Shift work sleep disorder
Shift work sleep disorder is a circadian rhythm sleep disorder characterized by insomnia and excessive sleepiness affecting people whose work hours overlap with the typical sleep period. Insomnia can be the difficulty to fall asleep or to wake up before the individual has slept enough. About 20% of the working population participates in shift work. SWSD commonly goes undiagnosed, so it's estimated that 10-40% of shift workers suffer from SWSD. The excessive sleepiness appears when the individual has to be productive, awake and alert. Both symptoms are predominant in SWSD. There are numerous shift work schedules, and they may be permanent, intermittent, or rotating; consequently, the manifestations of SWSD are quite variable. Most people with different schedules than the ordinary one might have these symptoms but the difference is that SWSD is continual, long-term, and starts to interfere with the individual's life.
Health effects
There have been many studies suggesting health risks associated with shift work. Many studies have associated sleep disorders with decreased bone mineral density and risk for fracture. Researchers have found that those who work long-term in night positions, like nurses, are at a great risk for wrist and hip fractures. Low fertility and issues during pregnancy are increased in shift workers. Obesity, diabetes, insulin resistance, and dyslipidemias were shown to be much higher in those who work night shift. SWSD can increase the risk of mental disorders. Specifically, depression, anxiety, and alcohol abuse is increased in shift workers. Because the circadian system regulates the rate of chemical substances in the body, when it is impaired, several consequences are possible. Acute sleep loss has been shown to increase the levels of t-tau in blood plasma, which may explain the neurocognitive effects of sleep loss.Sleep quality
Sleep loss and decreased quality of sleep is another effect of shift work. To promote a healthy lifestyle, the American Academy of Sleep Medicine recommended that an adult have 7 or more hours of sleep per day. Each year there are almost 100,000 deaths estimated in the U.S. because of medical errors. Sleep deprivation and sleep disorders are factors that contribute significantly to these errors. In the same article, the authors affirm that there is a high prevalence of sleepiness and symptoms of sleep disorders related to the circadian system in medical center nurses. In a study done with around 1100 nurses, almost half of them reported sleeping less than 7 hours per day, a significant increase compared to national figures, in which 28% of people claimed to sleep less than 7 hours per night. Having a lack of sleep can impact cognitive performance. For example, it might become difficult to stay focused and concentrate, and reaction times might also be slowed down. SWSD might interfere with making decisions quickly, driving, or flying safely. Sleep loss seen in shift workers greatly impairs cognitive performance, being awake for 24 hrs. straight results in a cognitive performance that is equal to a blood-alcohol of 0.10, which is over the legal limit in most states. All of these factors can affect work efficiency and cause accidents. Michael Lee et al. demonstrated that those working night shifts had a significantly higher risk of hazardous driving events when compared to those on a typical day shift schedule. Accidents in the workplace have been found to be 60% higher in shift workers. They can affect the individual's social life and cause a lack of well-being and happiness. Poor sleep quality has also been associated with decreased quality of life, based on a SF-36 assessment.Sleep and alertness
Although SWD affects a majority of shift workers, its manifestation is still unclear within the general shift-working population. A field study investigating the nature of SWD in an experimental and control group of Finnish shift workers revealed decreased total sleep time and increased sleep deficit before morning shifts. Furthermore, the SWD group also exhibited decreased objective sleep efficiency, decreased in sleep compensation over the weekends, increased sleep latency, and finally poorer sleep quality was recorded in the SWD group compared to the non-SWD group. Moreover, shift workers with SWD scored significantly higher on the Karolinska Sleepiness Scale when assessed at the end of night shifts but at the beginning and the end of morning shifts.Many studies have shown evidence of how partial and total sleep deprivation effects work productivity, absenteeism, fatal workplace accidents, and more. In a study by Akkerstedt et al., those who had a hard time sleeping in the past two weeks were at a greater risk for having a fatal workplace accident. Other sleep disorders, like OSA which are risk factors for SWSD, have also been associated with low productivity, absenteeism, and accidents. At a cognitive level, sleep deprivation has been shown to cause decreased attentiveness, increased micro-sleeps, delayed psychomotor response, performance deterioration, neglect of activities, decline in working memory, and more.
Immune functioning
Partial and total sleep deprivation has been linked to an increase of pro-inflammatory markers, such as IL-6, and a decrease in anti-inflammatory markers, such as IL-10, that plays a role in tumor suppression. Chronic shift work has been associated with decreased immune function in nurses. In a study by Naigi, et. al., over the course of a shift, nurses exhibited decreasing levels of Natural Killer cells, an innate immune response that plays a role in infectious disease and tumor suppression. Other researchers have found that less sleep at night increased the risk of developing the common cold. A supporting study by Moher et al. showed that shift workers were more likely to develop infectious diseases after exposure compared to daytime workers. A poorly functioning immune system may leave workers vulnerable for developing occupational illnesses. Sleep loss is also associated with an increase in TNF, a marker of systemic immune functioning.Cardiovascular disease
Decreased sleep quality and duration have also been associate with other chronic illnesses, such as cardiovascular disease. Many studies have shown that prolonged sleeplessness and sleep disorders, such as OSA, increases systemic levels of CRP, a marker of cardiovascular disease. Many studies have shown that lack of sleep causes blood pressure to increase from the prolonged stimulation of the nervous system. The increase of inflammatory markers, like IL-6, up-regulate the production of CRP.SWSD in firefighters
SWSD can effect many occupations, but firefighters are at a greater risk because of their extended shift and frequent sleep interruptions due to emergencies. Many firefighters suffer from sleep disorders as a result of their extended shift and frequently disrupted sleep. In a study on firefighters by Barger, et al., over a third of study participants screened positive for a sleep disorder, but most had not received a previous medical diagnosis for any sleep disorders. Those with sleep disorders were also at a higher risk for being in a motor vehicle crash, near crash, and nodding off while driving.Symptoms
- Excessive sleepiness
- Difficulty sleeping
- Difficulty concentrating
- Headaches
- Lack of energy
Cause
The prevalence of SWSD is unclear because it is not often formally diagnosed but it is estimated to affect 5–10% of night and rotating workers. There are various risk factors, including age. Although SWSD can appear at any age, the highest prevalence is in the 50 years old and above age bracket and even more so in cases of irregular schedules.
Gender is also a factor. It may be that female night workers sleep less than their male counterparts. A possible explanation is the social obligations that can increase their vulnerability to SWSD. Female night workers also seem to be more sleepy at work.
Some people are more affected by shift work and sleeplessness than others, and some will be impaired on some tasks while others will always perform well on the same tasks. Some people have a morning preference but others not. Genetic predisposition is an important predictor of which people are vulnerable to SWSD.
Mechanism
Brain arousal is stimulated by the circadian system during the day and sleep is usually stimulated at night. The rhythms are maintained in the suprachiasmatic nucleus, located in the anterior hypothalamus in the brain, and synchronized with the day/night cycle. Gene-transcription feedback loops in individual SCN cells form the molecular basis of biological timekeeping. Circadian phase shifts are dependent on the schedule of light exposure, the intensity, and previous exposure to light. Variations in exposure can advance or delay these rhythms. For example, the rhythms can be delayed due to light exposure at night.Photoreceptors located in the retina of the eye send information about environmental light through the retinohypothalamic tract to the SCN. The SCN regulates the pineal gland, which secretes the hormone melatonin. Typically, the secretion of melatonin begins two hours before bedtime and ends two hours prior to waking up. A decline in neuronal firing in the SCN is caused by the binding of melatonin to the MT1 and MT2 melatonin receptors. It is believed that the reduction in firing in the SCN stimulates sleep. While day-active individuals produce melatonin at night, night shift workers' production of melatonin is suppressed at night due to light exposure.
Circadian misalignment
Circadian misalignment plays a major role in shift work sleep disorder. Circadian misalignment occurs when there is no complete adaptation to a night shift schedule. The hormones cortisol and melatonin are an important part of the circadian rhythm. In circadian misalignment, cortisol and melatonin lack entrainment to a night oriented schedule and stay on a daytime schedule. Melatonin continues to peak at night during a shift workers awake time and decreases during a shift workers sleep time. Cortisol levels are lower during a shift workers awake time and remain higher during shift workers sleep time.Diagnosis
The primary symptoms of shift work sleep disorder are insomnia and excessive sleepiness associated with working at non-standard times. Shift work sleep disorder is also associated with falling asleep at work. Total daily sleep time is usually shortened and sleep quality is less in those who work night shifts compared to those who work day shifts. Sleepiness is manifested as a desire to nap, unintended dozing, impaired mental acuity, irritability, reduced performance, and accident proneness. Shift work is often combined with extended hours of duty, so fatigue can be a compounding factor. The symptoms coincide with the duration of shift work and usually remit with the adoption of a conventional sleep-wake schedule. The boundary between a "normal response" to the rigors of shift work and a diagnosable disorder is not sharp.There are criteria of SWSD in the International Classification of Sleep Disorder - Third Edition and in the International Classification of Diseases. The diagnosis requires the following assumptions :
- There is an insomnia or/and an excessive sleepiness with a reduction of total sleep time, all combined with an overlap of work period occurring during the habitual sleep time.
- The presence of these symptoms has lasted for at least 3 months and are associated with the shift work schedules.
- Sleep log or actigraphy monitoring demonstrate for more than 14 days circadian and sleep-time misalignment.
- Sleep disturbance is associated with impairment of social, occupational, and/or other waking functioning.
- These symptoms are not better explained by another sleep disorder, medical or neurologic disorder, mental disorder, medication use, poor sleep hygiene, or substance use disorder.
Assessments
Treatment
Prescribed sleep/wake scheduling
Experts agree that there is no such thing as an "ideal" night work schedule, but some schedules may be better than others. For example, rotating shifts every two weeks in a forward direction was found to be easier than rotation in a backward direction. Gradual delays has been shown in a laboratory setting to maintain synchrony between sleep and the endogenous circadian rhythms, but this schedule is impractical for most real world settings. Some experts have advocated short runs of night work with time for recovery; however, in the traditional heavy industries, longer runs remain the rule. In the end, scheduling decisions usually involve maximizing leisure time, fairness in labor relations, etc. rather than chronobiological considerations. Shift workers can benefit from adhering to sleep hygiene practices related to sleep/wake scheduling. Symptoms typically only fully resolve once a normal sleep schedule is resumed.Many night workers take naps during their breaks, and in some industries, planned napping at work is beginning to be accepted. A nap before starting a night shift is a logical prophylactic measure. However, naps that are too long may generate sleep inertia, a groggy feeling after awakening that can impair performance. Therefore, brief naps are preferred to longer naps. Also, long naps may interfere with the main sleep period.
In the transportation industry, safety is a major concern, and mandated hours of service rules attempt to enforce rest times.
Bright light treatment
The light-dark cycle is the most important environmental time cue for entraining circadian rhythms of most species, including humans, and bright artificial light exposure has been developed as a method to improve circadian adaptation in night workers. The timing of bright light exposure is critical for its phase shifting effects. To maximize a delay of the body clock, bright light exposure should occur in the evening or first part of the night, and bright light should be avoided in the morning. Wearing dark goggles or blue-blocking goggles during the morning commute home from work can improve circadian adaptation. For workers who want to use bright light therapy, appropriate fixtures of the type used to treat winter depression are readily available but patients need to be educated regarding their appropriate use, especially the issue of timing. Bright light treatment is not recommended for patients with light sensitivity or ocular disease.Melatonin treatment
is a hormone secreted by the pineal gland in darkness, normally at night. Its production is suppressed by light exposure, principally blue light around 460 to 480 nm. Light restriction, or dark therapy, in the hours before bedtime allows its production. Dark therapy does not require total darkness. Amber or orange colored goggles eliminate blue light to the eyes while allowing vision.Melatonin is also available as an oral supplement. In the US and Canada, the hormone melatonin is not classified as a drug; it is sold as a dietary supplement. In other countries, it requires a prescription or is unavailable. Although it is not licensed by the FDA as a treatment for any disorder, there have been no serious side effects or complications reported to date.
Melatonin has been shown to accelerate the adaptation of the circadian system to a nighttime work schedule. Melatonin may benefit daytime sleep in night workers by an additional direct sleep promoting mechanism. Melatonin treatment may increase sleep length during both daytime and nighttime sleep in night shift workers.