自由活动大鼠睡眠呼吸监测技术改进

目的：改进大鼠睡眠呼吸监测技术,解决既往模型中咬线、脱落、信号不稳定问题。方法：改进监测电极、信号接入线路及动物手术。结果：改进后手术时间缩短,创面暴露时间减少,大鼠术后易恢复。且电极稳固性好,脑电和肌电信号更稳定清晰,信号接入线路传导性好,耐用。实现连续长时间监测,成功率高。便于根据信号进行不同清醒一睡眠状态分期,并判断大鼠睡眠呼吸暂停情况。结论：改进后的操作技术操作更简单、信号更稳定,是一项更加实用可靠的小动物睡眠呼吸监测技术。     

阻塞性睡眠呼吸暂停综合征与心血管相关受体的研究进展

阻塞性睡眠呼吸暂停综合征是一种涉及呼吸科、耳鼻喉科、口腔科、神经科、心血管科、血液内科等多学科的疾病.在心血管疾病方面,阻塞性睡眠呼吸暂停综合征主要与高血压、冠心病、心力衰竭、心律失常等疾病的关系密切;在内分泌系统疾病方面,阻塞性睡眠呼吸暂停综合征与肥胖、糖尿病、甲状腺系统疾病等的相互联系.阻塞性睡眠呼吸暂停综合征与各疾病相互作用机制十分复杂,目前阻塞性睡眠呼吸暂停综合征与心血管疾病关系密切,已成为研究热点.阻塞性睡眠呼吸暂停综合征是心血管疾病独立的危险因素,正确认识两者的关系对于今后防御和治疗心血管疾病有重大意义.这里主要关于阻塞性睡眠呼吸暂停综合征与心血管相关受体的相互关系进行综述.     

90例原发性癫痫患者睡眠呼吸障碍及其相关事件分析

目的:探讨原发性癫痫患者夜间睡眠呼吸障碍及相关事件的特点.方法:对90例原发性癫痫患者进行夜间多导睡眠图(PSG)检查.分析夜间睡眠呼吸暂停低通气指数、睡眠各期SPO2值及相关腿动事件.结果:本组病人的PSG检测结果表现为SPO2监测显示有26.67%的患者合并有睡眠呼吸暂停低通气综合症(SAHS),合并SAHS组与不合并SAHS组在年龄、体重指数、是否合并高血压病方面进行比较P均<0.05,其差异有统计学意义.两组在病程、性别、发作形式、有无痫样放电、有无周期性腿动方面比较P值均>0.05,其差异无统计学意义.SPO2仪显示癫痫患者夜间存在不同程度低氧事件,其中SPO2最低值均发生在REM期.肌电显示孤立性腿动指数增加人数为27例(占30%),周期性腿动指数增加人数为15人(占16.67%),其中因激醒事件及呼吸事件因素而导致腿动指数增加分别占一定比例,且腿动事件主要集中在NREM期.结论:原发性癫痫患者常伴有睡眠呼吸障碍及夜间低氧事件.     

悬雍垂腭咽成形术治疗阻塞性睡眠呼吸暂停综合征的护理

阻塞性睡眠呼吸暂停综合征（OSAHS）是由于上气道口咽部阻塞,频发睡眠呼吸暂停、通气不良,引起低氧血症及高碳酸血症,使机体产生一系列病理生理改变的临床综合征。     

手术治疗儿童阻塞性睡眠呼吸暂停低通气综合征临床疗效观察

目的:观察手术治疗儿童阻塞性睡眠呼吸暂停低通气综合征(OSAHS)的手术治疗方法及临床效果,为临床治疗提供依据。方法:选取我院2010年2月~2013年1月期间收治的儿童阻塞性睡眠呼吸暂停低通气综合征患者56例做研究对象,对患儿的手术治疗方法及手术前后呼吸暂停指数、最低血氧饱和度及呼吸暂停低通气指数平均值进行记录和分析,比较其临床疗效情况。结果:三组患儿术后呼吸暂停指数、伴最低血氧饱和度、呼吸暂停低通气指数与术前比较,差异明显具有统计学意义,术后优于术前。中、重度鼻咽气道狭窄程度比较,术后较术前疗效显著,差异明显具有统计学意义(P0.05)。结论:儿童阻塞性睡眠呼吸暂停低通气综合征手术后呼吸暂停指数、伴最低血氧饱和度、呼吸暂停低通气指数得到显著改善,是治疗最佳方案,建议推广应用。     

睡眠呼吸暂停综合征患者血脂水平的研究

目的:了解阻塞性睡眠呼吸暂停低通气综合征(OSAHS)患者血浆脂质代谢情况。方法:分别检测健康对照组、睡眠呼吸暂停综合征患者组甘油三酯、总胆固醇、高密度脂蛋白胆固醇、低密度脂蛋白胆固醇、载脂蛋白A、载脂蛋白B、脂蛋白a、载脂蛋白E含量。进行统计学对比及分析。结果:睡眠呼吸暂停综合征患者的甘油三酯、总胆固醇、高密度脂蛋白、总胆固醇/高密度脂蛋白、载脂蛋白A、载脂蛋白B及载脂蛋白E与健康对照组比较有显著差异,且与其睡眠监测指标有明显相关。结论:OSAHS可导致血浆脂质代谢紊乱,与动脉粥样硬化发生及发展的存在重要的相关性,是独立于年龄、体重、饮食、遗传等原因的冠心病、高血压、脑卒中等心脑血管疾病的发病因素之一。因此,提高对OSAHS的警惕是非常重要的。     

儿童阻塞性睡眠呼吸暂停低通气综合征与肥胖的相关性研究

目的:探讨儿童阻塞性睡眠呼吸暂停/低通气综合征(OSAHS)与肥胖的相关性。方法:收集单纯性肥胖儿童120例和体重正常儿童110例作为研究对象,进行统一的体格检查和专科检查,并进行多导睡眠监测记录阻塞性呼吸暂停指数(OAI)、呼吸暂停/低通气指数(AHI)、中枢性呼吸暂停指数(CAI)、最低血氧饱和度(LSa O2)和睡眠效率。结果:肥胖组OSAHS患病率为58.33%显著高于对照组的31.82%,差异有统计学意义(P0.05);OAI、AHI、CAI均显著高于对照组,而LSa O2、睡眠效率指标显著低于对照组,差异均有统计学意义(均P0.05);多因素回归分析显示,肥胖、扁桃体增生、腺样体增生是导致OSAHS的独立危险因素,差异有统计学意义(均P0.05)。结论:肥胖是儿童OSAHS发病的重要影响因素,特别是合并扁桃体肿大或腺样体肿大的患儿应注意预防OSAHS的发生。     

心源性睡眠呼吸异常：心衰患者睡眠期间陈-施呼吸 机制探讨的初步报告*

目的: 探讨心衰患者陈施呼吸的发生率及发生机制。方法: 连续入选2015年3月~2015年5月于阜外医院行睡眠呼吸监测的患者56例,分为心衰组和非心衰组。结果: 两组睡眠呼吸暂停的发生率均较高,心衰组11例患者中呼吸暂停低通气指数（AHI）>5的有10例,平均AHI指数23.93±14.63;非心衰组45例患者中AHI>5的有33例,平均AHI指数16.20±18.76;心衰组中枢性睡眠呼吸暂停（CSA）次数占睡眠呼吸暂停总数的比例明显大于非心衰组病人,分别为80.21%±30.55%和27.16%±35.71%,P<0.01。结论: 心脏的循环功能和肺脏的呼吸功能是联合一体化,相互联系、互为因果而又互相影响。慢性心力衰竭的循环障碍促成了潮式呼吸的发生,所以称之为心源性呼吸睡眠异常。     

舌骨肌切开悬吊术结合腭咽成形术治疗重度OSAHS

目的：应用联合应用舌骨肌切开悬吊术和腭咽成形术治疗重度阻塞性睡眠呼吸暂停低通气综合征。方法：用多导睡眠监测确定52例重度阻塞性睡眠呼吸暂停低通气综合征,不同方法确定均为以舌根平面阻塞为主的上气道多平面狭窄。采用舌骨肌切开悬吊术联合腭咽成形术进行治疗。结果：所有接受手术的患者术后鼾声均有不同程度的减轻,手术总有效率94．2％。无1例出现不良并发症。结论：舌骨肌切开悬吊术安全、易行,结合腭咽成形术治疗重度阻塞性睡眠呼吸暂停低通气综合征效果良好。     

原发性醛固酮增多症与睡眠呼吸暂停关系的研究现状

近年来,随着筛查技术的提高,原发性醛固酮增多症的检出大大提高,并且在抵抗性高血压中的检出也比普通人群中高出很多,原发性醛固酮增多症的发病率从不到1%增加到5%-15%。研究发现,在高危险的睡眠呼吸暂停低通气综合症症状的患者中,原发性醛固酮增多症的检出高于低危险的睡眠呼吸暂停低通气综合症症状组。由此我们了解到睡眠呼吸暂停低通气综合症与原发性醛固酮增多症之间存在着某种必然的联系,其病理生理的联系,以及都可以导致继发性高血压和严重的心、脑并发症等。原发性醛固酮增多症其超生理的醛固酮或是睡眠呼吸暂停低通气综合症患者中低氧和高碳酸血症引起的醛固酮的增高都可以导致高血压及高血压的心脏,肾脏等靶器官的损害。然而,睡眠呼吸暂停低通气综合症与原发性醛固酮增多症之间的关系还不是很清楚,需要我们进一步的研究。     

Monitoring respiratory function and sleep in the obese Vietnamese pot-bellied pig.

Development of drug treatments for obstructive sleep-disordered breathing has been impeded by the lack of animal models. The obese pig may be a suitable animal model, as it has been reported to experience sleep-disordered breathing resembling human obstructive sleep apnea. The purpose of this paper is to describe in detail techniques for chronic instrumentation of the obese Vietnamese pot-bellied pig and to study respiratory function during sleep. Under general anesthesia, four obese pigs were instrumented for long-term recording of intrapleural and tracheal pressures, genioglossal EMG, and bioelectric signals related to sleep. A custom-fitted face mask was used to record respiratory variables including airflow, snoring, and expired CO(2). Most chronic instrumentation provided robust signals for up to 6 wk after installation. All pigs displayed sleep-disordered breathing characterized by increased resistance to airflow, snoring, inspiratory flow limitation, and possible sleep disruption. Apneas and hypopneas were not a feature of breathing during sleep in these animals. Nonetheless, this animal preparation may be useful for exploring possible drug treatments for obstructive sleep-disordered breathing.     

Automatic EEG arousal detection for sleep apnea syndrome

Electroencephalographic (EEG) arousals are seen in EEG recordings as an awakening response of the human brain. Sleep apnea is a serious sleep disorder. Severe sleep apnea brings about EEG arousals and sleep for patients with sleep apnea syndrome (SAS) is thus frequently interrupted. The number of respiratory-related arousals during the whole night on PSG recordings is directly related to the quality of sleep. Detecting EEG arousals in the PSG record is thus a significant task for clinical diagnosis in sleep medicine. In this paper, a method for automatic detection of EEG arousals in SAS patients was proposed. To effectively detect respiratory-related arousals, threshold values were determined according to pathological events as sleep apnea and electromyogram (EMG). If resumption of ventilation (end of the apnea interval) was detected, much lower thresholds were adopted for detecting EEG arousals, including relatively doubtful arousals. Conversely, threshold was maintained high when pathological events were undetected. The proposed method was applied to polysomnographic (PSG) records of eight patients with SAS and accuracy of EEG arousal detection was verified by comparative visual inspection. Effectiveness of the proposed method in clinical diagnosis was also investigated.     

An EEG study of different behavioral states of freely moving dolphins]

ECoG and EMG of neck and eye muscles of four free moving dolphins were recorded during sleep-wakefulness cycle through chronically implanted electrodes. Wakefulness is accompanied by desynchronized ECoG, and slow sleep by synchronized ECoG, including the sleep spindles and theta- and delta-waves. The standard EMG criteria do not allow the discrimination between fast sleep and wakefulness in dolphins. Behavioral observations alone do not inform about dolphin's sleep or wakefulness. The respiration of dolphins may be observed during bilateral ECoG synchronization in slow sleep without arousal. ECoG synchronization as well as desynchronization may be observed when the contralateral eye is open.     

Upper airway neuromuscular compensation during sleep is defective in obstructive sleep apnea

Obstructive sleep apnea is the result of repeated episodes of upper airway obstruction during sleep. Recent evidence indicates that alterations in upper airway anatomy and disturbances in neuromuscular control both play a role in the pathogenesis of obstructive sleep apnea. We hypothesized that subjects without sleep apnea are more capable of mounting vigorous neuromuscular responses to upper airway obstruction than subjects with sleep apnea. To address this hypothesis we lowered nasal pressure to induce upper airway obstruction to the verge of periodic obstructive hypopneas (cycling threshold). Ten patients with obstructive sleep apnea and nine weight-, age-, and sex-matched controls were studied during sleep. Responses in genioglossal electromyography (EMG(GG)) activity (tonic, peak phasic, and phasic EMG(GG)), maximal inspiratory airflow (V(I)max), and pharyngeal transmural pressure (P(TM)) were assessed during similar degrees of sustained conditions of upper airway obstruction and compared with those obtained at a similar nasal pressure under transient conditions. Control compared with sleep apnea subjects demonstrated greater EMG(GG), V(I)max, and P(TM) responses at comparable levels of mechanical and ventilatory stimuli at the cycling threshold, during sustained compared with transient periods of upper airway obstruction. Furthermore, the increases in EMG(GG) activity in control compared with sleep apnea subjects were observed in the tonic but not the phasic component of the EMG response. We conclude that sustained periods of upper airway obstruction induce greater increases in tonic EMG(GG), V(I)max, and P(TM) in control subjects. Our findings suggest that neuromuscular responses protect individuals without sleep apnea from developing upper airway obstruction during sleep.     

Sleep apnea is induced by a high-fat diet and reversed and prevented by metformin in non-obese rats

Objective: We assessed the relationship between a high‐fat (HF) diet and central apnea during rapid eye movement and non‐rapid eye movement sleep stages by recording ventilatory parameters in 28 non‐obese rats in which insulin resistance had been induced by an HF diet. We also studied whether metformin (an anti‐hyperglycemic drug frequently used to treat insulin resistance) could reverse sleep apnea or prevent its occurrence in this experimental paradigm. Research Methods and Procedures: Rats were fed with a standard diet (10 rats), an HF diet (8 rats), or an HF diet concomitantly with metformin treatment (10 rats). Each animal was instrumented for electroencephalographic and electromyographic recording. After 3 weeks, ventilatory parameters during sleep were recorded with a body plethysmograph. All rats were treated with metformin for 1 week, after which time the ventilatory measurements were measured again. Results: Our results showed that the three groups of animals did not differ in terms of body growth over the entire experimental period. The HF diet did not modify sleep structure or minute ventilation in the different sleep stages. A great increase (+266 ± 48%) in central apnea frequency was observed in insulin‐resistant rats. This was explained by an increase in both post‐sigh (+195 ± 35%) and spontaneous apnea (+437 ± 65%) in the different sleep stages. These increases were suppressed by metformin treatment. Discussion: Insulin resistance induced by the HF diet could be the promoter of sleep apnea in non‐obese rats. Metformin is an efficient curative and preventive treatment for sleep apnea, suggesting that insulin resistance modifies the ventilatory drive independently of obesity.     

Spontaneous Sleep-Like Brain State Alternations and Breathing Characteristics in Urethane Anesthetized Mice

Brain state alternations resembling those of sleep spontaneously occur in rats under urethane anesthesia and they are closely linked with sleep-like respiratory changes. Although rats are a common model for both sleep and respiratory physiology, we sought to determine if similar brain state and respiratory changes occur in mice under urethane. We made local field potential recordings from the hippocampus and measured respiratory activity by means of EMG recordings in intercostal, genioglossus, and abdominal muscles. Similar to results in adult rats, urethane anesthetized mice displayed quasi-periodic spontaneous forebrain state alternations between deactivated patterns resembling slow wave sleep (SWS) and activated patterns resembling rapid eye movement (REM) sleep. These alternations were associated with an increase in breathing rate, respiratory variability, a depression of inspiratory related activity in genioglossus muscle and an increase in expiratory-related abdominal muscle activity when comparing deactivated (SWS-like) to activated (REM-like) states. These results demonstrate that urethane anesthesia consistently induces sleep-like brain state alternations and correlated changes in respiratory activity across different rodent species. They open up the powerful possibility of utilizing transgenic mouse technology for the advancement and translation of knowledge regarding sleep cycle alternations and their impact on respiration.     

Fluctuation in timing of upper airway and chest wall inspiratory muscle activity in obstructive sleep apnea

An imbalance in the amplitude of electrical activity of the upper airway and chest wall inspiratory muscles is associated with both collapse and reopening of the upper airway in obstructive sleep apnea (OSA). The purpose of this study was to examine whether timing of the phasic activity of these inspiratory muscles also was associated with changes in upper airway caliber in OSA. We hypothesized that activation of upper airway muscle phasic electrical activity before activation of the chest wall pump muscles would help preserve upper airway patency. In contrast, we anticipated that the reversal of this pattern with delayed activation of upper airway inspiratory muscles would be associated with upper airway narrowing or collapse. Therefore the timing and amplitude of midline transmandibular and costal margin moving time average (MTA) electromyogram (EMG) signals were analyzed from 58 apnea cycles in stage 2 sleep in six OSA patients. In 86% of the postapnea breaths analyzed the upper airway MTA peak activity preceded the chest wall peak activity. In 86% of the obstructed respiratory efforts the upper airway MTA peak activity followed the chest wall peak activity. The onset of phasic electrical activity followed this same pattern. During inspiratory efforts when phasic inspiratory EMG amplitude did not change from preapnea to apnea, the timing changes noted above occurred. Even within breaths the relative timing of the upper airway and chest wall electrical activities was closely associated with changes in the pressure-flow relationship. We conclude that the relative timing of inspiratory activity of the upper airway and chest wall inspiratory muscles fluctuates during sleep in OSA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Early detection of upper airway obstructions by analysis of acoustical respiratory input impedance

Repetitive occurrence of partial or total upper airway obstruction characterizes several respiratory dysfunctions such as the obstructive sleep apnea syndrome (OSAS). In OSAS patients, pharyngeal collapses are linked to a decrease in upper airway muscle activity during sleep which causes decreased upper airway wall stiffness. Continuous positive airway pressure (CPAP) is recommended as the treatment of choice. Advancements in CPAP therapy require early detection of respiratory events in real time to adapt the level of the applied pressure to airway collapsibility. The forced oscillation technique (FOT) is a noninvasive method which reflects patients' airway patency by measuring respiratory impedance. The aim of this study was to evaluate by a mathematical model of the respiratory system if FOT can provide an early detection index of total or partial upper airway obstruction. Furthermore, the simulation should suggest which characteristic features are relevant for early apnea detection in measured clinical data. The respiratory system has been treated as a series of cylindrical segments. The oropharynx analog of the model allows simulation of upper airway collapse, mimicking the situation in patients with OSAS. We calculated the input impedance for different degrees of upper airway obstruction ranging from unobstructed airways to total occlusion. Furthermore, we simulated different upper airway wall compliances. We compared the simulation with real data. The results of the study suggest that FOT is a valuable tool for assessing the degree of upper airway obstruction in patients with OSAS. Especially, the phase angle of the impedance seems to be a potentially useful tool for early apnea detection by assessing the upper airway wall collapsibility. Received: 23 July 1998 / Accepted in revised form: 26 January 1999     

Sleep/wake estimation using only anterior tibialis electromyography data

ABSTRACT: BACKGROUND: In sleep efficiency monitoring system, actigraphy is the simplest and most commonly used device. However, low specificity to wakefulness of actigraphy was revealed in previous studies. In this study, we assumed that sleep/wake estimation using actigraphy and electromyography (EMG) signals would show different patterns. Furthermore, each EMG pattern in two states (sleep, wake during sleep) was analysed. Finally, we proposed two types of method for the estimation of sleep/wake patterns using only EMG signals from anterior tibialis muscles and the results were compared with PSG data. METHODS: Seven healthy subjects and five patients (2 obstructive sleep apnea, 3 periodic limb movement disorder) participated in this study. Night time polysomnography (PSG) recordings were conducted, and electrooculogram, EMG, electroencephalogram, electrocardiogram, and respiration data were collected. Time domain analysis and frequency domain analysis were applied to estimate the sleep/wake patterns. Each method was based on changes in amplitude or spectrum (total power) of anterior tibialis electromyography signals during the transition from the sleep state to the wake state. To obtain the results, leave-one-out-cross-validation technique was adopted. RESULTS: Total sleep time of the each group was about 8 hours. For healthy subjects, the mean epoch-by-epoch results between time domain analysis and PSG data were 99%, 71%, 80% and 0.64 (sensitivity, specificity, accuracy and kappa value), respectively. For frequency domain analysis, the corresponding values were 99%, 73%, 81% and 0.67, respectively. Absolute and relative differences between sleep efficiency index from PSG and our methods were 0.8 and 0.8% (for frequency domain analysis). In patients with sleep-related disorder, our proposed methods revealed the substantial agreement (kappa > 0.61) for OSA patients and moderate or fair agreement for PLMD patients. CONCLUSIONS: The results of our proposed methods were comparable to those of PSG. The time and frequency domain analyses showed the similar sleep/wake estimation performance.