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Review

Effect of Dexmedetomidine on Postoperative Sleep Quality: A Systematic Review

Xiao Huang1 Department of Anesthesiology, Beijing Chao-Yang Hospital, Capital Medical University, Beijing, People’s Republic of ChinaORCID Iconhttps://orcid.org/0000-0001-9744-8802View further author information
ORCID Icon,
Dandan Lin1 Department of Anesthesiology, Beijing Chao-Yang Hospital, Capital Medical University, Beijing, People’s Republic of ChinaView further author information
,
Yi Sun1 Department of Anesthesiology, Beijing Chao-Yang Hospital, Capital Medical University, Beijing, People’s Republic of ChinaView further author information
,
Anshi Wu1 Department of Anesthesiology, Beijing Chao-Yang Hospital, Capital Medical University, Beijing, People’s Republic of ChinaORCID Iconhttps://orcid.org/0000-0001-7239-3139View further author information
ORCID Icon &
Changwei Wei1 Department of Anesthesiology, Beijing Chao-Yang Hospital, Capital Medical University, Beijing, People’s Republic of ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-5652-600XView further author information
ORCID Icon
Pages 2161-2170 | Published online: 21 May 2021

Abstract

In this article, we conduct a systematic review of the literature to explore the specific role of dexmedetomidine (DEX) on postoperative sleep and its associated mechanisms at present. The electronic database Embase, MEDLINE/PubMed, the Cochrane Library, Web of Science, and Google Scholar were searched. The restriction terms included “dexmedetomidine”, “sleep” and “surgery”. The inclusion criteria were as following: 1) patients 18 years old or older; 2) DEX used in the perioperative period not just for critically ill patients in the intensive care unit (ICU); 3) prospective or retrospective studies. The review articles, conference abstracts, and animal studies were excluded. Out of the 22 articles which met the above criteria, 20 of them were randomized controlled studies and 2 of them were retrospective cohort studies. Infusion of DEX including during the surgery and after surgery at a low or high dose was shown to improve subjective and objective sleep quality, although 2 studies showed there is no evidence that the use of DEX improves sleep quality and 1 showed less sleep efficiency and shorter total sleep time in the DEX group. Other postoperative outcomes evaluated postoperative nausea and vomiting, pain, postoperative delirium bradycardia and hypotension. Outcomes of our systematic review showed that DEX has advantages in improving patients’ postoperative sleep quality. Combined with the use of general anesthetic, DEX provides a reliable choice for procedural sedation.

Introduction

Patients often suffer from severe sleep disturbances after surgery. The manifestations of polysomnography usually include severe sleep deprivation, sleep fragmentation, reduced duration of slow-wave sleep, and rapid eye movement sleep. Patients may present with reduced sleep duration, increased awakenings, reduced sleep quality, and frequent nightmares.Citation1 Clinical and experimental studies suggest that sleep disturbances may exacerbate pain. Surgical stress appears to be the main cause of sleep disruption. Disturbed sleep and sleep-wake rhythms are serious problems in postoperative patients and may lead to prolonged postoperative recovery time,Citation2 increased incidence of cardiovascular disease, cognitive dysfunction,Citation3 and impaired immune function.Citation4 Increased morbidity and mortality are associated with more pronounced rest-activity rhythms.

Dexmedetomidine (DEX) was first approved by the FDA in 1999 for sedation of intensive care patients. DEX is a highly selective α-2 adrenergic agonist. DEX can improve sedation and analgesia, reduces the incidence of postoperative delirium, and improves sleep quality.Citation5,Citation6 However, Tan et al reported that patients undergoing transurethral resection of the prostate (TURP) had poorer sleep quality at night after spinal anesthesia due to the deeper state of sedation provided by DEX during the daytime.Citation7 Therefore, the effects of intraoperative DEX use at different time periods on postoperative sleep quality need to be further investigated.

Little is known about the specific role of DEX on postoperative sleep and its associated mechanisms at present. Hence it is important to study the circadian rhythm changes of perioperative DEX on postoperative body function and sleep and to understand the postoperative pathophysiological processes. A better understanding of patients with postoperative sleep disorders and the search for effective prevention and treatment may facilitate the development of more effective and safer sleep management programs. This review will focus on the basic science and clinical evidence to determine its efficacy in improving postoperative sleep.

Methods

We searched the electronic database Embase, MEDLINE/PubMed, the Cochrane Library, Web of Science, and Google Scholar. The search started in September 2020 and was completed in November 2020 without language limitation. The following search terms were used to form the basic search strategy: “dexmedetomidine”, “sleep” and “surgery”.

The title and abstract of records were screened by 2 reviewers independently. And the included records should report the sleep quality or sleep pattern in the perioperative period. Then full-text studies were measured for eligibility by inclusion criteria as follows: (1) patients 18 years old or older; (2) DEX used in the perioperative period not just for critically ill patients in the intensive care unit (ICU); (3) prospective or retrospective studies. The review articles, conference abstracts, and animal studies were excluded. The level of evidence for each study was classified by 2 reviewers according to the published guidelines.

Results

Identification of Studies

The flow chart of the study is shown in . Out of the 22 studies evaluated, 20 were randomized controlled trials (RCTs), and 2 of them were retrospective studies. All studies are about non-cardiac surgery except a study by Corbett et al.Citation8 Seventeen of them compared DEX to placebo, one study compared DEX plus sufentanil to sufentanil anesthesia, and one study compared DEX plus post-fascia iliaca compartment block (FCIB) to FCIB. The mean age of patients included in the study ranged from 31 to 76. The evaluated articles are described in .

Figure 1 Flow chart of the study.

Abbreviation: ICU, intensive care unit.
Figure 1 Flow chart of the study.

Table 1 Studies Included in This Systematic Review

Sleep Quality

Objective Sleep Evaluation

Nineteen studies used objective tools to evaluate perioperative sleep quality. Different questionnaires were used in the studies according to the choice of authors. The Numeric Rating Scales (NRS) for sleep quality was the most used questionnaire in nine studies,Citation9Citation17 followed by Pittsburgh Sleep Quality Index (PSQI) in two studies,Citation7,Citation18 Richard Campbell Sleep Questionnaire (RCSQ) in one study,Citation19 St. Mary Hospital Sleep Questionnaire in one study,Citation20 the insomnia severity index (ISI) in one study,Citation21 Athens insomnia scale in one study, the Consensus Sleep Diary in one studyCitation22 and other simple questions in three studies.Citation8,Citation23,Citation24

Subjective Sleep Evaluation

Seven studies evaluated perioperative sleep quality through subjective tools. Polysomnography (PSG) was used in three studies.Citation11,Citation12,Citation25 And other subjective tools included bispectral index (BIS) in three studiesCitation7,Citation26,Citation27 and portable sleep monitor in one study.Citation5 PSG and portable sleep monitor could analyze multiple factors of sleep including, sleep efficiency index, arousal index, the percentage of REM, stage 1, 2, and 3. BIS could analyze the sleep efficiency index and total sleep time. The time of subjective evaluations was most in 1, 2, and 3 days after surgery. Objective and subjective evaluations of sleep quality of patients in the perioperative period were shown in .

Table 2 Objective and Subjective Evaluations of Sleep Quality of Patients in Perioperative Period

Usage and Dose of DEX

As for the different time point, the DEX was used during the surgery for sedation in nine studies,Citation5,Citation7,Citation10,Citation15Citation18,Citation21,Citation26 as an adjuvant for the regional block in one studies,Citation22 for postoperative analgesia in nine studiesCitation8,Citation12Citation14,Citation19,Citation23Citation25,Citation27 and both in surgery and after surgery in eight studies.Citation9,Citation11,Citation20 And in 2 retrospective studyCitation15,Citation16 and one RCTCitation25 compared the effect of sleep quality of low dose of DEX (<0.2 μg/kg/h) and high dose (>0.2 μg/kg/h). As for other RCT studies, nine studies used DEX at a low dose and ten studies used DEX at a high dose.

Other Outcomes

Postoperative Nausea and Vomiting (PONV)

Shi et al found that DEX reduced the incidence of postoperative vomiting but not the incidence of nausea.Citation23 Another study by Li et al showed that DEX reduced the incidence of PONV.Citation14 Five other studies found no significant benefit of DEX in reducing PONV.Citation10,Citation16,Citation18,Citation19,Citation24

Pain

A total of 13 studies have compared the effects of DEX on postoperative pain. The pain was assessed by numeric rating scales, visual analog scales (VAS), or the use of the postoperative pain reliever. Of these studies, 8 studies found DEX could relieve postoperative pain.Citation12Citation14,Citation17,Citation18,Citation21,Citation22,Citation25 Four studies concluded DEX does not effectively relieve pain after surgery.Citation9,Citation15,Citation16,Citation20 A study by Corbett et al reported that ICU patients sedated with DEX exhibited more severe pain compared with propofol.Citation8

Postoperative Delirium

Su et al conducted a study on patients over 65 years admitted to the ICU after non-cardiac surgery and found that prophylactic low-dose DEX significantly reduced the incidence of delirium within 7 days after surgery.Citation13 However, 3 other studies suggested that perioperative infusion of DEX did not reduce the incidence of postoperative delirium after surgery.Citation14,Citation19,Citation20 A study by Shi showed that compared with the placebo group, continuous infusion of DEX (0.5 g/kg/h) in patients undergoing thoracoscopic lobectomy reduced the incidence of postoperative cognitive dysfunction at 7 days postoperatively, but did not reduce the incidence of postoperative delirium.Citation17

Cardiovascular Events

We selected postoperative bradycardia and hypotension as primary adverse events with DEX. Twelve studies compared perioperative blood pressure changes between the treatment group and the control group. And 6 of these studies showed that perioperative use of DEX increased the incidence of hypotension or significantly lowered blood pressure compared to the controls group.Citation11Citation13,Citation15,Citation24,Citation25 The other 6 studies did not find associations between the use of DEX and hypotension.Citation14,Citation17,Citation19,Citation23,Citation26,Citation27 Nine studies compared the effect of perioperative DEX versus the control group on postoperative bradycardia. Five studies demonstrated that the use of DEX increased the incidence of postoperative bradycardia or significantly reduced heart rate compared to the control group,Citation12,Citation15,Citation17,Citation24,Citation27 and 4 studies did not show that postoperative bradycardia is associated with DEX.Citation14,Citation19,Citation25,Citation26

Others

Sun et al concluded that continuous postoperative infusion of DEX reduced the incidence of postoperative pneumonia in elderly patients undergoing general surgery.Citation19 Qin et al reported that the combination of DEX/sufentanil in patients undergoing partial laryngectomy significantly reduced the dosage of sufentanil and the frequency of postoperative coughing episodes.Citation24 Shi et al suggested that DEX could reduce postoperative anxiety,Citation17 and another study by Shi et al also found that postoperative fatigue severity scores were significantly lower in the DEX group than in the control group.Citation23 Whereas Corbett et al did not find the effectiveness of DEX in relieving postoperative anxiety.Citation8 Other perioperative outcomes of the use of DEX in the perioperative period were shown in .

Table 3 Other Perioperative Outcomes of Use of Dexmedetomidine in Perioperative Period

Discussion

In this review, our findings suggest that intraoperative or postoperative infusion of DEX may be adequate to improve sleep quality within a short time period after surgery. Although there were many variables that measure the quality of sleep, we find the preventive effect of DEX to reduce sleep disturbance caused by surgery and anesthesia. Additionally, infusion of DEX in the perioperative period could release postoperative pain, reduce the incidence of postoperative delirium, prevent PONV and so on.

In a real-world cohort study of 7418 patients, infusion of DEX reduced the incidence of postoperative sleep disturbance.Citation16 One of the potential mechanisms of improving the sleep quality on the first or second night after surgery is the changing sleep structure by DEX. The sleep cycle could be divided into non-rapid eye movement sleep (NREM) and rapid eye movement sleep (REM). And NREM could be further divided into stages N1, N2 and N3.Citation28

In animal experiments, it was found that transoral administration of DEX decreased c-Fos expression in the cerebral cortex and subcortical arousal system and increased c-Fos expression in ventral lateral preoptic nucleus neurons in mice. DEX may promote NREM sleep in mice by promoting excitation in the sleep nucleus and inhibiting the arousal nucleus.Citation29 Nelson et al suggested that endogenous sleep pathways involved in DEX induced sedation which inhibited and disinhibited the locus ceruleus, disinhibited the ventral lateral preoptic nucleus firing. This increased the release of γ-aminobutyric acid receptor type A (GABA) from the terminal ventral lateral preoptic nucleus and inhibited tuberomammillary nucleus firing.Citation30 The effect of α-2 agonist DEX on NREM sleep may be mediated through postsynaptic α-2 adrenoceptors.Citation31 Some common changes in high-frequency oscillations could be detected in the thalamus and neocortex during DEX anesthesia.Citation32

Surgery and anesthesia had a negative effect on sleep quality by changing the sleep pattern. REM and N3 sleep were significantly reduced in patients undergoing surgery. At the same time, the N1 stage was longer for patients in the surgery group.Citation12 Some studies indicated that continuous infusion of DEX could produce spindle and slow-delta oscillations, which represents the characteristic EEG features of stage 2 sleep.Citation33Citation35 In healthy volunteers, oral DEX could improve stage 2 sleep and have a negative impact on REM sleep.Citation36 This study provided evidence that DEX could modulate NREM sleep circuitry. Infusion DEX could also increase the N3 sleep in a dose-dependent manner, which is associated with improved cognition and synaptic plasticity.Citation37,Citation38 This suggested biomimetic N3 sleep may beneficial to cognition improvement.

Regarding intervention to mimic natural sleep and improve postoperative sleep quality, there is strong evidence that the use of DEX during and after surgery could improve the sleep quality assessed by objective and subjective measurements. Chen et alCitation12 found infusion DEX improved the percentage of N2 sleep, reduced N1 sleep and reduced the arousal index. However, some researchers reported no differences or less sleep efficiency and shorter sleep time measured by BIS in DEX group.Citation7,Citation26

Timing of administration is associated with the effect of DEX on postoperative sleep quality. Song et alCitation5 performed a prospective RCT to compare the effect of DEX in the daytime (8:00–12:00) and nighttime (18:00–22:00) surgery on sleep quality. They found that patients in the night group had shorter REM sleep and Stable sleep than those in the day group. This result indicated that infusion DEX in the daytime might have better improvement in sleep quality. Besides, the dose of DEX also had a different effect on postoperative sleep quality. Jiang et alCitation25 examined the effect of the low and high dose of DEX combined with oxycodone on postoperative sleep quality. And Duan et alCitation16 found that low dose DEX may be an optimal treatment of postoperative sleep disturbance.

DEX and other postoperative patient outcomes are controversial at present. A systematic review study concluded that DEX resulted in a reduction in pain compared with midazolam sedation and that both had similar respiratory and hemodynamic safety.Citation39 Some studies suggest that DEX can cause hypotension or bradycardia, however, there is controversy in this field. The different modes of administration and doses of DEX may be also subject to safety issues, and patients with perioperative use of DEX should be closely monitored. A meta-analysis by Constantin et alCitation40 found that DEX reduced the length of ICU stay and duration of mechanical ventilation and decreased the incidence of delirium, but also increased the incidence of bradycardia and hypotension. Although in our retrospective study we did not conclude that DEX reduced postoperative delirium or had significantly unsafe outcomes.

The recent study also has the following limitations. The included studies varied widely in the dosing regimen, the timing of administration, patient population, outcome, and follow-up. Moreover, not all studies reported on these outcome measures have sufficient detail. This stopped us from doing more formal meta-analyses. The studies we included ranged from low to high quality. And we included patients on DEX in the ICU, which increases the heterogeneity of the article. We note that most of the studies we included were in non-cardiac surgery. There is no definite conclusion about the effect of perioperative DEX on postoperative sleep and its safety in patients undergoing cardiac surgery at present. Our studies included were all perioperative DEX assisted sedation for general anesthesia surgery, while the effectiveness of DEX use in intravertebral anesthesia is unknown. Zhang et al concluded that DEX was generally safe and well-tolerated an additional agent to epidural surgery and improved sedation and analgesia.Citation41 Studies of DEX-assisted nerve blocks have shown that 0.5–2 g/kg DEX combined with 0.3% ropivacaine applied with TAP block is a safe and effective analgesic treatment in gynecological surgery.Citation42

Conclusion

Outcomes of our systematic review showed that DEX has advantages in improving patients’ postoperative sleep quality. Combined with the use of general anesthetic, DEX provides a reliable choice for procedural sedation.

Abbreviations

DEX, dexmedetomidine; TURP, transurethral resection of the prostate; ICU, intensive care unit; RCTs, randomized controlled trials; FCIB, post-fascia iliaca compartment block; NRS, Numeric Rating Scales; PSQI, Pittsburgh Sleep Quality Index; ISI, insomnia severity index; PSG, Polysomnography; BIS, bispectral index; PONV, Postoperative nausea and vomiting; VAS, visual analog scales; NREM, non-rapid eye movement sleep; REM, rapid eye movement sleep; GABA, γ-aminobutyric acid receptor type A.

Disclosure

The authors have no financial or other relationships relevant to this article.

Acknowledgment

Xiao Huang and Dandan Lin share the first authorship.

Additional information

Funding

There was no external funding.

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