Linear and nonlinear quantification of respiratory sinus arrhythmia during propofol general anesthesia

Zhe Chen; Purdon, P.L.; Pierce, E.T.; Harrell, G.; Walsh, J.; Salazar, A.F.; Tavares, C.L.; Brown, E.N.; Barbieri, R.

Author(s)

Pierce, Eric T.; Harrell, P. Grace; Walsh, John; Salazar, Andres F.; Tavares, Casie L.; ... Show more

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Alternative title

Linear and Nonlinear Quantification of Respiratory Sinus Arrhythmia during Propofol General Anesthesia

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Abstract

Quantitative evaluation of respiratory sinus arrhythmia (RSA) may provide important information in clinical practice of anesthesia and postoperative care. In this paper, we apply a point process method to assess dynamic RSA during propofol general anesthesia. Specifically, an inverse Gaussian probability distribution is used to model the heartbeat interval, whereas the instantaneous mean is identified by a linear or bilinear bivariate regression on the previous R-R intervals and respiratory measures. The estimated second-order bilinear interaction allows us to evaluate the nonlinear component of the RSA. The instantaneous RSA gain and phase can be estimated with an adaptive point process filter. The algorithm's ability to track non-stationary dynamics is demonstrated using one clinical recording. Our proposed statistical indices provide a valuable quantitative assessment of instantaneous cardiorespiratory control and heart rate variability (HRV) during general anesthesia.

Date issued

2009-11

URI

http://hdl.handle.net/1721.1/58954

Department

Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences

Journal

Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2009

Publisher

Institute of Electrical and Electronics Engineers

Citation

Zhe Chen et al. “Linear and nonlinear quantification of respiratory sinus arrhythmia during propofol general anesthesia.” Engineering in Medicine and Biology Society, 2009. EMBC 2009. Annual International Conference of the IEEE. 2009. 5336-5339. © 2009 IEEE

Version: Final published version

Other identifiers

INSPEC Accession Number: 10992199

ISBN

978-1-4244-3296-7

ISSN

1557-170X

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MIT Open Access Articles

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