A parametric model approach for quantification of short term QT variability uncorrelated with heart rate variability

Author

Almeida, R. ; Pueyo, E. ; Martinez, JP ; Rocha, AP ; Olmos, S. ; Laguna, P.

Author_Institution

Dep. de Matematica Aplicada, Porto Univ., Portugal

fYear

2003

fDate

21-24 Sept. 2003

Firstpage

165

Lastpage

168

Abstract

In this work we propose to assess the relation between HRV and QTV measured by an automatic delineator. A low order linear autoregressive model on RR versus QT interactions was used to explore short term relations and quantify the fractions of QTV correlated and not correlated with HRV. Power spectral density measures were estimated from the total QTV and from the two separated fractions using the proposed model. Simulated RR and QT series were used to quantify the error bounds associated to the method performance. ECG records of young normal subjects were processed to obtain the RR and QT series. The high QTV fraction not correlated with RR found in these records (over 40% in 98% of the segments) indicates that an important part of QTV can be driven by other factors rather than by heart rate, and may contain complementary information.

Keywords

electrocardiography; medical signal processing; ECG; automatic delineator; beat-to-beat variability; heart rate variability; low order linear autoregressive model; parametric model approach; power spectral density; short term QT variability; Density measurement; Electrocardiography; Fluctuations; Frequency; Heart rate; Heart rate interval; Heart rate variability; Parametric statistics; Power measurement; Virtual reality;

fLanguage

English

Publisher

ieee

Conference_Titel

Computers in Cardiology, 2003

ISSN

0276-6547

Print_ISBN

0-7803-8170-X

Type

conf

DOI

10.1109/CIC.2003.1291116

Filename

1291116