Assessment of the fixed 3-section 4hrs-on/8hrs-off watchstanding schedule in sailors of the Swedish Royal Navy compared to sailors of the United States Navy

This prospective longitudinal quasi-experimental study assessed the utility of the 3-section, fixed, 4hrs-on/8hrs-off watchstanding schedule on a ship of the Swedish Royal Navy (HSwMS ORIOΝ). Sailor (n = 19) state was assessed in terms of sleep attributes, fatigue, insomnia symptoms, mood, psychomotor vigilance performance, and workload. Data from the HSwMS ORIOΝ were compared with data from sailors from three surface vessels of the USN (n = 22). Compared to their USN peers, sailors on the HSwMS ORION were more alert, reported better sleep quality, less severe insomnia symptoms, and better mood in terms of total mood disturbance, depression, fatigue, and vigor. The same pattern was evident in psychomotor vigilance performance, i.e., sailors on the HSwMS ORION were faster and made fewer errors as assessed by lapses or lapses combined with false starts. Sailors in the two samples did not differ in terms of daily sleep duration and the number of sleep episodes per day. Also, daily work duration did not differ substantively between the two groups. We postulate that one factor that explains why Swedish sailors felt and performed better is the fact that sailors in night shifts were allowed to wake up later in the day, and, consequently some work duties occurred later in the day. In conclusion, our findings suggest the sailor well-being when standing watch on the fixed 4/8 can be improved when sailors are allowed flexible wake-up times in the morning after a night shift. Given the small number of participants, however, further research is needed to understand better the advantages and disadvantages of the 4/8 in the naval operational environment, and how to improve the utility of the watchbill.Approved for public release; distribution is unlimited

Wrist-Worn Psychomotor Vigilance Task Device Validation Study

Prepared for: Naval Advanced Medical Development Program; Naval Medical Research Center; 503 Robert Grant Avenue, Silver Spring, MD 20910Collecting reliable human performance data in military operational environments is an ongoing challenge. A major issue of concern is identifying systems that can capture human performance metrics in a reliable and valid manner in the field. One task that has been used extensively in the laboratory - and more recently in field settings - is the Psychomotor Vigilance Test (PVT). Since 2008 the PVT has been included as a feature on a wrist-worn actigraph (AMI, Inc.), thereby enabling researchers to easily administer the PVT in the field. The current project has three aims, a) to validate the 3-minute PVT which is currently embedded in the AMI actigraph, b) to explore the utility of other devices for field use, and c) to provide recommendations for the collection of PVT data in the military operational environments. In our studies, we found that when the screen backlight is illuminated, the results of the 3-minute PVT on the AMI actigraph are comparable to those from the laptop PVT. These findings demonstrate that the 3-minute PVT on the AMI actigraph is a valid alternative to the 3-minute laptop-based PVT for field assessment. Given the widespread use of hand-held devices with a touch screen interface, we also tested a PVT application on a representative touch screen device. Our findings were disappointing, showing that the hand-held touch screen PVT system was not comparable to the validated PVT. In particular, the touch screen PVT introduced a large constant bias as well as a proportional bias that decreased the range of response speed. These findings raised the question of what the appropriate user interface should be for a field-grade PVT system. Herein, we present a method we have developed and refined over multiple years to prepare PVT data collected in field setting for analysis. This method reduces bias due to missing data and artifacts from external disturbances by assessing the quality of the PVT data on three levels: the raw response level, the aggregated (trial) level, and the participant level. In brief, our experience of collecting PVT data, combined with findings from this current 3 year effort, suggests that when administering the PVT in field settings, it is best if the PVT is embedded in a wearable device such as the AMI device. While other types of devices (e.g., smartphones, iPods, tablets, etc.) can be used for PVT administration, they have important constraints which should be taken into consideration.Naval Medical Research Center Advanced Medical Development ProgramNaval Advanced Medical Development Program; Naval Medical Research CenterApproved for public release; distribution is unlimited

0821 Gender Differences in Sailor Well-Being, Sleep-Related Behaviors, and Psychomotor Vigilance Performance in the United States Navy

17 USC 105 interim-entered record; under review.The article of record as published may be found at https://doi.org/10.1093/sleep/zsaa056.817Introduction: Approximately 18% of US Navy sailors are females. Research has shown gender-related differences in the prevalence of sleep disorders in active duty personnel (Foster et al., 2017). Specifically, insomnia, depression, and anxiety are more prevalent in females, while obstructive sleep apnea is more prevalent in males. We have studied the sleep patterns and fatigue levels of crew members on more than 30 US Navy ships. The current study focuses on gender differences in well-being, sleep-related behaviors, and psychomotor vigilance performance of sailors in the US Navy. Methods: Using a longitudinal, naturalistic observation paradigm, data were collected from crewmembers on nine USN ships while performing their normal underway duties. Participants (N=1,056) tended to be young (on average 27 years of age), predominantly male (80.6%), and enlisted (84.8%). We assessed average daytime alertness (Epworth Sleepiness Scale), insomnia symptoms (Insomnia Severity Index), mood (Profile of Mood States), and sleep quality (Pittsburgh Sleep Quality Index). Sleep was assessed with actigraphy and logbooks. Sailors performed a 3-minute version of the Psychomotor Vigilance Task (PVT), which was built into their wrist-worn actigraph. Results: Compared to males, female sailors reported more depressive symptoms (p=0.042) and less vigor (p<0.001). Females slept more (daily sleep duration: p<0.001) but their sleep was split into more episodes than their male counterparts (p=0.029). Fewer females reported a regular exercise routine (p=0.033). In addition, females report consuming fewer energy drinks (p=0.007), and using fewer nicotine products (p=0.013). Lastly, consistent with findings from civilian populations, female sailors had slower reaction times on the PVT (p<0.001) and experienced more lapses combined with false starts (p<0.001) than their male counterparts. Conclusion: Compared to their male peers, female sailors tend to report higher levels of depression and lower levels of vigor. They experience more pronounced split sleep, are less likely to report having an exercise routine, and have poorer performance on the PVT. Fewer females report using energy drinks and nicotine products.This research was supported by the Naval Medical Research Center’s Advanced Medical Development Program, the US Navy 21st Century Sailor Office, and the US Navy OPNAV N1

How Effective is a Simple Pre-Diabetes Screen for Clinical Practice?

The article of record as published may be found at http://dx.doi.org/10.4172/2472-1921.100019Diabetes is a global problem. According to WHO (2014) the global prevalence of diabetes was estimated to be 9% among adults aged 18+ years. In 2012, an estimated 1.5 million deaths were directly caused by diabetes. Of note, more than 80% of diabetes deaths occur in low- and middle-income countries. It is predicted that diabetes will be the 7th leading cause of death in 2030. Of concern is the vast majority of people living with pre diabetes are unaware they have it. Without lifestyle changes to improve their health, an estimated 15% to 30% of people with pre diabetes will develop type 2 diabetes within 5 years. Simple screening methods may identify risk and facilitate conversations with patients to identify specific barriers to making healthy lifestyle choices to decrease risk for diabetes

0173 The Effect of Sleep on Mood of U.S. Navy Sailors

Sleep, Volume 41, Issue suppl_1, April 2018, Page A68,The article of record as published may be found at https://doi.org/10.1093/sleepj/zsx050.171U.S. Navy crewmembers experience sleep deprivation and circadian misalignment due to long workdays. They frequently work rotating schedules that impose >6 hr of jetlag daily, resulting in disrupted circadian rhythms. This study assessed sleep and mood of crewmembers on a Navy ship

0776 Differences in Well-Being in Dayworkers Compared to Shift Workers: A Study of United States Navy Sailors

17 USC 105 interim-entered record; under review.The article of record as published may be found at https://doi.org/10.1093/sleep/zsaa056.772Introduction: On United States Navy (USN) ships, most sailors are shift workers, required to support 24/7 operations. However, ~15% of the ship’s company are solely dayworkers who do not work in shifts. It is often assumed that the quality of life for dayworkers is better than that of shift workers. This study compared the well-being of dayworkers with that of shift workers. Methods:Longitudinal, naturalistic observations were made of sailors (N=926; 18-59 years of age, ~80% males, ~84% enlisted personnel) on seven US Navy ships while performing their normal underway duties. Sleep-related attributes (actigraphy, Epworth Sleepiness Scale, Pittsburgh Sleep Quality Index, Insomnia Severity Index), mood (Profile of Mood States), and work/rest patterns were assessed. Results: Dayworkers (DW; n=98) were on average older (p=0.001) and more senior (p=0.001) than shift workers (SW). Of the dayworkers, 31% reported elevated daytime sleepiness (SW:45.5%; p=0.008), 64.2% were poor sleepers (SW:82.6%; p10 and ISI≥15 (SW:16.8%; p=0.626).Dayworkers had better mood (Total Mood Disturbance, anger/hostility, vigor, fatigue; all p0.300) in their use of caffeinated beverages (82%-86%), use of nicotine products (30%-36%), or having a regular exercise routine (69%-75%). In both groups, ~9% of sailors drank caffeinated beverages, used nicotine products and did not have an exercise routine (p=0.999). Dayworkers worked 10.1 hours/day, i.e., 1.7 hours/day less than watchstanders (p<0.001). Conclusion: Quality of life of dayworkers is a bit better when compared to shift workers, but sleep-related issues are evident in almost all US Navy sailors. Living and working on a naval vessel takes a toll on almost everyone aboard. A culture change is required!Supported by the Naval Medical Research Center’s Advanced Medical Development Program, the US Navy 21st Century Sailor Office, and the US Navy OPNAV N1

Crew Endurance Training Program for the US Navy

Prepared for: Naval Advanced Medical Development Program; Naval Medical Research Center; 503 Robert Grant Avenue, Silver Spring, MD 20910The Crew Endurance Training program was designed to provide fleet-wide support to the US Navy on the successful implementation of circadian-based watchbills, and guidance on sleep management and crew endurance best practices. The first phase of the study included the evaluation of existing educational programs and the analysis of training needs. Combining information from studies conducted by the Naval Postgraduate School Crew Endurance team on USN ships, the expertise of the Sleep Matters Initiative (SMI), and feedback from active-duty service members (ADSMs), we developed the first version of training materials in 2019. The second phase of the project included the delivery of the training program, its assessment, and the analysis and refinement of the training. This iterative procedure was repeated throughout the second phase of the project. The training was provided to more than 1,160 ADSMs, both USN Sailors and Marines. Overall, the responses from all audiences were positive with a high level of satisfaction with the training provided in terms of understanding the importance of sleep, sleep hygiene practices, the effect of sleep on operational performance and endurance, how best to implement circadian-based watchbills, and with the instructors, course content, and training duration. In general, trainees asked for more in-depth information, but operational commitments limited the time available to answer all questions. Also, we updated the Crew Endurance website to support sharing of lessons learned and best practices for the individual and the command. The website includes references, tools, and training materials for use by the warfighter and shipboard leaders, as well as templates for shipboard watchbills and instructions to support circadian-based watchbills. Based on the findings from this study and the expressed need for training on crew endurance and guidance regarding the efficient application of circadian-based watchbills, we recommend the continuation of the Crew Endurance Training project.Naval Advanced Medical Development Program; Naval Medical Research CenterNaval Advanced Medical Development ProgramApproved for public release; distribution is unlimited

Assessment of a Novel Watchstanding Schedule on an Operational US Navy Vessel

HFES 201