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Perioperative Management of Patients with Obstructive Sleep Apnea (OSA). Dr. Bertrand Lau Department of Anaesthesia Burnaby Hospital. Disclosures. No financial relationships or commercial interests relevant to the content of this talk. OSA Overview. Definition: ≥ 5 apneas/hypopneas per hr
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Perioperative Management of Patients with ObstructiveSleep Apnea (OSA) Dr. Bertrand Lau Department of Anaesthesia Burnaby Hospital
Disclosures • No financial relationships or commercial interests relevant to the content of this talk
OSA Overview • Definition: • ≥ 5 apneas/hypopneas per hr • Apnea hypopnea index (AHI): • Mild: 5 – 20 • Moderate: 21 – 40 • Severe: >40 • Prevalence • 4% of men, 2% of women • 24% of those older than 65
Why does OSA happen? • Because humans talk!
Sleep Disordered Breathing in OSA • Arousal events • Verifiable on EEG • Activates the pharyngeal muscles & • The sympathetic nervous system (SNS) ↓O2 Activate SNS Pharynx Closes Sleep Deepens Arousal SNS activity↓ Opens Pharynx ↑O2
Pathophysiology of OSA • Systemic & pulmonary hypertension • CVA • LVH → ischemia → arrhythmias → death • RVH → cor pulmonale • Negative pressure pulmonary edema • GERD • Social problems: Day time sleepiness, nocturnal social isolation
Perioperative Respiratory Problems • Anaesthetic: • Impaired respiratory mechanics due to GA • Worsened loss of pharyngeal muscle tone • Decreased respiratory drive due to anaesthetic and analgesic agents • Surgery: • Impaired respiratory mechanics from positioning • Splinting from pain • Direct airway trauma leading to edema
Other Perioperative Problems • Surgical stress response, pain, fluid shifts, respiratory complications etc., also lead to: • M.I. • CVA • CHF • Arrhythmias • Post-op delirium
Rate of Complications in TJA • Gupta, Parvizi et al. 2001 Mayo Clin Proc • Restrospective, case-control study • Total joint arthroplasties • N=202 • OSA vs. no OSA • Post-op complication rates: 39% vs. 18% • Serious complication rates: 24% vs. 9% • LOS: 6.8 vs. 5.1 days
Rate of Complications inElective Surgery • Chung et al., 2008 Anesthesiology • Complication rate: 27.4% vs. 12.3% • Most common problem: SpO2 ≤ 90% • Especially on 3rd night post-op
Respiratory Disasters • Failure to secure the airway at induction • Airway obstruction soon after extubation • Respiratory arrest after the administration of opioids and/or sedation
Case Presentation • 55 y.o. male for laparoscopic nephrectomy with: • Obesity, BMI 42 • Hypertension • Type 2 diabetes • Stable coronary artery disease • Heart attack 3 years ago, treated with PTCA • GERD • Possible Difficult Airway • Known untreated OSA by O/N oximetry
Intra-operative T 9/10 Thoracic epidural placed Awake fiberoptic intubation Larger than expected incision Extubated in OR uneventfully PACU Required 50 mcg Fentanyl iv in PACU Reasonable pain control with thoracic epidural using hydromorphone & bupivacaine infusion Required 6 L/min O2 by mask for SpO2 of 96% No desaturations or obstructions noted in PACU records Case Continued
Case Continued • Surgical Ward • Thoracic epidural at 7mL/h • Patient reports increasing pain at 2130h • Surgeon’s sc morphine orders followed • 10 mg sc morphine administered • No concerns noted on assessment at 2200h
Case Continued • 0010h Pt found to be: • Obtunded • RR 22, Room air SpO2 76% • Nurse gives 0.4 mg naloxone (Narcan) • Patient is responsive to voice • Anaesthetist on-call paged, arrives & applies nasal airway, mask O2 • Eventually reintubates and admits to ICU
Case Continued • ABG’s:
Case Continued • Patient found to have had NSTEMI • Treated for laryngeal edema & extubated next day • Echocardiogram showed good function • Patient declined further investigations as preop MIBI scan normal
Swiss Cheese Model of Incident Occurrence Critical incident
What can we do about it? • Pre surgical screening & risk stratification • Pre surgical optimization • Intraop anaesthetic & surgical techniques • PAR monitoring/screening • Proper patient disposition to an area with appropriate monitoring
Preop screening & risk stratification for OSA • STOPBANG Questionnaire • History & physical • O/N Polysomnography (PSG) • O/N Oximetry
Snoring Tired Observed apneas High Blood Pressure BMI > 35 Age >50 Neck Circ > 40 cm Gender - male STOP BANG questionnaire
SIM2PLE2 History • Sleepiness (Epworth Score) • Impotence • Menopause • Morning: • Headache • Confusion • Dry mouth or sore throat • Personality change • Learning impairment • Exudate (Night sweats) • EtOH or sedative use
Physical • Hard tissue craniofacial abnormalities • Retrognathia • Micrognathia • Brachycephaly • Soft-tissue enlargement: • Uvula • Tonsils • Tongue • Soft palate
Risk Stratification • History and Physical can rule out OSA • To risk stratify: • Overnight polysomnography (PSG) • Overnight oximetry
O/N Polysomnography • EEG • EOG, EMG • EKG • Airflow • Respiratory effort indicators • SpO2
Overnight Oximetry • Poor man’s PSG • Cannot rule out OSA • Tends to underestimate severity in those with moderate to severe OSA
Presurgical Optimization • Weight Loss • Cardiovascular disease risk modification • Blood pressure control • CHF management • Diabetes management • OSA therapy: • CPAP, BiPAP, dental appliances
Anaesthetic: Good: Regional Anaesthesia Local Anaesthesia NSAIDs Tylenol Bad: GA Deep sedation Long acting narcotics Neuraxial narcotics Basal PCA rates Surgical Good: Superficial Head up positioning Bad: Major cavitary Airway surgery Trendelenberg Anaesthetic & Surgical Techniques
Avoiding Airway Obstruction Post Extubation • Obtain Information: • OSA risk • Method and ease of intubation • Safe Extubation: • Awake • Upright • Verified full reversal of NMB • Extubate on 100% O2 • Preparation for reintubation • Immediate reinstitution of CPAP
PAR Care • Same principles listed apply: • Use CPAP if available • Avoid sedatives • Minimize narcotic use • Consider NSAIDs, Tylenol • Ask for local anaesthetic based techniques • Close monitoring & screening
PAR Monitoring/Screening • ASA OSA Guidelines: “Patients with OSA should be monitored for a median of three hours longer than their OSA counterparts before discharge from the facility.” “Monitoring patients with OSA should continue for a median of seven hours after the last episode of airway obstruction or hypoxemia while breathing room air in an unstimulating environment.”
Proposed FHA PAR Pathway • Min. 1 hr with continuous pulse oximetry • Upon meeting PAR discharge criteria: • Surgical daycare & home • Ward without OSA monitoring • Ward bed with OSA monitoring • ICU or SCCU with OSA cardio-respiratory monitoring
Surgical Daycare & Home • Drug requirements minimal • Apneas / Airway obstructions: none • SpO2 never < 88% • Therapy compliant preoperatively (CPAP)
Ward without OSA Monitoring • Drug requirements minimal • Apneas / Airway obstructions: none • SpO2 never < 88% • Therapy compliant preoperatively (CPAP) • Mild or Moderate OSA
Ward with OSA monitoring • Drug requirements not minimal • Apneas / Airway obstructions: noted • SpO2< 88% • Therapy: • compliant preoperatively (CPAP); or • Non-compliant but only mild or moderate OSA
ICU or SCCU with cardio-respiratory monitoring • Drug requirements not minimal • Apneas / Airway obstructions: noted • SpO2< 88% • Therapy non-compliant preoperatively and severe OSA
A Changing & Challenging Field • Relative lack of appreciation of OSA • Lack of PSG availability • Risk stratification still under development • Stretched post-op care resources & production pressure
Key points • OSA is common & it is bad perioperatively • We won’t identify all of those who have it & we are even worse at classifying severity • Need to be vigilant: • Extubate properly • Monitor for apneas, obstructions, desats • Watch narcotic & sedative use • Consider alternate post-op disposition & pain management techniques