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1 1 (November 18, 2022)

handle is hein.crs/govejlh0001 and id is 1 raw text is: a Congressional Research Service piisseminforming the legislative debate since 1914 Updated November 18, 2022 Management of Sleep and Fatigue in Military Aviation In recent years, Congress has expressed concern over the effects of sleep deprivation on servicemember health and military readiness, as well as its impact on military aviation safety. Aviators in all military services of the Department of Defense (DOD) with high operational, psychological, and physiological demands may experience sleep deprivation and fatigue. To counter these effects, the military services use mitigation strategies (i.e., non-pharmacological and pharmacological measures) to enhance aviator safety and prevent aviation mishaps. This In Focus provides an overview of those mitigation strategies and offers issues for congressional consideration. Background The U.S. Centers for Disease Control and Prevention estimates 32.5% of adults do not meet the Healthy People 2030 (HP2030) criteria for sufficient sleep. In comparison, the 2018 DOD Health Related Behaviors Survey estimated 77.7% of active duty servicemembers did not meet HP2030 criteria. HP2030 categorizes sufficient sleep as at least seven hours in a 24-hour period. Research indicates a variety of detrimental health effects arise from both acute and chronic sleep deprivation. Sleep deprivation and fatigue are two distinct physiological states. The National Institutes of Health defines sleep deprivation as a condition that occurs when someone [does not] get enough sleep. Sleep deprivation is a contributor to fatigue. The National Institute for Occupational Safety and Health defines fatigue as a feeling of weariness, tiredness or lack of energy. Sleep deprivation and fatigue can be most apparent when an individual is awake counter to their circadian rhythm (i.e., during the circadian trough of alertness), typically apparent during the early morning hours (see Figure 1). Figure 1. Relative Level of Alertness and Wakefulness Based on Time of Day High 'V a 0 -d o Low Time of Day Source: CRS graphic adapted from Shappell, et al., Crew Rest and Duty Restrictions for Commercial Space Flight, available at https://rosap.ntl.bts.gov/view/dot/34244. Military aviators may experience sleep deprivation and fatigue due to a variety of factors, including inhospitable sleep environments, operational demands, unpredictable schedules, long-duty days or flight durations, challenging flight conditions, and circadian-rhythm disruption due to crossing multiple time zones, known as chronodisruption. In a March 2021 report to Congress, DOD stated sleep deprivation has significant effects on the physical, cognitive, and emotional functioning needed for readiness, occupational, and operational mission fulfillment. The report also described the risk of accident in training, operational, and combat environments significantly increases if Service members are sleep deprived. Fatigue Management in Military Aviation Each military service is responsible for implementing its own policies and procedures to mitigate aviator fatigue and sleep deprivation. The military services use varied approaches to mitigate aviator fatigue, including (1) administrative and behavioral (i.e., non-pharmacological) measures, and (2) the voluntary use of pharmacological measures. Regulations for each service consistently emphasize non-pharmacological measures as the primary means of mitigating fatigue. Administrative and Behavioral Measures Administrative and behavioral measures vary by service and airframe, but all services limit the length of an aviator's duty day, total flight hours over a given period, and standards for rest and time available for sleep. The military services also educate aviators on the impact of sleep loss and the benefits of consistent sleep. Pharmacological Measures Historical Use of Pharmacological Measures. The U.S. military historically has approved pharmacological measures for aviators in certain mission contexts. For example, the Air Force and Navy have authorized the use of pharmacological measures for select missions and aircrew during combat operations, at least since the Vietnam War. The operational needs for these measures have been scrutinized and are an area of review. For example, the Air Force suspended the use of stimulants between 1996 and 2001. After considering survey results from pilots flying during Operation Desert Storm and four placebo-controlled studies, the Air Force validated the need and utility of the measures and rescinded the suspension. Current Use. Sustained high-operations tempo over the past several decades, among other factors, has generated persistent demand for the use of pharmacological measures. The military services authorize aviation medicine specialists (i.e., flight surgeons) to prescribe U.S. Food and Drug Administration (FDA)-approved pharmacological agents as a fatigue management measure when administrative and behavioral measures are known or

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