Cardiac Preload and Contractility by Heart Beat-Derived Mechanical Vibration on the Chest Wall in Guinea Pigs

Cited by 1 publication

References 23 publications

Aortic acceleration as a noninvasive index of left ventricular contractility in the mouse

Aortic acceleration as a noninvasive index of left ventricular contractility in the mouse

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