Abstract
LSCI technique provides experimental data which can be considered in the context of spatial blood flow coherency. Analysis of vascular tone oscillations gives additional information to ensure a better understanding of the mechanisms affecting microvascular physiology. The oscillations with different frequencies are due to different physiological mechanisms. The reasons for the generation of peripheral blood flow oscillations in the 0.14–0.6 Hz frequency band are as follows: cardio-respiratory interactions, pressure variations in the venous part of the circulatory system, and the effect of the sympathetic nervous system on the vascular tone. Earlier, we described the spatial heterogeneity of around 0.3 Hz oscillations and this motivated us to continue the research to find the conditions for the occurrence of spatial phase synchronization. For this purpose, a number of physiological tests (controlled respiration, breath holder, and venous occlusion tests) which influence the blood flow oscillations of 0.14–0.6 Hz were considered, an appropriate measurement system and the required data processing algorithms were developed. At spontaneous respiration, the oscillations with frequencies around 0.3 Hz were stochastic, whereas all the performed tests induced an increase in spatial coherence. The protocols and methods proposed here can help to clarify whether the heterogeneity of respiratory-related blood flow oscillations exists on the skin surface.
Highlights
The study of vascular tone oscillations is needed to gain deeper insight into the mechanisms or factors that affect microvascular physiology
In Ref. [20], we demonstrated for the first time the possibility of detailed spectral analysis of laser speckle contrast signals, which made it possible to study the spatial variations of blood flow oscillations
The controlled respiration frequency is slightly shifted from the mean frequency of the spontaneous respiration, but this deviation is smaller in the right panel and can be attributed to the drawbacks of the experimental protocol
Summary
The study of vascular tone oscillations is needed to gain deeper insight into the mechanisms or factors that affect microvascular physiology. In the spectra of peripheral blood flow, there are several peaks which correspond to different physiological mechanisms of vascular tone regulation [1]. The oscillations with frequencies close to 1 Hz are caused by the activity of the heart and are related to pulse wave propagation. The characteristic time of the arteriole wall muscle activity is approximately 10 s, and the modulation (0.1 Hz) is observed in the peripheral blood flow signals [2].
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