Search results for "pulse transit time"

showing 2 items of 2 documents

Feasibility of cuff-free measurement of systolic and diastolic arterial blood pressure

2011

We validated a prototype cuff-free device for noninvasive estimation of blood pressure (BP). The system assumed a linear relation between BP values and the inverse of arterial blood pulse transit time, measured as time interval between the R wave on the electrocardiograph and the onset of the peripheral pulse wave on a finger plethysmogram. Thirty-three healthy subjects were analyzed at rest and during increasing stress exercise. To estimate subject-specific linear model parameters, the system was calibrated ad personam with reference to BP measures obtained by a cuff sphygmomanometer. High correlation values (R2= 0.89 and 0.78 for systolic and diastolic BP, respectively) and differences co…

AdultMalemedicine.medical_specialtySystoleDiastolePulse transit timeSphygmomanometerSensitivity and SpecificityQRS complexDiastoleInternal medicineValidationmedicineHumansDiagnosis Computer-AssistedSystolePhotoplethysmographyAccuracyAgedbusiness.industryReproducibility of ResultsBlood Pressure DeterminationEquipment DesignMiddle AgedSphygmomanometersConfidence intervalSurgeryBlood pressure monitoringEquipment Failure AnalysisBlood pressurePulsatile FlowCuffSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaElectrocardiography AmbulatoryCardiologyNoninvasive measurementFeasibility StudiesArterial bloodFemalebusinessCardiology and Cardiovascular Medicine
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Physiological parameters measurements in a cardiac cycle via a combo PPG-ECG system

2015

In this paper, we present an innovative way to measure some physiological parameters (such as the pre-ejection period, the pulse transit time, the blood pressure) in a cardiac cycle. A combo PPG-ECG system has been developed and employed to extract both the ECG signal from standard limb leads and simultaneously the photoplethysmography signal from the wrist and the forearm, to calculate the pre-ejection period. This system represents an easy and non-invasive technique to determine these biomedical parameters without using expensive impedance cardiography equipment.

silicon photo-multipliermedicine.diagnostic_testCardiac cycleComputer scienceblood pressurePulse Transit Timemean arterial pressure.SignalSettore ING-INF/01 - ElettronicaImpedance cardiographyBlood pressuremedicine.anatomical_structureForearmpulse transit timePhotoplethysmogrammedicinepre-ejection periodEcg signalBiomedical engineering
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