The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 33

S Afr Fam Pract
ISSN 2078-6190    EISSN 2078-6204 

© 2018 The Author(s)

REVIEW

Introduction

Oh sleep, Oh gentle sleep,
Nature’s soft nurse, how have  
I frightened thee?             
That thou no more wilt weigh 
mine eyelids down,
And steep my senses in 
forgetfulness?

Henry IV, William Shakespeare

Charles Henry Wheeler. The Dramatic Works of W. Shakespeare with 
Glossarial Notes. A Sketch of His Life, and an estimate of his writings. 
Published by Fisher, Son & Co. LONDON, 1830:423 

The word “insomnia’ originates from the Latin “in” (no) and 
“somnus” (sleep). Being the first psychosomatic disorder to 
be described by Johann Heinroth in 1818 (Figure 1), insomnia 
clinically presents as a subjective perception of dissatisfaction 
with the amount and/or quality of the sleep.1

Insomnia was previously viewed as a sleep disturbance that 
was secondary to a medical condition, psychiatric illness, sleep 
disorder, or medication, and would improve with treatment 
of the underlying disorder. However, evidence over the past  
20 years indicates that this view is incorrect.2

It is now recognised that insomnia is often an independent 
disorder.3,4 Insomnia may occur in the absence of coexisting 
conditions and, when coexisting conditions exist, may persist 
despite successful treatment of the coexisting condition. 

Treatment directed at the insomnia and the comorbidity may 
be necessary. Since insomnia can precipitate, exacerbate, or 
prolong comorbid conditions, treatment of insomnia may 
improve comorbidities.5-8

Patients with insomnia have impaired daytime function due to 
difficulty initiating sleep, difficulty maintaining sleep, or waking 

South African Family Practice 2018; 60(3):33-39
 
Open Access article distributed under the terms of the 
Creative Commons License [CC BY-NC-ND 4.0] 
http://creativecommons.org/licenses/by-nc-nd/4.0

ERROR 404 – Sleep not found 
George L Muntingh1 & Michelle Viljoen2 

1Tygerberg Hospital Pharmacy, Tygerberg, Western Cape, 7505
2Department of Pharmacology and Clinical Pharmacy, School of Pharmacy, The Faculty of Natural Sciences, University of the Western Cape
*Corresponding author, email: george.muntingh@westerncape.gov.za

Abstract

Insomnia is perhaps the most common type of sleep disorder in the family medicine population. It is best described as a persistent 
difficulty initiating or maintaining sleep, or a report of non-restorative sleep, accompanied by related daytime impairment. There 
is increasing evidence of a strong association between insomnia and various medical and psychiatric comorbidities. Diagnosis 
of insomnia and treatment planning rely on a thorough sleep history to address contributing and precipitating factors as well as 
maladaptive behaviours resulting in poor sleep. Cognitive behavioural therapy for insomnia (CBT-I) is the mainstay of treatment 
and is a safe and effective approach. The key challenge of CBT-I is the lack of clinicians to implement it. The newer generation non-
benzodiazepines (e.g. zolpidem) are used as first-line pharmacotherapy for chronic insomnia. Newer drugs active on targets other 
than the gamma-aminobutyric acid receptor are now available, but clear treatment guidelines are needed.

Keywords: insomnia, hypnotic, benzodiazepines, treatment

Figure 1. Johann Heinroth
https://upload.wikimedia.org/wikipedia/commons/5/52/Kopie_von_Johann_
Christian_August_Heinroth.JPG - Retrieved 25-05-2018



S Afr Fam Pract 2018;60(3):33-3934

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 34

up early in the morning without ability to return to sleep.9 This 
occurs despite having adequate time and opportunity for sleep.

Insomnia is present when all three of the following criteria are 
met10:

• A complaint of difficulty initiating sleep, difficulty maintaining 
sleep, or waking up too early. In children or individuals with 
dementia, the sleep disturbance may manifest as resistance to 
going to bed at the appropriate time or difficulty in sleeping 
without caregiver assistance.

• The above sleep difficulty occurs despite adequate opportunity 
and circumstances for sleep.

• The impaired sleep produces deficits in daytime function.

More elaborate criteria is demonstrated by the DSM-5 criteria for 
insomnia which includes the following (Table 1)10:

Table 1. The DSM-5 criteria for insomnia 

Predominant complaint of dissatisfaction with sleep quantity 
or quality, associated with one (or more) of the following 
symptoms:

• Difficulty initiating sleep. (In children, this may manifest as 
difficulty initiating sleep without caregiver intervention.)

• Difficulty maintaining sleep, characterised by frequent awakenings 
or problems returning to sleep after awakenings. (In children, this 
may manifest as difficulty returning to sleep without caregiver 
intervention.)

• Early-morning awakening with inability to return to sleep.

In addition
• The sleep disturbance causes clinically significant distress or 

impairment in social, occupational, educational, academic, 
behavioural, or other important areas of functioning.

• The sleep difficulty occurs at least 3 nights per week.
• The sleep difficulty is present for at least 3 months.
• The sleep difficulty occurs despite adequate opportunity for sleep.
• The insomnia is not better explained by and does not occur 

exclusively during the course of another sleep-wake disorder (e.g., 
narcolepsy, a breathing-related sleep disorder, a circadian rhythm 
sleep-wake disorder, a parasomnia).

• The insomnia is not attributable to the physiological effects of a 
substance (e.g., a drug of abuse, a medication).

• Coexisting mental disorders and medical conditions do not 
adequately explain the predominant complaint of insomnia.

Various studies have noted insomnia to be quite a common 
condition with symptoms present in about 33–50% of the 
adult population.11 The prevalence, however, ranges from  
10 to 15% among the general population,12 with higher rates 
seen among divorced, separated, or widowed people,13 older 
ages, female gender,14 White population,15 and in the presence of 
co-morbid medical or psychiatric illness.16 About 30% of all adults 
complain of occasional insomnia and 10% of chronic insomnia, 
of whom 40% may have a psychiatric illness.17,18 Despite these 
high prevalence rates, evidence suggests that insomnia is mostly 
under-recognised, under-diagnosed, and under-treated, with 
the condition continuing to remain persistent in 50–85% of 
individuals over follow-up intervals of one to several years.19

Chronic insomnia represents a more complex condition than 
acute transient insomnia. Patients with chronic insomnia usually 
have accompanying daytime impairment of cognition, mood, or 
performance that impacts not only the patient and his family, 

but also affects friends, coworkers, and caretakers. Insomnia 
patients are more likely to visit hospitals and physicians, have 
increased absenteeism, make errors or have accidents at work, 
and have more fatal road accidents.20,21 There is also an increased 
risk for depression, anxiety, substance use, suicide, and possible 
immune dysfunction.22 It is therefore imperative that clinicians 
remain alert to these possible individual and societal risks during 
the evaluation.

Therapy for insomnia - general approach

   
“The best cure for insomnia is to get a lot of sleep.” WC Fields73

All patients with insomnia should receive therapy for any medical 
condition, psychiatric illness, substance abuse, or sleep disorder 
that may be precipitating or exacerbating the insomnia. They 
should also receive basic behavioural counselling about sleep 
hygiene and stimulus control. 

For patients who continue to have insomnia that is sufficiently 
burdensome to warrant other interventions, treatment options 
include behavioural therapy, medication, or both (Table 2):

Table 2. Treatment options for insomnia23,24 

Behavioural therapies:
• Sleep hygiene 
• Stimulus control include 

 ◦ Relaxation 
 ◦ Sleep restriction therapy
 ◦ Cognitive therapy 
 ◦ Cognitive behavioural therapy for insomnia. (These therapies 

are not available in all medical centres.)

Pharmacotherapy options to treat insomnia include:
• Benzodiazepines 
• Nonbenzodiazepine sedatives 
• Melatonin agonists 
• Doxepin 
• Suvorexant (an orexin antagonist).

Combination therapy involves:
• Initially prescribing both CBT-I and a medication (usually for six to 

eight weeks), then 
• Tapering the medication off or to an as-needed schedule while 

continuing CBT-I. The use of medication prior to the initiation of 
behavioural therapy appears to be less effective.

The choice of treatment should be individualised according 
to the patient’s values and preferences, the availability of 
advanced behavioural therapies, the severity and impact 
of the insomnia, and the potential benefits versus the risks, 
costs, and inconveniences. For most patients, it is suggested 
to engage CBT-I rather than medication as initial therapy, 
recognising that both approaches are effective in short-term 
studies, but that medications have a higher risk of side effects 
and have been inadequately evaluated for use for longer than 
a year. However, access to behavioural therapy may be limited 
in some regions and for some patient groups. A preference for 
CBT-I or other behavioural therapies over medication as initial 
therapy has been endorsed in clinical practice guidelines of the 
American Academy of Sleep Medicine,25 the British Association 
for Psychopharmacology,26 the American College of Physicians,27 
and the European Sleep Research Society.28 



ERROR 404 – Sleep not found 35

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 35

Treatment decisions must also factor in the potential health risks 
of untreated chronic insomnia, which include decreased quality 
of life, increased risk for psychiatric comorbidities and substance 
abuse, decreased performance, and the association between 
chronic insomnia and risk of cardiovascular morbidity and all-
cause mortality. 

In clinical practice, initial treatment typically involves sleep 
hygiene instruction and stimulus control procedures. If follow-
up indicates that further treatment is needed, then more formal 
CBT-I alone or in combination with a medication may be used 
for six weeks. For patients who respond to therapy (i.e., report 
both improved sleep at night and improvement of daytime 
deficits), the medication can be tapered or used as needed 
while continuing the CBT-I. Patients whose symptoms recur 
after discontinuation of therapy may require re-evaluation for 
referral for polysomnography or additional CBT-I, with or without 
pharmacologic therapy.

Perhaps an exception to this approach is patients who have 
short-term insomnia due to a self-limited stressor; such patients 
may benefit from short-term medication alone.28 

Pharmacotherapy Options

Pharmacological interventions for insomnia include different 
classes of medications, with differing mechanisms of action, 
reflecting the multiple neural systems that regulate sleep.

Medications or classes of medications that are approved 
and available to treat insomnia include benzodiazepines, 
nonbenzodiazepine hypnotics, melatonin agonists, doxepin, 
and suvorexant (Table 3).29,30 

Although all of these agents or classes have been shown to 
be more effective than placebo at improving short-term sleep 
outcomes, the magnitude of effect is variable. The potential 
benefits of pharmacologic therapy on sleep quality and daytime 
function are balanced against the risk of side effects as well as 
physical and psychological addiction with long-term use. Risks 
that should be considered and which may increase side-effects 
in certain clinical settings include:30

• Pregnancy – Sedative-hypnotics may increase the risk of fetal 
malformations if used during the first trimester.

• Alcohol consumption – Sedative-hypnotics should not be 
combined with alcohol because there is a risk of excessive 
sedation and respiratory suppression whenever central 
nervous system suppressants are combined.

• Renal or hepatic disease – Most sedative-hypnotic medications 
undergo hepatic and renal clearance. Metabolic clearance 
may be delayed in patients who have renal or hepatic disease, 
leading to accumulation and excessive sedation.

• Pulmonary disease or sleep apnoea – Many sedative-hypnotics 
can worsen obstructive sleep apnoea or hypoventilation.

• Night time decision makers – Sedative-hypnotics should not 
be taken by individuals who may be called upon to make 
important decisions during the night (e.g., clinicians on-call 
or single parents responsible for the care of young children) 

because they can cause excess sedation and of course antero-

grade amnesia.

• Older adults – The risk of adverse effects is increased in older 

adults, especially those who are older than 75 years. This is a 

consequence of multiple comorbidities and central nervous 

system changes associated with aging.

Hypnotics 

The modern history of sedative hypnotics began with barbital, 

which was introduced in 1903, and later phenobarbital in 1912. 

In the mid-1930s, Sternbach synthesised several heptoxdiazines, 

although it was not until 1955 when one of these quinazolines 

was treated with methylamine that an active compound was 

developed. In 1957, the compound chlordiazepoxide was 

found to have hypnotic, sedative, and muscle-relaxing effects. 

The benzodiazepines provided advantages over the older 

barbiturates because they were less toxic in overdose and had 

fewer drug interactions. In addition, they had superior efficacy 

and safety compared to meprobamate, which was introduced as 

a tranquiliser in 1955. Non-benzodiazepine hypnotics have been 

the most recent addition and may offer some advantages of 

lower risk tolerance and perhaps lower abuse liability, although 

clinical experience is insufficient to make definitive judgments.31

Hypnotic (from Greek hypnos, sleep) or also called a somnifacient  

(an agent that causes sleep) drugs, commonly known as sleeping 

pills, are a class of psychoactive drugs whose primary function 

is to induce sleep and to be used in the treatment of insomnia 

(sleeplessness), or surgical anesthesia.32

This group is related to sedatives. Whereas the term sedative 

describes drugs that serve to calm or relieve anxiety, the term 

hypnotic generally describes drugs whose main purpose is to 

initiate, sustain, or lengthen sleep. Because these two functions 

frequently overlap, and because drugs in this class generally 

produce dose-dependent effects (ranging from anxiolysis to 

loss of consciousness) they are often referred to collectively as 

sedative-hypnotic drugs.33

Benzodiazepines

Benzodiazepines bind to the unique benzodiazepine receptor 

binding site of the GABAA receptor complex, resulting in agonistic 

effects on GABA-ergic transmission and hyperpolarisation of 

neuronal membranes. The increase in intrinsic activity of the 

inhibitory neurotransmitter GABA enhances inhibitory outputs 

to all the major cell groups in the brainstem and hypothalamus 

that promote arousal. Benzodiazepines enhance the sleep-

promoting effects of homeostatic sleep-drive and decrease 

activity in the arousal systems (e.g., histamine, serotonin, 

acetylcholine and orexin). They therefore also relieve insomnia 

by reducing sleep latency and increasing total sleep time.34-37

Benzodiazepines commonly used for the treatment of 

insomnia include triazolam, estazolam, lorazepam, temazepam, 

flurazepam, and quazepam. A primary difference among these 

medications is their duration of action. 



S Afr Fam Pract 2018;60(3):33-3936

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 36

Triazolam is short acting; estazolam, lorazepam, and temazepam 
are intermediate acting; flurazepam and quazepam are long 
acting.38 The long-acting benzodiazepines should be avoided in 
older adults because there is increased risk for adverse effects in 
this patient population.39

Meta-analyses of randomised, placebo-controlled trials indicate 
that benzodiazepines decrease sleep latency and the number 
of awakenings, while improving sleep duration and sleep 
quality.40-43 

Typical changes associated with these medications include 
decreases in the duration to sleep onset by approximately 
10 minutes and increases in the total sleep time of 30 to  
60 minutes.40,41

Nonbenzodiazepines

In the 1980s and early 1990s, a new group of hypnotic agents, 
known as new-generation hypnotics, nonbenzodiazepine 
hypnotics, benzodiazepine receptor agonists or ‘z-drugs’ were 
introduced to the markets.44

Nonbenzodiazepine benzodiazepine receptor agonists have a 
structure that is different from the benzodiazepines and include 
more targeted action at one kind of GABA type A receptor.  
A consequence of their greater specificity is less anxiolytic and 
anticonvulsant activity.

Nonbenzodiazepines appear to improve both subjective 
and objective sleep outcomes. Specifically, meta-analyses 
of randomised, placebo-controlled trials indicate that 
nonbenzodiazepines decrease sleep latency and the number 
of awakenings, while improving sleep duration and sleep 
quality.41, 42 44, 45 

Nonbenzodiazepines commonly used to treat insomnia include 
zaleplon, zopiclone, eszopiclone (not available in South Africa 
yet), zolpidem, and zolpidem extended release:

1. Zaleplon has a very short half-life of about one hour. As a result, 
it is effective for patients who have difficulty falling asleep (i.e., 
sleep onset insomnia), but may not be effective for patients 
who have difficulty maintaining sleep (i.e., sleep maintenance 
insomnia).47 Due to the very short half-life, the potential for 
hangover sleepiness is minimal after normal sleep periods. 
Occasional side effects include headache, dizziness, nausea, 
abdominal pain, and somnolence.46 Zaleplon is not indicated 
for long-term use.

2. Zolpidem has a half-life of approximately 1.4 to 4.5 hours. 
It is indicated for the short-term treatment of insomnia 
characterised by difficulty with sleep initiation. The most 
common side effects are headache, dizziness, and somnolence, 
which can in turn lead to falls. Zolpidem is not approved for 
long-term use.48 

Zolpidem extended release has a half-life of about 1.4 to  
4 hours, but is released over a longer duration. It was developed 
to improve both sleep onset insomnia and sleep maintenance 
insomnia while avoiding hangover effects, although it has 
never been directly compared with regular zolpidem.49 

Side effects of zolpidem extended release are relatively few, 

with the most common being headache, somnolence, and 

dizziness, which can in turn lead to falls (especially in the 

elderly patient). This lower dose should also be considered 

for men. In a follow-up safety announcement, the FDA added 

a warning that patients should not drive or engage in other 

activities that require complete mental alertness the day 

after taking zolpidem extended release because zolpidem 

levels can remain high enough the next day to impair these 

activities.48,50

Sleep may be worse during the first night following 

discontinuation of this medicine. Zolpidem extended release 

is not limited to short-term use and there is little evidence for 

abuse or dependence in most patients. In theory, however, 

such medications could be habit forming with long-term use. 

3. Zopiclone is approved with doses of 7.5 mg for adults and  

3.75 mg for elderly patients. It is rapidly absorbed (maximum 

plasma concentration (Tmax) ̃  1.5 to 2 hours) and has a relatively 

long elimination half-life time (t½) ≈ 5 to 6 hours) compared to 

other new-generation hypnotic compounds. Metabolites of 

zopiclone are assumed to have similar elimination half-lives to 

that of the parent compound, whereby the active zopiclone 

metabolite (S)-desmethylzopiclone was shown to be present 

eight hours after zopiclone dosing.44

4. Eszopiclone has the longest half-life of the approved 

nonbenzodiazepines, approximately six hours. This may 

extend to nine hours in older adult patients. Eszopiclone 

is effective for both sleep onset insomnia and sleep 

maintenance insomnia.51 Patients taking eszopiclone may 

report an unpleasant metallic taste. Other reported side 

effects are shared with nonbenzodiazepines as a class 

(headache, dizziness, parasomnias, next-day impairment in 

some patients).52

Sleep may be worse on the first night after discontinuation of 

this medication. Eszopiclone is not limited to short-term use 

and there is little evidence for abuse or dependence in most 

patients. In theory, however, such medications could be habit 

forming with long-term use.

Most clinical trials evaluated short-term therapy (e.g., 

seven days), although a few longer clinical trials have been 

performed. In one randomised trial, patients treated with 

eszopiclone for six months had improved quality of life, 

decreased work limitation, and improved sleep compared 

with placebo. This persisted throughout the trial and the 

subsequent six-month open label extension. In another 

randomised trial of 1018 patients with insomnia, zolpidem 

extended release taken for up to six months improved 

sleep onset, sleep maintenance, morning sleepiness, next-

day concentration, and work performance compared with 

placebo.53,54



ERROR 404 – Sleep not found 37

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 37

Antidepressants (sedating antidepressants)

These are alternatives to benzodiazepines, especially for patients 

who have depression or are at risk of substance abuse. The 

sedating antidepressants, such as amitriptyline and doxepin 

are effective for inducing sleep continuity, taking advantage 

of the antihistaminergic, anticholinergic and serotonergic 

and adrenergic antagonistic activity of these agents. Doxepin, 

a tricyclic antidepressant, is approved for the treatment of 

insomnia at dosages of 3–6 mg and has shown significant effects 

on sleep maintenance, but no benefit for sleep-onset latency 

beyond two days of treatment.56 Mirtazepine is another sedating 

antidepressant that may help patients sleep, but also causes 

daytime sedation and weight gain. Trazodone and amitriptyline 

can also improve sleep continuity and is popular for treating 

insomnia in patients prone to substance abuse and bupropione-

induced insomnia, as these agents do not cause dependence. 

Other side-effects that might be experienced include morning 

sedation, orthostatic hypotension (at higher doses) and 

priapism. Trazodone and amitriptyline has also shown efficacy 

for insomnia co-occurring with major depression.57

Few data support the use of these agents, although they 

have been increasingly used. These drugs are associated 

with substantial side-effects, such as rebound insomnia after 

withdrawal, arrhythmias and liver dysfunction. They are not 

approved for long-term use and may require medical monitoring; 

however, the major advantage of these agents is the absence of 

dependency.58

Miscellaneous Agents (Antihistamines)

The off-label use of sedating antidepressants and the use 
of antihistamines are common for insomnia management. 
Antihistamines, such as diphenhydramine and doxylamine 
(available as OTC-medications) are generally safe and effective 
for treating mild insomnia. Patients, however, quickly experience 
tolerance to the sedative effects and the anticholinergic side-
effects such as constipation, dry mouth, ataxia, urinary retention 
and extended drowsiness, especially in the elderly.57

A summary of some of the medications is given in Table 4.

Some newer pharmacological interventions

Melatonin

Melatonin – Melatonin is a hormone that is normally secreted 
by the pineal gland. It is not recommended as a treatment for 
insomnia in most patients,59 except when sleep disturbances are 
due to delayed sleep-wake phase syndrome (a circadian sleep-
wake rhythm disorder). It appears to be somewhat effective and 
also safe when used short-term (three months or less).60,61

Melatonin Receptor Agonist (Ramelteon)

Ramelteon is a melatonin receptor agonist and FDA- approved 
for treatment of sleep-onset insomnia.62 It is selective for the 
MT1 and MT2 melatonin receptors and thought to regulate 
the circadian rhythm and sleep-onset. Ramelteon is associated 
with reduced subjective sleep latency and improved sleep 
quality efficiency.63 It is proven to effectively treat sleep-onset 

Table 3. Summary of hypnotics for insomnia55

Drug Class Generic Name Dose (mg) Eliminations Half Life (h) Tmax (h) Indication

Benzodiazepines

Estrazolam 1, 2 10–24 1.5–2 * SOI, SMI

Flurazepam 15, 30 48–120 1.5–4.5 SOI, SMI

Quazepam 7.5, 15 48–120 2–3 SOI, SMI

Temazepam 7.5, 15 8–22 1–2 SOI, SMI

Triazolam 0.125, 0.25 2–4 2–6 SOI

Benzodiazepine Agonists

Zaleplon 5, 10, 20 1 1 SOI

Zolpidem 5, 10 2.5 1.6 SOI

Zolpidem CR 6.25, 12.5 2.8 1.5 SOI, SMI

Zopiclone 7.5 5-6 1.5-2 SOI, SMI

Eszopiclone 1, 2, 3 6 1 SOI, SMI

Melatonin Agonist Ramelteon 8 1–2.6 0.75 SOI

Histamine Antagonist Doxepin 3, 6 15.3 3.5 SMI

Orexin Antagonist Suvorexant 5–20 12 2 SOI, SMI

* SOI (Sleep Onset Insomnia); SMI (Sleep Maintenance Insomnia)

Table 4. Summary of Off-label medications for insomnia55 

Drug Class Generic Name Dose (mg) Eliminations Half Life (h) Tmax (h)

Sedating Antidepressants

Trazodone 25–150 9 (7–15) 1–2

Amitriptyline 10–100 30 (5–45) 2–5

Doxepin 3, 6 15.3 3.5

Sedating Antipsychotics Quetiapine 25–100 6 1–2

Anihistamines
Diphenhydramine 25–50 4–8 1–4

Doxylamine 25–50 10-12 1.5–2.5

Anticonvusants Gabapentin 100–900 5–9 1.6–3



S Afr Fam Pract 2018;60(3):33-3938

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 38

difficulties in patients with sleep-apnoea and chronic obstructive 
pulmonary disease. The most common adverse events are 
somnolence, headache, an unpleasant taste and dizziness; 
however, ramelteon is generally well-tolerated.64,65 

Orexin Receptor Antagonist (Suvorexant)

The novel pharmacological agent suvorexant, an orexin receptor 
antagonist, was approved by the FDA in 2014 for treatment of 
insomnia disorder. Orexin is a peptide produced by thousands of 
neurons located in the posterior lateral hypothalamus.

These neurons project to the same targets that GABA inhibits 
and orexin thus leads to diminished activity in sleep-promoting 
areas, enhancing wakefulness, as well as being involved in the 
stabilisation of the sleep-wake cycle. Suvorexant acts on this 
orexin system by suppressing the wake-stimulatory network of 
sleep-wake regulation, leading to decreased time to sleep onset, 
decreased time awake after sleep onset and increased total 
sleep time. This is in contrast to the traditional benzodiazepine 
pharmacological approach, which is to strengthen the sleep 
drive by augmentation of GABA-ergic activity. Important risks, 
such as the risk of dependency and tolerance might thus be 
avoided.66-69 The recommended suvorexant dosage range is  
10–20 mg, due to concerns about dose-related, next-day adverse 
effects, like sedation and cognitive and behavioural changes, 
such as amnesia and anxiety.70

Cannabanoids

Preliminary research into cannabis and insomnia suggests 
that cannabidiol (CBD) may have therapeutic potential for the 
treatment of insomnia. Delta-9 tetrahydrocannabinol (THC) 
may decrease sleep latency but could impair sleep quality long-
term. Novel studies investigating cannabinoids and obstructive 
sleep apnoea suggest that synthetic cannabinoids such as 
nabilone and dronabinol may have short-term benefit for sleep 
apnoea due to their modulatory effects on serotonin-mediated 
apnoeas. CBD may hold promise for REM sleep behaviour 
disorder and excessive daytime sleepiness, while nabilone may 
reduce nightmares associated with PTSD and may improve sleep 
among patients with chronic pain. Research on cannabis and 
sleep is in its infancy and has yielded mixed results. Additional 
controlled and longitudinal research is critical to advance our 
understanding of research and clinical implications.74

Herbal products

A variety of herbal products are purported to be useful for 
insomnia. There is little evidence from randomised controlled 
trials regarding the efficacy of many herbals, however, and 
for those that have been well studied (e.g., valerian), there 
is little evidence of benefit. A meta-analysis that included  
14 randomised trials in over 1600 patients found no significant 
difference between any herbal medicine and placebo on any of 
13 clinical efficacy measures of insomnia.71 The majority of the 
trials (11 out of 14) studied valerian; chamomile, kava, and wuling 
were studied in one trial each. Unlike the other herbals studied, 
valerian was associated with a greater number of adverse 
events per person compared with placebo. Valerian may also 
produce hepatotoxic effects.72 Contamination with undesirable 
substances poses a problem for many such natural remedies.

Conclusion

Increased awareness for effective insomnia disorder treatment 
is fundamentally important. The goal of treatment for insomnia 
is to improve sleep and alleviate anxiety or dysfunction caused 
by the disorder. Management of insomnia in all patients should 
include identifying the cause of insomnia and possible coexisting 
disorders. Insomnia can be managed with psychological 
therapy, which includes CBT, pharmacological therapy or a 
combination of both. Deciding whether to use pharmacological 
or behavioural therapy is difficult, as both have their limitations 
and advantages. Research has shown that CBT, which is non-
invasive was effective in treating the general population of 
adults, as well as elderly patients with chronic insomnia disorder. 
Furthermore, CBT is non-invasive and has been shown to likely 
have fewer harms, such as addiction to pharmacological agents. 
Medications, however, usually produce rapid improvements and 
are widely available, but the risk of adverse-effects (e.g., daytime 
sedation) and risk of dependence may complicate their use.

References
1. Mellinger GD, Balter MB, Uhlenhuth EH. Insomnia and its treatment. Prevalence 

and correlates. Arch Gen Psychiatry. 1985;42:225-32.
2. National Institutes of Health. National Institutes of Health State of the Science 

Conference statement on Manifestations and Management of Chronic Insomnia 
in Adults, 13-15 June 2005;28:1049.

3. Katz DA, McHorney CA. Clinical correlates of insomnia in patients with chronic 
illness. Arch Intern Med. 1998; 158:1099.

4. Krystal AD. Psychiatric comorbidity: the case for treating insomnia. Sleep Med 
Clin. 2006;1:359.

5. Fava M, McCall WV, Krystal A, et al. Eszopiclone co-administered with fluoxetine 
in patients with insomnia coexisting with major depressive disorder. Biol 
Psychiatry. 2006; 59:1052.

6. Roehrs T, Hyde M, Blaisdell B, et al. Sleep loss and REM sleep loss are 
hyperalgesic. Sleep. 2006;29:145.

7. Tashjian RZ, Banerjee R, Bradley MP, et al. Zolpidem reduces postoperative pain, 
fatigue, and narcotic consumption following knee arthroscopy: a prospective 
randomized placebo-controlled double-blinded study. Journal of Knee Surgery. 
2006;19:105.

8. Sack RL, Auckley D, Auger RR, et al. Circadian rhythm sleep disorders: part 
II, advanced sleep phase disorder, delayed sleep phase disorder, free-running 
disorder, and irregular sleep-wake rhythm. An American Academy of Sleep 
Medicine review. Sleep. 2007;30:1484.

9. American Academy of Sleep Medicine. International Classification of Sleep 
Disorders, 3rd ed, American Academy of Sleep Medicine, Darien, IL 2014.

10. “Sleep Wake Disorders” Diagnostic and statistical manual of mental disorders: 
DSM-5. 5th ed. Washington, DC: American Psychiatric Association, 2013.

11. Ancoli-Israel S, Roth T. Characteristics of insomnia in the United States: Results of 
the 1991 National Sleep Foundation Survey. I. Sleep. 1999;22:S347–53.

12. Roth T. New developments for treating sleep disorders. J Clin Psychiatry. 
2001;62:3-4.

13. Dollander M. Etiology of adult insomnia. Encephale. 2002;28:493-502. 
14. Hohagen F, Rink K, Käppler C, Schramm E, Rieman D, Weyerer S, et al. Prevalence 

and treatment of insomnia in general practice: A longitudinal study. Eur Arch 
Psych Clin Neurosc. 1993;242:325-36. 

15. Riedel BW, Durrence HH, Lichstein KL, Taylor DJ, Bush AJ. The relation between 
smoking and sleep: The influence of smoking level, health, and psychological 
variables. Behav Sleep Med. 2004;2:63-78.

16. Buscemi N, Vandermeer B, Friesen C, Bialy L, Tubman M, Ospina M, et al. 
Manifestations and management of chronic insomnia in adults. Evidence 
Report/Technology Assessment (Summ) 2005;125:1-10. 

17. Benca RM. Diagnosis and treatment of chronic insomnia: A review. Psychiatric 
Services. 2005;56:332-43. 

18. Franzen PL, Buysse DJ. Sleep disturbances and depression: Risk relationships for 
subsequent depression and therapeutic implications. Dialogues Clin Neurosci. 
2008;10:473-81. 

19. Morin CM, LeBlanc M, Daley M, Gregoire JP, Merette C. Epidemiology of 
insomnia: Prevalence, self-help treatments, consultations, and determinants of 
help-seeking behaviors. Sleep Med. 2006;7:123-30. 

20. Leger D, Guilleminault C, Bader G, Levy E, Paillard M. Medical and 
socio-professional impact of insomnia. Sleep. 2002;25:625-9. 



ERROR 404 – Sleep not found 39

The page number in the footer is not for bibliographic referencingwww.tandfonline.com/oemd 39

21. Léger D, Massuel MA, Metlaine A. SISYPHE Study Group. Professional correlates 
of insomnia. Sleep. 2006;29:171-8. 

22. Taylor DJ, Lichstein KL, Durrence HH. Insomnia as a health risk factor. Behav 
Sleep Med. 2003;1:227-47. 

23. Brasure M, Fuchs E, MacDonald R, et al. Psychological and Behavioral 
Interventions for Managing Insomnia Disorder: An Evidence Report for a Clinical 
Practice Guideline by the American College of Physicians. Ann Intern Med. 
2016;165:113.

24. Vallières A, Morin CM, Guay B. Sequential combinations of drug and cognitive 
behavioral therapy for chronic insomnia: an exploratory study. Behav Res Ther. 
2005;43:1611.25.

25. Schutte-Rodin S, Broch L, Buysse D, et al. Clinical guideline for the evaluation 
and management of chronic insomnia in adults. J Clin Sleep Med. 2008;4:487.26.

26. Wilson SJ, Nutt DJ, Alford C, et al. British Association for Psychopharmacology 
consensus statement on evidence-based treatment of insomnia, parasomnias 
and circadian rhythm disorders. J Psychopharmacol. 2010;24:1577.

27. Qaseem A, Kansagara D, Forciea MA, et al. Management of Chronic Insomnia 
Disorder in Adults: A Clinical Practice Guideline From the American College of 
Physicians. Ann Intern Med. 2016;165:125.

28. Riemann D, Baglioni C, Bassetti C, et al. European guideline for the diagnosis and 
treatment of insomnia. J Sleep Res. 2017;26:675.

29. Wilt TJ, MacDonald R, Brasure M, et al. Pharmacologic Treatment of Insomnia 
Disorder: An Evidence Report for a Clinical Practice Guideline by the American 
College of Physicians. Ann Intern Med. 2016;165:103.

30. Sateia MJ, Buysse DJ, Krystal AD, et al. Clinical Practice Guideline for the 
Pharmacologic Treatment of Chronic Insomnia in Adults: An American Academy 
of Sleep Medicine Clinical Practice Guideline. J Clin Sleep Med. 2017;13:307.

31. Ciraulo DA, Oldham M. 16: Sedative Hypnotics. The Effects of Drug Abuse on the 
Human Nervous System. Academic Press. 2014; 499-532.

32. Definition of hypnotic.  Accessed on 23 May 2018.  Available from: https://
medical-dictionary.thefreedictionary.com/somnifacient. 

33.  Brunton L, Lazo JS, Parker KL. “17: Hypnotics and Sedatives”. Goodman & 
Gilman’s The Pharmacological Basis of Therapeutics (11th ed). The McGraw-Hill 
Companies, Inc. 2006 (Accessed on 6 Feb 2018).  ISBN 0-07-146804-8. 

34. Morin CM. Definition of acute insomnia: diagnostic and treatment implications. 
Sleep Med Rev. Feb 2012;16(1):3-4.

35. Riemann D, Spiegelhalder K, Feige B, Voderholzer U, Berger M, Perlis M, et al. The 
hyperarousal model of insomnia: a review of the concept and its evidence. Sleep 
Med Rev. 2010;14(1):19-31.

36. American Academy of Sleep Medicine. International Classification of Sleep 
Disorders: Diagnostic and Coding Manual. 3rd ed. Westchester, Ill: American 
Academy of Sleep Medicine; 2014.

37. Morin CM, Edinger JD, Krystal AD, Buysse DJ, Beaulieu-Bonneau S, Ivers H. 
Sequential psychological and pharmacological therapies for comorbid and 
primary insomnia: study protocol for a randomized controlled trial. Trials. 
2016;17(1):118.

38. Drugs for insomnia - Treat Guidelines. Medical Letter. 2009;7:23.
39. Bloom HG, Ahmed I, Alessi CA, et al. Evidence-based recommendations for the 

assessment and management of sleep disorders in older persons. J Am Geriatr 
Soc. 2009;57:761.

40. Buscemi N, Vandermeer B, Friesen C, et al. The efficacy and safety of drug 
treatments for chronic insomnia in adults: a meta-analysis of RCTs. J Gen Intern 
Med. 2007;22:1335.

41. Holbrook AM, Crowther R, Lotter A, et al. Meta-analysis of benzodiazepine use in 
the treatment of insomnia. CMAJ. 2000;162:225.

42. Nowell PD, Mazumdar S, Buysse DJ, et al. Benzodiazepines and zolpidem for 
chronic insomnia: a meta-analysis of treatment efficacy. JAMA. 1997;278:2170.

43. Krystal AD. A compendium of placebo-controlled trials of the risks/benefits of 
pharmacological treatments for insomnia: the empirical basis for U.S. clinical 
practice. Sleep Med Rev. 2009;13:265.

44. Nutt DJ, Stahl SM. Searching for perfect sleep: the continuing evolution 
of GABAA receptor modulators as hypnotics. J Psychopharmacol. 
2010;24(11):1601-12. 

45. Huedo-Medina TB, Kirsch I, Middlemass J, et al. Effectiveness of 
non-benzodiazepine hypnotics in treatment of adult insomnia: meta-analysis of 
data submitted to the Food and Drug Administration. BMJ. 2012;345:e8343.

46. Lieberman JA. Update on the safety considerations in the management of 
insomnia with hypnotics: incorporating modified-release formulations into 
primary care. Prim Care Companion. J Clin Psychiatry. 2007;9:25.

47. Elie R, Rüther E, Farr I, et al. Sleep latency is shortened during 4 weeks of 
treatment with zaleplon, a novel nonbenzodiazepine hypnotic. Zaleplon Clinical 
Study Group. J Clin Psychiatry. 1999;60:536.

48. Risk of next morning impairment after use of insomnia drugs; FDA requires 
lower recommended doses for certain drugs containing zolpidem (Ambien, 
Ambien CR, Edluar, and Zolpimist). Safety Announcement. 1 Oct 2013 (Accessed 
on  1 May 2018). Available from: https://www.fda.gov/downloads/Drugs/
DrugSafety/UCM335007.pdf 

49. Hindmarch I, Legangneux E, Stanley N, et al. A double-blind, placebo-controlled 
investigation of the residual psychomotor and cognitive effects of zolpidem-MR 
in healthy elderly volunteers. Br J Clin Pharmacol. 2006;62:538.

50. FDA Drug Safety Communication: FDA approves new label changes and dosing 
for zolpidem products and a recommendation to avoid driving the day after 
using Ambien CR. Safety Announcement, 14 May 2013 (Accessed on 1 May 
2018). Available from: https://www.fda.gov/drugs/drugsafety/ucm352085.htm 

51. Roth T, Walsh JK, Krystal A, et al. An evaluation of the efficacy and safety of 
eszopiclone over 12 months in patients with chronic primary insomnia. Sleep 
Med. 2005;6:487.

52. Ancoli-Israel S, Krystal AD, McCall WV, et al. A 12-week, randomized, double-
blind, placebo-controlled study evaluating the effect of eszopiclone 2 mg on 
sleep/wake function in older adults with primary and comorbid insomnia. Sleep. 
2010;33:225.

53. Krystal AD, Erman M, Zammit GK, et al. Long-term efficacy and safety of 
zolpidem extended-release 12.5 mg, administered 3 to 7 nights per week for 
24 weeks, in patients with chronic primary insomnia: a 6-month, randomized, 
double-blind, placebo-controlled, parallel-group, multicenter study. Sleep. 
2008;31:79.

54. Erman M, Guiraud A, Joish VN, Lerner D. Zolpidem extended-release 12.5 mg 
associated with improvements in work performance in a 6-month randomized, 
placebo-controlled trial. Sleep. 2008;31:1371.

55. Asnis GM, Thomas M, Henderson MA. Pharmacotherapy Treatment Options 
for Insomnia: A Primer for Clinicians. Int J Mol. Sci. 2016;17(1):50. doi:10.3390/
ijms17010050

56. Krystal AD, Lankford A, Durrence HH, Ludington E, Jochelson P, Rogowski R, Roth 
T. Efficacy and safety of doxepin 3 and 6 mg in a 35-day sleep laboratory trial in 
adults with chronic primary insomnia. Sleep. 2011;34(10):1433.

57. Lippmann S, Mazour I, Shahab H. Insomnia: therapeutic approach. South Med J. 
2001;94(9):866.

58. Bertisch SM, Herzig SJ, Winkelman JW, Buettner C. National use of prescription 
medications for insomnia: NHANES 1999-2010. Sleep. 2014;37(2):343-9.

59. Sateia MJ, Buysse DJ, Krystal AD, et al. Clinical Practice Guideline for the 
Pharmacologic Treatment of Chronic Insomnia in Adults: An American Academy 
of Sleep Medicine Clinical Practice Guideline. J Clin Sleep Med. 2017;13:307.

60. Buscemi N, Vandermeer B, Hooton N, et al. The efficacy and safety of exogenous 
melatonin for primary sleep disorders. A meta-analysis. J Gen Intern Med. 
2005;20:1151.

61. van Geijlswijk IM, Korzilius HP, Smits MG. The use of exogenous melatonin in 
delayed sleep phase disorder: a meta-analysis. Sleep. 2010; 33:1605.

62. Buscemi N, Vandermeer B, Friesen C, Bialy L, Tubman M, Ospina M, et al. 
The efficacy and safety of drug treatments for chronic insomnia in adults: a 
meta-analysis of RCTs. J Gen Intern Med. 2007;22(9):1335.

63. Belsomra, suvorexant [Product Information]. Whitehouse Station, NJ: Merck and 
Co., Inc.; 2014.

64. Kuriyama A, Honda M, Hayashino Y. Ramelteon for the treatment of insomnia 
in adults: a systematic review and meta-analysis. Sleep Med. 2014;15(4):385-92.

65. Ferracioli-Oda E, Qawasmi A, Bloch MH. Meta-analysis: melatonin for the 
treatment of primary sleep disorders. PloS one. 2013;8(5):e63773.

66. Kryger M, Roth T, Wang-Weigand S, Zhang J. The effects of ramelteon on 
respiration during sleep in subjects with moderate to severe chronic obstructive 
pulmonary disease. Sleep Breath. 2009;13(1):79-84.

67. Citrome L. Suvorexant for insomnia: a systematic review of the efficacy and 
safety profile for this newly approved hypnotic–what is the number needed to 
treat, number needed to harm and likelihood to be helped or harmed? Int J Clin 
Pract. 2014;68(12):1429-41.

68. Zeitzer JM, Nishino S, Mignot E. The neurobiology of hypocretins (orexins), 
narcolepsy and related therapeutic interventions. Trends Pharmacol Sci. 
2006;27:368-74.

69. Herring WJ, Connor KM, Ivgy-May N, Snyder E, Liu K, Snavely DB, et al. 
Suvorexant in patients with insomnia: results from two 3-month randomized 
controlled clinical trials. Biol Psychiatry. 2016;79(2):136-48.

70. Broese M, Riemann D, Hein L, Nissen C. α-Adrenergic receptor function, arousal 
and sleep: mechanisms and therapeutic implications. Pharmacopsychiatry. 
2012;45(06):209-16.

71. Leach MJ, Page AT. Herbal medicine for insomnia: A systematic review and 
meta-analysis. Sleep Med Rev. 2015; 1.

72. National Institutes of Health. National Institutes of Health State of the Science 
Conference statement on Manifestations and Management of Chronic Insomnia 
in Adults, 13-15 June 2005. Sleep. 2005;28:1049.

73. Fields WC. “The best cure for insomnia is to get a lot of sleep.” Accessed on 20 
May 2018. Available from: http://www.doublequotes.net/w-c-fields-quotes/
about-sleep

74. Babson KA, Sottile J, Morabito D. Cannabis, Cannabinoids, and Sleep: A Review 
of the Literature. Curr Psychiatry Rep. 2017;19(4):23.