Title :
On-line determination of pulmonary blood flow using respiratory inert gas analysis
Author :
Gan, Kezheng ; Nishi, Isao ; Chin, Ian ; Slutsky, Arthur S.
Author_Institution :
Dept. of Med., Toronto Univ., Ont., Canada
Abstract :
An inert gas analysis method has been developed to perform on-line real time determination of pulmonary blood flow using a nonrebreathing approach. This technique is based on a mathematical model describing mass balance of two inert gases which are breathed using an open gas circuit. The measurements using this method are noninvasive, easy to perform, and do not disturb normal physiological processes. As well, since data are collected on a breath-by-breath basis, it is possible to estimate other respiratory, cardiopulmonary, and metabolic parameters simultaneously in a breath-by-breath manner. Special consideration was given to developing effective data processing algorithms to minimize the influence of measurement noise and respiratory variations. Experimental studies to compare this method with other accepted techniques were conducted to validate the present technique.
Keywords :
biomedical measurement; flow measurement; haemodynamics; inert gases; lung; effective data processing algorithms; mass balance; mathematical model; medical measurement method; nonrebreathing approach; normal physiological processes; online determination; open gas circuit; pulmonary blood flow; respiratory inert gas analysis; Biological system modeling; Biomedical measurements; Blood flow; Cardiology; Circuit testing; Circuits; Data processing; Gallium nitride; Gases; Mathematical model; Noise measurement; Performance analysis; Performance evaluation; Acetylene; Algorithms; Animals; Blood Flow Velocity; Cardiac Output; Dogs; Female; Humans; Linear Models; Male; Models, Biological; Online Systems; Pulmonary Circulation; Pulmonary Gas Exchange; Respiratory Dead Space; Respiratory Function Tests; Sensitivity and Specificity; Thermodilution;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
