Dynamic cerebral autoregulation (dCA) can be characterized by assessing transfer function gain (TFG) from mean cerebral blood velocity (MCBv) to mean arterial pressure (MAP). TFG theoretically requires the significance of squared coherence (K2). However, it is unclear whether this test is necessary in practical computation of dCA. In this study a running approach for testing the significance of the MCBv-MAP association was proposed and TFG was computed over all the segments and after exclusion of those segments with K2 below the threshold of significance. The study was performed in 24 subjects (age: 61 ± 14 yrs) at supine resting and during active standing before and after undergoing cardiac surgery. K2 was computed in the low frequency (LF) band (K2 LF) and the threshold of K2 LF significance was calculated as the 95th percentile of K2 LF computed over 100 uncoupled surrogate pairs. The analysis shows that a biased estimation of TFG was obtained when segments with low K2 lf were included, thus stressing the relevance of the surrogate test in dCA analysis.
On the value of testing the null hypothesis of uncoupling in cerebral autoregulation analysis / F. Gelpi, V. Bari, B. Cairo, M. Aguissola, P. Singh, C. De Vincentiis, M. Ranucci, A. Porta - In: ESGCO[s.l] : Institute of Electrical and Electronics Engineers (IEEE), 2024. - ISBN 9798350392050. - pp. 1-2 (( Intervento presentato al 13. convegno Conference of the European Study Group on Cardiovascular Oscillations: Physiologically - Guided Signal Processing of Cardiovascular and Cerebrovascular Oscillations : 23 through 25 October tenutosi a Zaragoza (Spain) nel 2024 [10.1109/ESGCO63003.2024.10767020].
On the value of testing the null hypothesis of uncoupling in cerebral autoregulation analysis
F. Gelpi
Primo
;V. BariSecondo
;B. Cairo;A. PortaUltimo
2024
Abstract
Dynamic cerebral autoregulation (dCA) can be characterized by assessing transfer function gain (TFG) from mean cerebral blood velocity (MCBv) to mean arterial pressure (MAP). TFG theoretically requires the significance of squared coherence (K2). However, it is unclear whether this test is necessary in practical computation of dCA. In this study a running approach for testing the significance of the MCBv-MAP association was proposed and TFG was computed over all the segments and after exclusion of those segments with K2 below the threshold of significance. The study was performed in 24 subjects (age: 61 ± 14 yrs) at supine resting and during active standing before and after undergoing cardiac surgery. K2 was computed in the low frequency (LF) band (K2 LF) and the threshold of K2 LF significance was calculated as the 95th percentile of K2 LF computed over 100 uncoupled surrogate pairs. The analysis shows that a biased estimation of TFG was obtained when segments with low K2 lf were included, thus stressing the relevance of the surrogate test in dCA analysis.
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