Methodological issues in the quantification of respiratory sinus arrhythmia - PubMed (original) (raw)

Methodological issues in the quantification of respiratory sinus arrhythmia

John W Denver et al. Biol Psychol. 2007 Feb.

Abstract

Although respiratory sinus arrhythmia (RSA) is a commonly quantified physiological variable, the methods for quantification are not consistent. This manuscript questions the assumption that respiration frequency needs to be manipulated or monitored to generate an accurate measure of RSA amplitude. A review of recent papers is presented that contrast RSA amplitude with measures that use respiratory parameters to adjust RSA amplitude. In addition, data from two studies are presented to evaluate empirically both the relation between RSA amplitude and respiration frequency and the covariation between RSA frequency and respiration frequency. The literature review demonstrates similar findings between both classes of measures. The first study demonstrates, during spontaneous breathing without task demands, that there is no relation between respiration frequency and RSA amplitude and that respiration frequency can be accurately derived from the heart period spectrum (i.e., frequency of RSA). The second study demonstrates that respiration frequency is unaffected by atropine dose, a manipulation that systematically mediates the amplitude of RSA, and that the tight linkage between the RSA frequency and respiration frequency is unaffected by atropine. The research shows that the amplitude of RSA is not affected by respiration frequency under either baseline conditions or vagal manipulation via atropine injection. Respiration frequency is therefore unlikely to be a concern under these conditions. Research examining conditions that produce (causal) deviations from the intrinsic relation between respiratory parameters and the amplitude of RSA combined with appropriate statistical procedures for understanding these deviations are necessary.

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Figures

Figure 1

Scatterplot of the peak frequencies of RSA (MPF) and respiration (MPF).

Figure 2

Scatterplot of the frequency of respiration (MPF) and the amplitude of RSA (MPF).

Figure 3

Histogram of bootstrapped correlations of frequency of respiration and amplitude of RSA derived using the MPF.

Figure 4

Scatterplot of the amplitude of RSA derived by both spectral analysis (MPF) and MXedit.

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References

1. 1. Althaus M, Van Roon AM, Mulder LJM, Mulder G, AArnoudse CC, Minderaa RB. Autonomic response patterns observed during the performance of an attention-demanding task in two groups of children with autistic-type difficulties in social adjustment. Psychophysiology. 2004;41:893–904. - PubMed
2. 1. Berntson GG, Bigger JT, Jr, Eckberg DL, Grossman P, Kaufmann PG, Malik M, Nagaraja HN, Porges SW, Saul JP, Stone PH, van der Molen MW. Heart rate variability: origins, methods, and interpretive caveats. Psychophysiology. 1997;34:623–48. - PubMed
3. 1. Byrne EA, Porges SW. Data-dependent filter characteristics of peak-valley respiratory sinus arrhythmia estimation: A cautionary note. Psychophysiology. 1993;30:397–404. - PubMed
4. 1. Chambers AS, Allen JB. Vagal tone as an indicator of treatment response in major depression. Psychophysiology. 2002;39:861–864. - PubMed
5. 1. Dellinger JA, Taylor HL, Porges SW. Atropine sulfate effects on aviator performance and on respiratory-heart period interactions. Aviation and Space Environment Medicine. 1987;54:1242–1253. - PubMed

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