Assessing cardiorespiratory interactions via lagged joint symbolic dynamics during spontaneous and controlled breathing.

Beatrice Cairo, Vlasta Bari, Francesca Gelpi, Beatrice De Maria, Alberto Porta
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Abstract

Introduction: Joint symbolic analysis (JSA) can be utilized to describe interactions between time series while accounting for time scales and nonlinear features. JSA is based on the computation of the rate of occurrence of joint patterns built after symbolization. Lagged JSA (LJSA) is obtained from the more classical JSA by introducing a delay/lead between patterns built over the two series and combined to form the joint scheme, thus monitoring coordinated patterns at different lags. Methods: In the present study, we applied LJSA for the assessment of cardiorespiratory coupling (CRC) from heart period (HP) variability and respiratory activity (R) in 19 healthy subjects (age: 27-35 years; 8 males, 11 females) during spontaneous breathing (SB) and controlled breathing (CB). The R rate of CB was selected to be indistinguishable from that of SB, namely, 15 breaths·minute-1 (CB15), or slower than SB, namely, 10 breaths·minute-1 (CB10), but in both cases, very rapid interactions between heart rate and R were known to be present. The ability of the LJSA approach to follow variations of the coupling strength was tested over a unidirectionally or bidirectionally coupled stochastic process and using surrogate data to test the null hypothesis of uncoupling. Results: We found that: i) the analysis of surrogate data proved that HP and R were significantly coupled in any experimental condition, and coupling was not more likely to occur at a specific time lag; ii) CB10 reduced CRC strength at the fastest time scales while increasing that at intermediate time scales, thus leaving the overall CRC strength unvaried; iii) despite exhibiting similar R rates and respiratory sinus arrhythmia, SB and CB15 induced different cardiorespiratory interactions; iv) no dominant temporal scheme was observed with relevant contributions of HP patterns either leading or lagging R. Discussion: LJSA is a useful methodology to explore HP-R dynamic interactions while accounting for time shifts and scales.

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通过滞后关节符号动力学评估自主呼吸和控制呼吸期间的心肺相互作用。
联合符号分析(JSA)可以用来描述时间序列之间的相互作用,同时考虑时间尺度和非线性特征。JSA是基于符号化后建立的关节模式出现率的计算。滞后JSA (LJSA)是从更经典的JSA中获得的,通过在两个系列上构建的模式之间引入延迟/超前,并组合成联合方案,从而在不同滞后的情况下监视协调模式。方法:在本研究中,我们应用LJSA从心期(HP)变异性和呼吸活动(R)评估19名健康受试者(年龄:27-35岁;自发呼吸(SB)和控制呼吸(CB)时,男性8例,女性11例。选择CB的R率与SB的R率难以区分,即15次呼吸·分钟-1 (CB15),或比SB慢,即10次呼吸·分钟-1 (CB10),但在这两种情况下,心率和R之间都存在非常快速的相互作用。LJSA方法跟踪耦合强度变化的能力在单向或双向耦合随机过程中进行了测试,并使用替代数据来检验不耦合的零假设。结果:我们发现:i)对替代数据的分析证明HP和R在任何实验条件下都是显著耦合的,并且在特定的时间滞后下不会更容易发生耦合;ii) CB10在最快时间尺度上降低了CRC强度,而在中间时间尺度上增加了CRC强度,从而使CRC整体强度保持不变;iii)尽管表现出相似的R率和呼吸性窦性心律失常,但SB和CB15诱导的心肺相互作用不同;讨论:LJSA是一种有用的方法,可以在考虑时移和尺度的情况下,探索HP- r动态相互作用。
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