At one time or another, insomnia afflicts nearly one-half of U.S. adults, half of whom have a clinically diagnosable disorder. This presents perpetual challenges in the face of patient populations that have been told to “ask your doctor about” sleeping medications or have received them already.
We know that the Z-drugs (zolpidem, zaleplon, and eszopiclone), some of the most widely used pharmacologics for insomnia, are benzodiazepine receptor agonists. As such, tolerance develops, and this tolerance leads to escalating doses, increased side effects, and sleepier patients.
Cognitive-behavioral therapy has been shown to be effective for insomnia, but this clinical service is not widely available. For busy clinicians trying to help these patients, we need a simple tool that can be easily explained to patients, giving them a project on which to work.
This tool is sleep restriction. The goal of sleep restriction is to consolidate fragmented sleep to increase the intrinsic sleep drive.
You might have heard your patients describe their bedroom as a “torture chamber.” Some of this torture relates to sleepless staring at the ceiling for hours on end. Sleep restriction gets them out of the chamber.
Karen Falloon, Ph.D., of the University of Auckland (New Zealand), and her colleagues conducted a randomized trial in New Zealand investigating the impact of simplified sleep restriction (SSR) for patients with primary insomnia (Br J Gen Pract. 2015 Aug;65(637):e508-15).
A total of 97 patients were randomized. All patients received sleep hygiene advice, including avoiding caffeine and developing a consistent bedtime routine. Patients in the SSR arm received a verbal and written sleep prescription establishing bedtime and wake-up times informed by a baseline 2-week daily sleep diary.
The sleep prescription was average total sleep duration plus 50% of the total time spent awake in bed. The minimum time in bed was 5 hours. If participants were sleeping less than 85% of the time in bed, the time allowed in bed was reduced to total sleep time plus 30 minutes. Sleepy patients could spend 30 more minutes in bed. All changes were made at bedtime, with wake-up time held constant.
At 6 months, the SSR group had improved perceived sleep quality and fatigue, and improved sleep efficiency as measured by actigraphy. A total of 67% of patients responded to SSR, compared with 41% of controls (number needed to treat = 4).
The efficacy of this intervention is extremely impressive. Importantly, it was delivered by a general practitioner without specialized training during two “slightly extended” visits.
Potential participants were excluded if they were on a sleeping medication, which does not imply that this would not work in a population already on Z-drugs. Consideration should to be given to possible risks when implementing sleep restriction with patients taking Z-drugs with longer half-lives (for example, eszopiclone is 6 hours, zolpidem is 3 hours, and zaleplon is 1 hour), because of higher serum concentrations upon waking.
But when these medications fail, or you have Z-drug–naive patients with insomnia, have this intervention ready.
Dr. Ebbert is professor of medicine, a general internist at the Mayo Clinic in Rochester, Minn., and a diplomate of the American Board of Addiction Medicine. The opinions expressed are those of the author and do not necessarily represent the views and opinions of the Mayo Clinic. The opinions expressed in this article should not be used to diagnose or treat any medical condition, nor should they be used as a substitute for medical advice from a qualified, board-certified practicing clinician. Dr. Ebbert has no relevant financial disclosures about this article. Follow him on Twitter @jonebbert.