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Letter to the Editor

Sleep-Related Eating Disorder and Zolpidem: An Open Interventional Cohort Study

Yun K. Wing, FRCPsych, FHKAM (Psych); Siu P. Lam, MRCPsych, FHKAM (Psych); Shirley X. Li, BSc; Jihui Zhang, MD; and Mandy W. M. Yu, MPH, RPSGT

Published: May 15, 2010

Sleep-Related Eating Disorder and Zolpidem: An Open Interventional Cohort Study

To the Editor: Sleep-related eating disorder (SRED) is a newly recognized parasomnia that describes a clinical condition of compulsive eating under an altered level of consciousness during sleep. The prevalence rate varies from 4% to 16.7% among different clinical psychiatric populations.1,2 The exact etiology of SRED is unclear, but it is postulated that SRED might share features of both sleepwalking and eating disorders.3 In addition, there have been accumulating reports of SRED related to the use of various psychotropic medications including triazolam, zolpidem, olanzapine, risperidone, and combinations of psychotropics.4-8

Among these drugs, recent attention has focused on zolpidem, a nonbenzodiazepine hypnotic. Our clinical epidemiologic study in psychiatric outpatients2 showed that 1 out of 7 subjects regularly taking zolpidem could develop SRED in their lifetime. In addition, among a psychiatric population, most of the adult-onset sleepwalking cases were highly comorbid with SRED features.9 Thus, there seems to be a robust association of zolpidem and SRED on the basis of both cross-sectional clinical series and epidemiologic evidence.

Warnings were issued in 2007 by both the Therapeutic Goods Administration of Australia10 and US Food and Drug Administration11 with regard to SRED as a potential side effect of zolpidem. Nonetheless, in order to confirm a definite association of zolpidem and SRED, resolution or reduction of SRED symptoms upon cessation of zolpidem treatment should be demonstrated. In particular, the episodic nature of the SRED attacks would argue the need for a longer-term follow-up period to document a clear resolution of the symptoms.

 

Method. Eight subjects who presented with SREDs while taking therapeutic dosages of zolpidem between 2006 and 2008 were prospectively followed up. They were invited for clinical interview and video-polysomnographic assessment at baseline. Clinical assessments included the Structured Clinical Interview for DSM-IV for establishment of psychiatric diagnosis and confirmation of the diagnosis of SRED according to the diagnostic criteria of the International Classification of Sleep Disorders, Second Edition.12 As zolpidem has been reported to be associated with SRED, modification of the drug regimen, including the options of discontinuing or decreasing the dosage of zolpidem, was suggested to patients as an open intervention. The subjects were reassessed by clinical interview after at least 6 months’ duration of drug regimen modification, with additional collateral information from informants if available. This study was approved by the institutional ethics committee.

Results. Eight subjects (5 women, 62.5%), with a mean ± SD age of 49.9 ± 14.6 years, presented with a mean duration of recurrent sleep-related eating features of 2.4 ± 2.1 years (range, 0.5-6 years). Clinical characteristics of individual subjects are shown in Table 1. Frequency of SRED symptoms varied from only a few times per year (3/8) to weekly to monthly (2/8) and nearly nightly attacks (3/8). During SRED attacks, the subjects usually consumed carbohydrates such as rice, instant noodles, and biscuits after a period of sleep. The subjects’ behaviors occurred exclusively under an altered level of consciousness at which they had no or little recollection upon awakening, but the behaviors were evident by leftover food, residuals on the mouth, or stained clothes. Half of the subjects reported complex cooking behaviors under impaired consciousness, with an incidence of burning of kitchen utensils. Other undesirable outcomes including consumption of frozen or raw food (4/8) and subjective weight gains (5/8) were reported. All subjects had no prior history of sleepwalking before the occurrence of SRED.

Table 1

Click figure to enlarge

Seven subjects underwent 1-night video-polysomnography (vPSG). There was no automatism or sleep-related eating behavior during vPSG recording. Six subjects had comorbid obstructive sleep apnea syndrome (OSAS), for which 1 was already receiving continuous positive airway pressure (CPAP) treatment before onset of SRED. Of 5 remaining subjects, only the one with severe OSAS agreed to have CPAP treatment. None was diagnosed with restless legs syndrome or periodic limb movement disorder.

All subjects except 1 (primary insomnia) suffered from mood disorders. Three subjects reported binge-eating episodes during depressive periods, but the severity was not up to a threshold diagnosis of binge-eating disorder. Most subjects were receiving polypharmacy, particularly antidepressants and benzodiazepines. The mean duration of zolpidem usage at baseline was 3.6 ± 2.3 years (range, 1-8 years), much longer than that of SRED symptoms (2.4 ± 2.1 years; range, 0.5-6 years). Five of 8 subjects reported persistent prominent insomnia (> 3 times/wk) despite the regular usage of hypnotics.

The mean follow-up duration was 22 ± 9.7 months (range, 8-33 months). Six subjects stopped taking zolpidem, but 2 subjects agreed only to decrease the dosage. Because of concomitant insomniac symptoms, 3 subjects were prescribed clonazepam to replace zolpidem. After zolpidem treatment was discontinued, all subjects reported disappearance of SRED symptoms, except for 1 subject who reported residual SRED symptoms with much lower frequency, from nightly to less than monthly attacks. No other automatism or sleepwalking episode was reported.

 

Our prospective cohort extended previous findings2,4,5 of the association of therapeutic dosage of zolpidem with SRED and replicated the clinical features of high preference of carbohydrates or high-energy food during SRED attacks and amnesic features associated with complex automatism, including cooking behavior. Similarly, our SRED patients were prone to the complications of the disorder, including fire hazard and consumption of inedible food.

The immediate cessation and sustained disappearance of SRED in this case series provided further strengthening evidence of the key role of zolpidem in precipitating SRED. In fact, the wide range (from daily to a few times per year) and episodic nature of SRED behaviors argued for the necessity of long-term follow-up in order to demonstrate a clear resolution of the symptoms. On the other hand, the real-time correlation of onset between SRED and duration of zolpidem usage was not perfectly matched, as zolpidem usage preceded SRED symptoms by over a year. Moreover, although the subjects were taking zolpidem on a regular and daily basis, they suffered from only episodic attacks of SRED. Hence, there must be additional contributing factors. The current concept of sleepwalking and related disorders recognizes a series of predisposing, precipitating, and perpetuating factors that might deepen or fragment sleep and thereby contribute to the occurrence of sleepwalking episodes.13 Proper recognition of these etiologic factors would be important in identifying high-risk individuals and hence improving the safety of the drug. In our study, SRED was highly comorbid with other sleep disorders including OSAS and insomnia.4 Comorbid sleep disorders might serve as possible precipitating and facilitating factors for SRED. OSAS was suggested to increase the fragmentation of sleep and hence precipitate automatism attacks for vulnerable individuals.14 Interestingly, only 2 out of 6 subjects with comorbid OSAS had undergone successful treatment for OSAS in our series, but all subjects still responded well to modification of their zolpidem regimen, with or without the concomitant use of clonazepam. Further studies are needed to clarify the interactive relationship between zolpidem, comorbid OSAS, and SRED.

The other conspicuous feature of the study sample is that our subjects suffered from chronic insomnia comorbid with depression, which resulted in prolonged usage of zolpidem. There has been a recent advance in the conceptual understanding of the close interactive and comorbid relationship between insomnia and depression.15,16 Our cases further demonstrated that insomnia comorbid with depression could be very resistant to management and often resulted in polypharmacy, which further exacerbated the sleep problems in a vicious cycle. In this regard, there is a need for enhancement of integrated management of insomnia by both cognitive-behavioral therapy and newer types of pharmacologic intervention that will be specially geared toward the chronic nature of insomnia,17 especially in patients with comorbid insomnia and depressive disorders. From a pragmatic perspective, clinicians should have heightened alertness to the occurrence of SRED, especially for those comorbid cases with late-onset sleepwalking and chronic usage of zolpidem.

Polypharmacy with concurrent medication usage was another risk factor in our series. The presence of concomitant sedative drugs (eg, tricylic antidepressants, antihistamines) might contribute to the development of SRED by further impairing the arousal level.2 Eating disorders have been reported to be associated with SRED.1 Our findings suggested that binge-eating behavior could be associated with the development of SRED after zolpidem usage. The uniqueness of zolpidem among other benzodiazepines and nonbenzodiazepine hypnotics with regard to precipitating SRED remains unknown.2 Different benzodiazepine and nonbenzodiazepine hypnotics have shown various potentials for inducing amnesia and complex behavior.18 Among different benzodiazepine and nonbenzodiazepine hypnotics, zolpidem has the highest affinity at the GABAA α1 subunit. Apart from its amnesic effect, zolpidem was suggested to have a role in modulation of slow-wave sleep19 and hyperphagic response in animals.20 Further pharmacologic study is needed to delineate the specificity of zolpidem in inducing complex automatism with a predilection toward eating and appetite regulation.

In this regard, the current study was limited by the lack of further investigation of the sleep microarchitecture, such as cyclic alternating patterns rate, which might indicate the NREM sleep instability that is commonly found in some sleep disorders including sleepwalking.13 In addition, further study is needed to delineate the real-time correlation of some of the factors well known to precipitate sleepwalking and other disorders, such as daytime stress, life events, and sleep deprivation,13 to SRED attacks in order to understand this complex but potentially dangerous sleep condition.

References

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2. Lam SP, Fong SYY, Ho CKW, et al. Parasomnia among psychiatric outpatients: a clinical, epidemiologic, cross-sectional study. J Clin Psychiatry. 2008;69(9):1374-1382. doi:10.4088/JCP.v69n0904 PubMed

3. Winkelman JW. Clinical and polysomnographic features of sleep-related eating disorder. J Clin Psychiatry. 1998;59(1):14-19. PubMed

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9. Lam SP, Fong SYY, Yu MWM, et al. Sleepwalking in psychiatric patients: comparison of childhood and adult onset. Aust N Z J Psychiatry. 2009;43(5):426-430. doi:10.1080/00048670902817703doi:10.1080/00048670902817703 PubMed PubMed PubMed

10. Adverse Drug Reactions Advisory Committee. Zolpidem and bizarre sleep related effects. Aust Adverse Drug React Bull. 2007;26(1):2-3.

11. Food and Drug Administration. FDA requests label change for all sleep disorder drug products. http://www.fda.gov/bbs/topics/NEWS/ 2007/NEW01587.html. Accessed March 14, 2007.

12. American Academy of Sleep Medicine. The International Classification of Sleep Disorders, 2nd ed: Diagnostic and Coding Manual. Westchester, IL: American Academy of Sleep Medicine; 2005.

13. Pressman MR. Factors that predispose, prime and precipitate NREM parasomnias in adults: clinical and forensic implications. Sleep Med Rev. 2007;11(1):5-30, discussion 31-33. doi:10.1016/j.smrv.2006.06.003 PubMed

14. Guilleminault C, Kirisoglu C, Bao G, et al. Adult chronic sleepwalking and its treatment based on polysomnography. Brain. 2005;128 (pt 5):1062-1069. doi:10.1093/brain/awh481 PubMed

15. Roth T. Comorbid insomnia: current directions and future challenges. Am J Manag Care. 2009;15(Suppl):S6-S13. PubMed

16. Fong SYY, Wing YK. Longitudinal follow up of primary insomnia patients in a psychiatric clinic. Aust N Z J Psychiatry. 2007;41(7): 611-617. doi:10.1080/00048670701400016 PubMed

17. Morin CM, Bélanger L, LeBlanc M, et al. The natural history of insomnia: a population-based 3-year longitudinal study. Arch Intern Med. 2009;169(5):447-453. doi:10.1001/archinternmed.2008.610 PubMed

18. Dolder CR, Nelson MH. Hypnosedative-induced complex behaviours : incidence, mechanisms and management. CNS Drugs. 2008;22(12): 1021-1036. doi:10.2165/0023210-200822120-00005 PubMed

19. Drover DR. Comparative pharmacokinetics and pharmacodynamics of short-acting hypnosedatives: zaleplon, zolpidem and zopiclone. Clin Pharmacokinet. 2004;43(4):227-238. doi:10.2165/00003088-200443040-00002 PubMed

20. Cooper SJ. Palatability-dependent appetite and benzodiazepines: new directions from the pharmacology of GABA(A) receptor subtypes. Appetite. 2005;44(2):133-150. doi:10.1016/j.appet.2005.01.003 PubMed

Yun K. Wing, FRCPsych, FHKAM (Psych)

[email protected]

Siu P. Lam, MRCPsych, FHKAM (Psych)

Shirley X. Li, BSc

Jihui Zhang, MD

Mandy W. M. Yu, MPH, RPSGT

Author affiliations: Sleep Assessment Unit, Department of Psychiatry, Faculty of Medicine, The Chinese University of Hong Kong, Shatin, Hong Kong SAR. Potential conflicts of interest: Dr Wing has received funding/research support from sanofi-aventis Singapore Pte. Ltd. The other authors report no financial conflicts of interest. Funding/support: This study was not industry supported. Previous presentation: Some of the results shown in this letter were presented as a poster at the 9th World Congress of Biological Psychiatry, June 28-July 2, 2009, Nice, France.

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