Autonomic activity during human sleep as a function of time and sleep stage

Trinder, John; Kleiman, Jan; Carrington, Melinda; Smith, Simon S.; Breen, Sibilah; Tan, Nellie; Kim, Young

doi:10.1046/j.1365-2869.2001.00263.x

Cited by 419 publications

(385 citation statements)

References 35 publications

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“…Landen et al (12) used 24-h ECG recordings for their time domain HRV measures, and 10-min ECG recordings when subjects were awake for frequency domain HRV measures. Total variance of HRV depends on the length of the recording period (10) and there are differences in HRV measures between waking and sleeping hours (30) and according to sleep stages (22). By using a 24-h recording period that combined wake and sleep periods, menstrual phase differences in time-domain HRV variables in the women with PMDD may have been masked in the study by Landen et al (12).…”

Section: Discussionmentioning

confidence: 99%

“…The analyses were conducted using software developed at the University of Melbourne (22). During initial analyses of the ECG, R waves were detected using an automated algorithm, allowing inter-beat interval to be calculated by the program.…”

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

“…Power spectrum analysis of HRV was conducted to determine activity in the high frequency (HF) and low frequency (LF) bands according to published guidelines (10) and following procedures used in a previous study (22). Periods of stable sleep were analysed in 2 minute epochs (see below for criteria used to identify epochs).…”

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

“…Power within the LF and HF bands was quantified by the absolute integrated power in arbitrary units. Peak frequency of the high frequency band (HFfr), which is a measure of respiratory rate (22), was also calculated.…”

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

“…However, sleep is not a uniform state with regard to cardiovascular activity. NREM sleep is characterized by lower heart rate, and a higher HF power component of HRV compared with wakefulness (22). These changes are reversed during REM sleep; thus heart rate is higher, whereas HF power is lower, compared with NREM sleep (22).…”

Section: Introductionmentioning

confidence: 99%

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Reduced parasympathetic activity during sleep in the symptomatic phase of severe premenstrual syndrome

Baker

Colrain

Trinder

2008

Journal of Psychosomatic Research

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Objective-Severe premenstrual syndrome (PMS) is a common, distressing disorder in women that manifests during the premenstrual (late-luteal) phase of the ovulatory menstrual cycle. There is some evidence that altered autonomic function may be an important component of PMS but few studies have used heart rate variability (HRV), as a sensitive marker of autonomic activity, in severe PMS and findings are conflicting.Methods-We investigated HRV during sleep, a state relatively free of external disruptions, in nine women with severe PMS and twelve controls.Results-The normal-to-normal (NN) RR-interval was shorter during the sleep period in women with PMS than in controls in both the follicular and late-luteal phases of the menstrual cycle. The standard deviation of all NN intervals (SDNN), a measure of total variability in the inter-beat interval, was lower during the sleep period in the late-luteal phase than in the follicular phase in women with PMS. The square root of the mean of the sum of the squares of differences between adjacent NN intervals (rMSSD), a measure reflecting high frequency activity, showed a similar pattern. High frequency power, a marker of parasympathetic activity, was lower during non-rapid eye movement (non-REM) and REM sleep in the late-luteal phase than in the follicular phase in women with severe PMS. Controls had a shorter NN-interval, but similar HRV measures, in the late-luteal phase compared with the follicular phase.Conclusion-These results suggest that women with severe PMS have decreased parasympathetic activity during sleep in association with their premenstrual symptoms compared to when they are symptom-free.

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Section: Discussionmentioning

confidence: 99%

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

Section: Heart Rate Variability Analysesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Reduced parasympathetic activity during sleep in the symptomatic phase of severe premenstrual syndrome

Baker

Colrain

Trinder

2008

Journal of Psychosomatic Research

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Heart Rate Variability (HRV): Sleep Disordered Breathing

Nazeran

Pamula

Behbehani

2006

Wiley Encyclopedia of Biomedical Engineering

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Sleep‐related breathing disorders are a common but often underdiagnosed condition both in adults and in children. It is now evident that abnormal ventilation during sleep can cause a range of adverse physiological sequela including autonomic dysfunction. Extensive research effort over the past two decades has demonstrated that patterns of cyclic variation in the heart rate (HR) or heart rate variability (HRV) are closely linked to partial reduction or complete cessation of airflow during abnormal breathing events (hypopnea or apnea) during sleep. These efforts culminated in the year 2000, when Thomas Penzel from the Hospital of Phillips‐University in Germany and George Moody from MIT, with their collaborators, coordinated a global competition to stimulate rapid research advances in deploying the HRV signal to detect sleep apnea (Computers in Cardiology Apnea Challenge, 2000). The outcome of these efforts have motivated a number of prominent international research groups to use advanced signal processing methods to analyze the HRV signal and to develop dedicated instrumentation or software packages with the objective to detect sleep disordered breathing in symptomatic subjects at an early stage. A comprehensive review of the literature in this field reveals the value, reliability, sensitivity, specificity, and limitations of these methods and devices. Even though the ultimate goal of simplified diagnosis of sleep disordered breathing from HRV signal analysis is not fully realized yet, it is clearly established that the HRV signal carries a wealth of measures that are sensitive to sleep stages, sleep disordered breathing (SDB), and other disorders influencing the cardiovascular system. Thus, careful analysis of the readily accessible electrocardiogram (ECG) and its derived HRV signal, along with new and sophisticated nonlinear signal analysis methods provide the exciting promise that accurate separation of sleep stages and reliable detection of SDB as well as other disorders influencing the autonomic control of the heart is within reach. In this chapter, we first present a simplified and distilled overview of regulation of the HR by the autonomic nervous system (ANS), sleep physiology, and pathophysiology in children and adults. This is followed by a brief review of the HRV signal derivation and processing methods applicable to its analysis for detection of SDB. We conclude the chapter with an example graphical user interface and consider some issues associated with development of integrated software packages to facilitate the simplified detection of SDB from HRV signals.

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International Consensus Statement on Obstructive Sleep Apnea

Chang

Goldberg

Alt

et al. 2023

Int Forum Allergy Rhinol

116

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Background: Evaluation and interpretation of the literature on obstructive sleep apnea (OSA) allows for consolidation and determination of the key factors important for clinical management of the adult OSA patient. Toward this goal, an international collaborative of multidisciplinary experts in sleep apnea evaluation and treatment have produced the International Consensus statement on Obstructive Sleep Apnea (ICS:OSA). Methods: Using previously defined methodology, focal topics in OSA were assigned as literature review (LR), evidence-based review (EBR), or evidencebased review with recommendations (EBR-R) formats. Each topic incorporated the available and relevant evidence which was summarized and graded on study quality. Each topic and section underwent iterative review and the ICS:OSA was created and reviewed by all authors for consensus. Results: The ICS:OSA addresses OSA syndrome definitions, pathophysiology, epidemiology, risk factors for disease, screening methods, diagnostic testing types, multiple treatment modalities, and effects of OSA treatment on multiple OSA-associated comorbidities. Specific focus on outcomes with positive airway pressure (PAP) and surgical treatments were evaluated. Conclusion:This review of the literature consolidates the available knowledge and identifies the limitations of the current evidence on OSA. This effort aims to create a resource for OSA evidence-based practice and identify future research needs. Knowledge gaps and research opportunities include improving the metrics of OSA disease, determining the optimal OSA screening paradigms, developing strategies for PAP adherence and longitudinal care, enhancing selection of PAP alternatives and surgery, understanding health risk outcomes, and translating evidence into individualized approaches to therapy.

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Autonomic activity during human sleep as a function of time and sleep stage

Cited by 419 publications

References 35 publications

Reduced parasympathetic activity during sleep in the symptomatic phase of severe premenstrual syndrome

Reduced parasympathetic activity during sleep in the symptomatic phase of severe premenstrual syndrome

Heart Rate Variability (HRV): Sleep Disordered Breathing

International Consensus Statement on Obstructive Sleep Apnea

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