The impact of cardiac activity on triaxially recorded endogenous microvibrations of the body

Abstract

The influence of cardiac activity on the endogenous microvibrations of the body (MV) was studied in a total of 37 young, healthy subjects. The force oscillations and the rectified and integrated force-time function in the three space directions were simultaneously recorded with the ECG and the arterial pulse during quiet bipedal standing before (control) and after isoprenaline inhalation, a work load of 150 W, and mild cold stress. In the vertical force component (F_z) 27 out of the 37 subjects showed cardiac characteristics similar to the ballistocardiogram. After isoprenaline or exercise, all 37 subjects showed these cardiac characteristics in F_z, and the maximal amplitudes as well as the rectified impulse values were increased in the three directions, but particularly in the z-axis. The propagation of the MV through the body was independent of the arterial pulsation. The increase in muscle tone due to cold stress led to a significant increase of the rectified impulse only in the sideward direction (S_Y). It is concluded that the triaxially recorded MV arise from cardiac activity, mainly reflected in the vertical (z) axis, and from skeletal musculature representing a mechanical oscillating system with varying material constants (muscle tension, inertial forces, etc.).