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Fatigue among Anesthesia Personnel

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Fatigue among Anesthesia Personnel Dr. Abdullah M. Kaki, MD, FRCPC, Department of Anesthesia & Critical Care, Faculty of Medicine, King Abdulaziz University – PowerPoint PPT presentation

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Title: Fatigue among Anesthesia Personnel


1
Fatigue among Anesthesia Personnel
  • Dr. Abdullah M. Kaki, MD, FRCPC,
  • Department of Anesthesia Critical Care, Faculty
    of Medicine,
  • King Abdulaziz University

2
Definition
  • Is the inability or unwillingness to continue
    effective performance and is caused by excessive
    workload, stress, sleep loss, and circadian
    disruption.

3
Fatigue
  • Achilles' heel of the medical profession.1

4
Once Upon A Time (On-call Duties)
  • Attend anesth all emergency cases in OR
  • Member of code blue team
  • Member of trauma team
  • Epidural provider to all pregnant ladies (LR)
  • Attend all meconium stained deliveries
  • Provide outside services (consultations,
    cardioversion,)
  • Preop visit for some consultants
  • Other wise you can sleep

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  • Health care is 24 / 7 service
  • Anesthesiologists deliver critical
    around-the-clock care to a variety of patients.
  • Fatigue is Physiological challenge
  • Circadian pattern
  • alertness and performance ? sleep.
  • Patient safety has taken center stage in health
    care

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8
  • In March 1984, Libby Zion, 18 yr old ? New York
    Hosp by parents with a high fever, dehydration,
    and chills ? admitted to medical ward.
  • She was never examined by an attending physician
    (intern and a junior resident), both up for 18
    hrs. She became increasingly delirious, placed in
    physical restraints. AM, she was dead.
  • Death has been attributed to the inexperience and
    fatigue of resident physicians who lacked the
    direct supervision of an attending physician.

9
Fatigue risks safety
  • Circadian factors were identified as contributing
    to the errors that resulted in the nuclear
    accident at Three Miles Island and Chernobyl.
  • Fatigue resulting from the workrest patterns of
    managers was an important component of the flawed
    decision-making that contributed to the space
    shuttle Challenger accident.

10
Fatigue risks safety
  • N. S.F. 12 drivers driven while drowsy /yr, 15
    nodded off while driving.
  • Fatigue ? 100,000 crashes/ yr ? 76,000 injuries
    1,550 fatalities.
  • Recently, fatigue is the cause in 1520 of all
    transportation accidents, gt ETOH drugs in RTA.

11
Intraop patient care requires
  • Cognitive demands data collection, evaluation of
    its relevance to pt status, development and
    implementation of plans to maintain desired pt
    status, monitoring the outcome of interventions,
    and prompt response to acute changes
  • Sleep providers can not have adequate sleep

12
Does fatigue impair performance?
  • Loss of sleep circadian disruption
  • ?reduced attentionvigilance, impaired memory and
    decision-making, prolonged reaction time, and
    disrupted communications.
  • ?increased risk for the occurrence of errors,
    critical incidents, and accidents.
  • Speed-accuracy trade-off effect.
  • Microsleeps

13
  • Denisco et al. on a simulated monitoring task
    subjects were asked to monitor and record time of
    significant deviation of clinical variables (HR,
    BP) ? lower vigilance scores in the group that
    had been on call.
  • Interpret ECG changes and to do simple
    mathematical calculations is compromised among
    sleep-deprived house officers.
  • Speed and quality of ETT was ? among ER doctors
    working night shift opp to their performance
    while working during day.

14
Fatigue effects on health
  • Several studies long-term exposure to shift ?
    independent risk factor for GI CVS diseases.
  • A recent study ? working night shift 60 gt risk
    for breast ca compared with ? never worked the
    late shift.
  • A meta-analysis (29 studies, 160,000 ? )
    evaluated physically demanding work, prolonged
    standing, long work hrs, and cumulative fatigue
    score. Positive assoc between that and preterm
    births, PIH, SGA.

15
  • Sleep restriction ? immunity, endocrine
    functions, cerebral metabolism.
  • A prospective study (1000,000 persons with
    cancer) reported ? daily sleep times lt 4 h were
    2.8 times more likely to have died within a
    6-year than ? had 7.07.9 h of sleep.

16
Sleep Factor
  • Microsleep
  • Brief, uncontrolled, and spontaneous episodes of
    physiologic sleep
  • last sec min, intermittent in onset, difficult
    to predict, individual underestimates level of
    sleepiness.
  • occur during low workload or when maximally
    sleepy.
  • Frequent and longer microsleeps increase the
    number of errors of omission.

17
Sleep Inertia
  • Period of reduced ability to function optimally
    immediately on awakening.
  • Impaired performance for 15- 30 min after
    awakening.
  • Common during early morning circadian trough (2
    to 5 am).
  • Awakened out of deep sleep to provide emergency
    care to pts (e.g., emergency C/S or emergency
    ETT).

18
  • The risk of LDP was greater at night (0000-800)
    among inexperienced practitioners.

19
Evaluation of physiologic sleepiness in
anesthesia residents
  • Using MSLT, evaluated physio daytime sleepiness
    of anesth residents under 3 different
    conditions
  • baseline (daytime shift, no on-call in the
    previous 48 hrs),
  • post-call (immediately after a 24-hr work ),
  • sleep extended residents allowed to arrive for
    work at 10 am for 4 consecutive days .
  • MSLT score of 6.7 5.3 min in baseline
  • 4.9 4.7 min in post-call, both scores
    revealing the nearly pathologic levels of daytime
    sleepiness (narcolepsy or sleep apnea).
  • baseline group slept an average of 7.1 1.5
    hrs / night, post-call 6.3 1.9 hrs
    sleep-extended, the subjects extended their
    sleep to an average of more than 9 hrs / night,
    and MSLT scores were in the normal range (12.0
    6.4 minutes).
  • Data indicate that under normal working
    conditions, residents studied were
    physiologically sleepy to nearly pathologic
    levels.

20
Risks to Patients and Healthcare Providers
  • In 2 studies of anesth ? 50 reported having
    committed an error in medical judgment due to
    fatigue. Cooper et al., using critical incident
    method of evaluating anesth errors, estimated
    that human error played a role in ? 80 of anesth
    mishaps fatigue in 6 of reported critical
    incidents.
  • In a survey of New Zealand anesthesiologists 86
    reported having committed a fatigue-related
    error.
  • Data from 5,600 reports of critical incidents to
    the Australian Incident Monitoring Study
    (1987-1997) fatigue was listed as a contributing
    factor in (3).

21
  • Needle stick injuries, Among residents and
    medical students, a 50 greater risk of
    sustaining a blood borne pathogen exposure during
    night work than during days.
  • Residents (Ped ER) suffer twice expected number
    of accidents, while driving home after being on
    call.
  • Retrospective study among anesthesia trainees, 8
    accidents were reported. protective circadian
    alerting effect during the drive home (810 am).

22
Effect on Mood
  • Pilcher and Huffcutt, a meta-analysis effects of
    sleep deprivation on performance (medical and
    nonmedical) (19/56 published studies, 1,932 total
    sample size).
  • Sleep-deprived subjects performed at a level 1.37
    lt rested subjects, ? impact was on mood and
    cognitive measures, with little change in motor
    performance.

23
Correction Strategies
  • Education During 7 yr of medical school and
    residency, little or no information regarding
    sleep, sleep disorders, and related topics.
  • Lacking this knowledge, physicians are unlikely
    to appreciate the need for change.
  • Alertness Strategies
  • planned naps NASA study (naps in the cockpit).
    40-min nap ? performance by 34 and physiologic
    alertness by 54 compared with a no-nap
    condition.

24
  • Caffeine use
  • widely used stimulant.
  • Pharmacologic onset of caffeine occurs 1530
    min after ingestion and lasts about 34 h.
  • Tolerance reduces its alerting effects. A
    significant performance and alertness boost (200
    mg of caffeine, 100-600 mg).
  • Good sleep habits
  • Light therapy
  • Noise
  • Temp

25
Better Scheduling
  • On call no more often than every 3rd night.
  • Prohibited from administering anesthesia on the
    day after in-house overnight call (free of duty
    for 24 hr).
  • Working ? 80 total hrs /week (Ideal 45-50 hr)
  • Avoid any surgery between 2 am and 5 am.

26
  • Modafinil or pimoline is non-amphetamine
    wakefulness agents.
  • Treat narcolepsy or OS apnea
  • Used by military, Not in medical field

27
Melatonin
  • Hormone by pineal gland with sleep-promoting
    effects
  • Used for jet lag and for shift work.
  • Doses of 0.380 mg.
  • It has circadian phase-shifting effects
  • Studies evaluating the efficacy of melatonin in
    shift workers have yielded mixed results.

28
Anesthesiologist Pilot
Responsibility 1-2 pt 10-800 passengers
Minimum Rest pre/ post-duty period 0 10 hr
Max flying time 24 hr 14 hr
Max duty / wk 40 - 80 hr 30 hr
On-call 3-4 days daily
29
Long term plan
  1. Implement education program regarding fatigue
    risks, physiologic factors, and effective
    countermeasures required for individuals
    throughout the healthcare system.
  2. Implementation of effective alertness strategies
    through education and appropriate institutional
    policies.
  3. Recommendations for workrest schedules in health
    care similar to those that have been promulgated
    in aviation.

30
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