Sistema FMUSP-HC: Faculdade de Medicina da Universidade de São Paulo (FMUSP) e Hospital das Clínicas da FMUSPBISELLI, Paolo Jose CesareNOBREGA, Raquel SiqueiraSORIANO, Francisco Garcia2018-11-212018-11-212018SENSORS, v.18, n.7, article ID 2163, 9p, 20181424-8220https://observatorio.fm.usp.br/handle/OPI/29354Flow sensors are required for monitoring patients on mechanical ventilation and in respiratory research. Proper calibration is important for ensuring accuracy and can be done with a precision syringe. This procedure, however, becomes complex for nonlinear flow sensors, which are commonly used. The objective of the present work was to develop an algorithm to allow the calibration of nonlinear flow sensors using an accurate syringe. We first noticed that a power law equation could properly fit the pressure-flow relationship of nonlinear flow sensors. We then developed a software code to estimate the parameters for this equation using a 3 L syringe (calibration syringe). Finally, we tested the performance of a calibrated flow sensor using a different 3 L syringe (testing syringe) and a commercially available spirometer. After calibration, the sensor had a bias ranging from -1.7% to 3.0% and precision from 0.012 L to 0.039 L for volumes measured with the 3 L testing syringe. Calibrated sensor performance was at least as good as the commercial sensor. This calibration procedure can be done at the bedside for both clinical and research purposes, therefore improving the accuracy of nonlinear flow sensors.engopenAccessflow sensorcalibrationmechanical ventilationnonlinearintensive-care-unitmechanical ventilationtidal volumesbenchicuarticleCopyright MDPI10.3390/s18072163Chemistry, AnalyticalElectrochemistryInstruments & Instrumentation