日间右美托咪定镇静配合闭环声波刺激可改变健康成年人的慢波睡眠稳态

BJA open Pub Date : 2024-03-28 DOI:10.1016/j.bjao.2024.100276

S. Kendall Smith , MohammadMehdi Kafashan , Rachel L. Rios , Emery N. Brown , Eric C. Landsness , Christian S. Guay , Ben Julian A. Palanca

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引用次数: 0

摘要

背景α-2肾上腺素能激动剂右美托咪定能诱导与非快速眼动睡眠（NREM）相似的脑电图模式。满足慢波睡眠（SWS）的平衡需求将解决右美托咪定诱导功能性仿生睡眠状态的假设。方法在右美托咪定镇静前后对 13 名健康参与者进行了室内睡眠脑电图记录。对 13 名健康参与者进行了右美托咪定镇静前和镇静后的家庭睡眠脑电图记录，分别采用右美托咪定靶控输注和闭环声学刺激来诱导和增强脑电图慢波。镇静和睡眠期间的脑电图记录采用美国睡眠医学会的修订标准进行分期。计算NREM第二阶段（N2）和NREM第三阶段（N3/SWS）历时的慢波活动（0.5至4赫兹的脑电图功率），并按时间将总量分为五等分。结果与镇静前睡眠相比，镇静后睡眠显示 N3 持续时间缩短（平均差异为-17.1 分钟，95% 置信区间为-30.0 至-8.2，P=0.015）。慢波压力的消散也有所减少（P=0.02）。结论日间右美托咪定镇静和针对脑电图慢波的闭环声学刺激减少了健康年轻人镇静后夜间的N3/SWS持续时间和慢波压力耗散。因此，配对干预能诱导类似睡眠的状态，满足健康青壮年的某些同态NREM睡眠需求。临床试验注册ClinicalTrials.gov NCT04206059。

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Daytime dexmedetomidine sedation with closed-loop acoustic stimulation alters slow wave sleep homeostasis in healthy adults

Background

The alpha-2 adrenergic agonist dexmedetomidine induces EEG patterns resembling those of non-rapid eye movement (NREM) sleep. Fulfilment of slow wave sleep (SWS) homeostatic needs would address the assumption that dexmedetomidine induces functional biomimetic sleep states.

Methods

In-home sleep EEG recordings were obtained from 13 healthy participants before and after dexmedetomidine sedation. Dexmedetomidine target-controlled infusions and closed-loop acoustic stimulation were implemented to induce and enhance EEG slow waves, respectively. EEG recordings during sedation and sleep were staged using modified American Academy of Sleep Medicine criteria. Slow wave activity (EEG power from 0.5 to 4 Hz) was computed for NREM stage 2 (N2) and NREM stage 3 (N3/SWS) epochs, with the aggregate partitioned into quintiles by time. The first slow wave activity quintile served as a surrogate for slow wave pressure, and the difference between the first and fifth quintiles as a measure of slow wave pressure dissipation.

Results

Compared with pre-sedation sleep, post-sedation sleep showed reduced N3 duration (mean difference of −17.1 min, 95% confidence interval −30.0 to −8.2, P=0.015). Dissipation of slow wave pressure was reduced (P=0.02). Changes in combined durations of N2 and N3 between pre- and post-sedation sleep correlated with total dexmedetomidine dose, (r=−0.61, P=0.03).

Conclusions

Daytime dexmedetomidine sedation and closed-loop acoustic stimulation targeting EEG slow waves reduced N3/SWS duration and measures of slow wave pressure dissipation on the post-sedation night in healthy young adults. Thus, the paired intervention induces sleep-like states that fulfil certain homeostatic NREM sleep needs in healthy young adults.