Determining Resident Sleep During and After Call With Commercial Sleep Monitoring Devices.

OBJECTIVE To demonstrate that commercial activity monitoring devices (CAMDs) are practical for monitoring resident sleep while on call. Studies that have directly monitored resident sleep are limited, likely owing to both cost and difficulty in study interpretation. The advent of wearable CAMDs that estimate sleep presents the opportunity to more readily evaluate resident sleep in physically active settings and "home call," a coverage arrangement familiar to urology programs. METHODS Twelve urology residents were outfitted with Fitbit Flex devices during "home call" for a total of 57 (out of 64, or 89%) call or post-call night pairs. Residents were surveyed with the Stanford Sleepiness Scale (SSS), a single-question alertness survey. Time in bed (TIB) was "time to bed" to "rise for day." Fitbit accelerometers register activity as follows: (1) not moving; (2) minimal movement or restless; or (3) above threshold for accelerometer to register steps. Total sleep time (TST) was the number of minutes in level 1 activity during TIB. Sleep efficiency (SE) was defined as TST divided by TIB. RESULTS While on call, 10 responding (of 12 available, 83%) residents on average reported TIB as 347 minutes, TST as 165 minutes, and had an SE of 47%. Interestingly, SSS responses did not correlate with sleep parameters. Post-call sleep demonstrated increases in TIB, SE, and TST (+23%, +15%, and +44%, respectively) while sleepiness was reduced by 22%. CONCLUSION We demonstrate that urologic residents can consistently wear CAMDs while on home call. SSS did not correlate with Fitbit-estimated sleep duration. Further study with such devices may enhance sleep deprivation recognition to improve resident sleep.

[1]  J. Rothschild,et al.  Effect of reducing interns' weekly work hours on sleep and attentional failures. , 2004, The New England journal of medicine.

[2]  Sonia Ancoli-Israel,et al.  Diagnostic tools for REM sleep behavior disorder. , 2012, Sleep medicine reviews.

[3]  K. Avis,et al.  Comparison of a Commercial Accelerometer with Polysomnography and Actigraphy in Children and Adolescents. , 2015, Sleep.

[4]  M. Sateia,et al.  Clinical guideline for the evaluation and management of chronic insomnia in adults. , 2008, Journal of clinical sleep medicine : JCSM : official publication of the American Academy of Sleep Medicine.

[5]  C. Alessi,et al.  Practice parameters for the psychological and behavioral treatment of insomnia: an update. An american academy of sleep medicine report. , 2006, Sleep.

[6]  C. Landrigan,et al.  Surgeon fatigue: a prospective analysis of the incidence, risk, and intervals of predicted fatigue-related impairment in residents. , 2012, Archives of surgery.

[7]  H. Cohen,et al.  Balance as a measurement of fatigue in postcall residents , 2015, The Laryngoscope.

[8]  W. Dement,et al.  Quantification of sleepiness: a new approach. , 1973, Psychophysiology.

[9]  Guillén Fernández,et al.  Functional connectivity during light sleep is correlated with memory performance for face–location associations , 2011, NeuroImage.

[10]  L. Meltzer,et al.  Direct comparison of two new actigraphs and polysomnography in children and adolescents. , 2012, Sleep.

[11]  N. Spritz Oversight of physicians' conduct by state licensing agencies. Lessons from New York's Libby Zion case. , 1991, Annals of internal medicine.

[12]  H. Montgomery-Downs,et al.  Movement toward a novel activity monitoring device , 2012, Sleep and Breathing.

[13]  J. Solet,et al.  Measuring sleep: accuracy, sensitivity, and specificity of wrist actigraphy compared to polysomnography. , 2013, Sleep.

[14]  T. Sectish,et al.  Effects of the Accreditation Council for Graduate Medical Education Duty Hour Limits on Sleep, Work Hours, and Safety , 2008, Pediatrics.

[15]  H. Moldofsky,et al.  Patient safety, resident well-being and continuity of care with different resident duty schedules in the intensive care unit: a randomized trial , 2015, Canadian Medical Association Journal.

[16]  M. Irwin,et al.  Why sleep is important for health: a psychoneuroimmunology perspective. , 2015, Annual review of psychology.

[17]  M. Hirshkowitz,et al.  National Sleep Foundation's updated sleep duration recommendations: final report. , 2015, Sleep health.

[18]  A. Sadeh The role and validity of actigraphy in sleep medicine: an update. , 2011, Sleep medicine reviews.