Abstract
Vascular tone plays a vital role in regulating blood pressure and coronary circulation, and it determines the peripheral vascular resistance. Vascular tone is dually regulated by the perivascular nerves and the cells in the inside lining of blood vessels (endothelial cells). Only a few methods for measuring vascular tone are available. Because of this, determining vascular tone in different arteries of the human body and monitoring tone changes is a vital challenge. This work presents an approach for determining vascular tone in human extremities based on multi-channel bioimpedance measurements. Detailed steps for processing the bioimpedance signals and extracting the main parameters from them have been presented. A graphical interface has been designed and implemented to display the vascular tone type in all channels with the phase of breathing during each cardiac cycle. This study is a key step towards understanding the way vascular tone changes in the extremities and how the nervous system regulates these changes. Future studies based on records of healthy and diseased people will contribute to increasing the possibility of early diagnosis of cardiovascular diseases.
Highlights
The industrialized world is witnessing some common and costly diseases such as those related to cardiovascular issues.Cases of total cardiovascular diseases (CVD) nearly doubled from 271 million in 1990 to 523 million in 2019, and the number of CVD deaths steadily increased from 12.1 million in 1990 to 18.6 million in 2019 [1,2,3]
It is not recommended to use peak C as the value of this point changes due to stroke volume variation (SVV)
It was clarified earlier that this study aims at presenting a practical method for observing changes in vascular tone in the extremities
Summary
The industrialized world is witnessing some common and costly diseases such as those related to cardiovascular issues.Cases of total cardiovascular diseases (CVD) nearly doubled from 271 million in 1990 to 523 million in 2019, and the number of CVD deaths steadily increased from 12.1 million in 1990 to 18.6 million in 2019 [1,2,3] In this regard, it is important to mention that changes in vessel tone are important in regulating blood flow in arteries and blood pressure in general. Most blood vessels contain flexible muscles (smooth muscles) that are capable of constricting to a certain degree. Both endothelium and vascular smooth muscle (VSM) affect the vascular tone [4,5]
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