Larsen P D, Tzeng Y C, Galletly D C
Department of Surgery and Anaesthesia, Wellington School of Medicine, PO Box 7343, Wellington, New Zealand.
Br J Anaesth. 2003 Aug;91(2):184-9. doi: 10.1093/bja/aeg156.
Cardioventilatory coupling is the triggering of inspiratory onset by preceding cardiac activity. We have observed two forms of coupling with a bimodal ('quantal') variation of respiratory period.
We investigated the variables of inspiratory duration (TI), expiratory duration (TE), and tidal volume (VT) where respiratory period variation was bimodal. In 25 anaesthetized spontaneously breathing subjects we took 11 samples of recording where the variation of respiratory period was quantal.
In eight of these epochs the variation in respiratory period was associated with fluctuations in the number of heart beats per breath (entrainment ratio) with a constant time interval between inspiration and the immediately preceding heart beat (coupling interval), which we define as pattern II coupling. During pattern II coupling, the quantal variations in respiratory period were entirely caused by variation in TE, with no associated changes in either TI or VT. The other three epochs with quantal variations in respiratory period were observed in pattern III coupling, where an alternating fluctuation in both entrainment ratio and coupling interval occurs. During pattern III coupling, quantal fluctuations were observed in TE, TI, and VT.
Cross correlation analysis suggested that when pattern III was present, TI was dependent upon the preceding TE, which differs markedly from traditional views on the interaction between inspiratory and expiratory duration. VT was linearly related to TI, and so could also be determined by the preceding TE during this type of coupling.
心肺耦合是指先前的心脏活动触发吸气开始。我们观察到两种耦合形式,呼吸周期呈双峰(“量子化”)变化。
我们研究了吸气持续时间(TI)、呼气持续时间(TE)和潮气量(VT)等变量,其中呼吸周期变化呈双峰。在25名麻醉下自主呼吸的受试者中,我们采集了11个记录样本,其中呼吸周期变化是量子化的。
在其中8个时间段中,呼吸周期的变化与每呼吸心跳次数的波动(夹带比率)相关,吸气与紧接在前的心跳之间的时间间隔恒定(耦合间隔),我们将其定义为模式II耦合。在模式II耦合期间,呼吸周期的量子化变化完全由TE的变化引起,TI或VT均无相关变化。在模式III耦合中观察到另外3个呼吸周期量子化变化的时间段,其中夹带比率和耦合间隔均出现交替波动。在模式III耦合期间,观察到TE、TI和VT的量子化波动。
互相关分析表明,当存在模式III时,TI取决于先前的TE,这与关于吸气和呼气持续时间之间相互作用的传统观点明显不同。VT与TI呈线性相关,因此在这种类型的耦合期间也可以由先前的TE决定。
