Intraoperative Cardiac Arrest: Difference between revisions

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<ref>Fister N, Syed A, Tobias JD. Intraoperative Cardiac Arrest: Immediate Treatment and Diagnostic Evaluation. J Med Cases. 2021 Jan;12(1):18-22. doi: 10.14740/jmc3579. Epub 2020 Nov 18. PMID: 34434422; PMCID: PMC8383635.</ref>'''<u>Incidence of Perioperative Cardiac Arrest (CA):</u>'''
'''<u>Incidence of Perioperative Cardiac Arrest (CA)</u>'''<ref>Fister N, Syed A, Tobias JD. Intraoperative Cardiac Arrest: Immediate Treatment and Diagnostic Evaluation. J Med Cases. 2021 Jan;12(1):18-22. doi: 10.14740/jmc3579. Epub 2020 Nov 18. PMID: 34434422; PMCID: PMC8383635.</ref>'''<u>:</u>'''


Increase with higher ASA status
Increase with higher ASA status
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Children (<12 year old): 2x more likely to experience CA, infants (<1 year old): 10x, neonates (<1month old): 50x
Children (<12 year old): 2x more likely to experience CA, infants (<1 year old): 10x, neonates (<1month old): 50x
'''<u>Causes for Pediatric Perioperative Arrest:</u>'''
'''<u>Causes for Pediatric Perioperative Arrest:</u>'''<ref name=":0">Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.</ref>


<ref>Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.</ref>'''<u>Causes for Pediatric Perioperative Arrest:</u>'''
'''<u>Causes for Pediatric Perioperative Arrest:</u>'''<ref name=":0">Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.</ref>


* CIRCULATORY FAILURE:
* CIRCULATORY FAILURE:
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** Bradycardia or cardiovascular collapse:  - Traction, pressure, or insufflation involving the abdomen, eye, neck, or heart  - Undiagnosed cardiomyopathy
** Bradycardia or cardiovascular collapse:  - Traction, pressure, or insufflation involving the abdomen, eye, neck, or heart  - Undiagnosed cardiomyopathy
** Overdose  - Weight-based dosing of IV anesthetic on induction in a child with hypovolemia or compensated shock may lead to collapse
** Overdose  - Weight-based dosing of IV anesthetic on induction in a child with hypovolemia or compensated shock may lead to collapse
'''<u>Important Resuscitation Steps</u>'''<ref name=":0" />'''<u>:</u>'''


 
'''<u>Important Resuscitation Steps</u>'''<ref name=":0" />'''<u>:</u>'''
<ref>Source: Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.</ref>'''<u>Important Resuscitation Steps:</u>'''


# Inform team
# Inform team
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# Assign roles
# Assign roles


'''<u>Resuscitation Algorithm for Intraoperative Pulseless Arrest:</u>'''


Source: Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.
'''<u>Resuscitation Algorithm for Intraoperative Pulseless Arrest</u>'''<ref name=":0" />'''<u>:</u>'''
[[File:PALS Shaffner.jpg|thumb|Intraoperative Pulseless Arrest Resuscitation]]Important Notes:  
 
[[File:PALS Shaffner.jpg|thumb|Intraoperative Pulseless Arrest Resuscitation|left]]Important Notes:  
* Medication have not been shown to change outcome, more emphasis on effective compression.
* Medication have not been shown to change outcome, more emphasis on effective compression.
* Compression depth:
* Compression depth:
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* IO access is as effective as IV access and may be easier to obtain during circulatory collapse
* IO access is as effective as IV access and may be easier to obtain during circulatory collapse


[[File:Prone Chest Compression.jpg|thumb|Prone Chest Compression (Shaffner et al. 2013)]]
[[File:Prone Chest Compression.jpg|thumb|Prone Chest Compression (Shaffner et al. 2013)|left]]
'''<u>Methods of Measuring Effectiveness of CPR</u>'''
 


'''<u>Methods of Measuring Effectiveness of CPR</u>'''
'''<u>Methods of Measuring Effectiveness of CPR</u>'''
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Administering 100% oxygen
Administering 100% oxygen


Epinephrine:  
Epinephrine: 10 μg/kg/dose IM up to 0.5 mg/dose q 20 minutes or IV infusion
 
10 μg/kg/dose IM up to 0.5 mg/dose q 20 minutes or IV infusion


IVF (boluses of 20 mL/kg)
IVF (boluses of 20 mL/kg)
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'''<u>Critical Event Resources:</u>'''  
'''<u>Critical Event Resources:</u>'''  


PEDI CRISIS APP
[https://pedsanesthesia.org/pedi-crisis-app/ PEDI CRISIS 2.0]
 
Available on Apple Store and Google Play


https://pedsanesthesia.org/pedi-crisis-app/
[https://pubmed.ncbi.nlm.nih.gov/37788395/ Causes of Perioperative Cardiac Arrest: Mnemonic, Classification, Monitoring, and ActionsMeng L, Rasmussen M, Abcejo AS, Meng DM, Tong C, Liu H. Causes of Perioperative Cardiac Arrest: Mnemonic, Classification, Monitoring, and Actions. Anesthesia and analgesia 2024;138(6):1215-1232]


[https://pubmed.ncbi.nlm.nih.gov/24103233/ The effect of adherence to ACLS protocols on survival of event in the setting of in-hospital cardiac arrest. Resuscitation 2014;85(1):82-7]


[https://www.sciencedirect.com/science/article/abs/pii/S0735675720304447?via%3Dihub Esmolol in the management of pre-hospital refractory ventricular fibrillation: A systematic review and meta-analysis]


{{Stub Notice}}{{Stub Notice}}
[https://associationofanaesthetists-publications.onlinelibrary.wiley.com/doi/10.1111/anae.16251 Peri-operative cardiac arrest in children as reported to the 7th National Audit Project of the Royal College of Anaesthetists]

Latest revision as of 14:19, 5 June 2024

Incidence of Perioperative Cardiac Arrest (CA)[1]:

Increase with higher ASA status

Wake Up Safe Registry: 3.3 per 10,000 of arrest were anesthesia related. Aesthesia-related death was 0.36 per 10,000 anesthetics.

Pediatric Perioperative Cardiac Arrest (POCA) Registry: 1.4 +/- 0.45 per 10,000 were anesthesia related. Mortality rate: 26%

Children (<12 year old): 2x more likely to experience CA, infants (<1 year old): 10x, neonates (<1month old): 50x Causes for Pediatric Perioperative Arrest:[2]

Causes for Pediatric Perioperative Arrest:[2]

  • CIRCULATORY FAILURE:
    • Hypovolemia: Hemorrhage, inadequate/inappropriate volume resuscitation/transfusion (patients < 24 months may not respond to hypotension with increase HR)
    • Hyperkalemia: Succinylcholine, TRANSFUSION (pRBC >2 weeks, speed of transfusion), reperfusion, myopathy, or renal insufficiency
    • Dysrhythmia: LA toxicity, line placement (safer to use Ultrasound guided vs. landmark technique)
    • Anaphylaxis
    • Venous Air Embolism
    • Malignant Hyperthermia: very rare
  • RESPIRATORY FAILURE:
    • Airway Obstruction: - Laryngospasm: Upper respiratory infection increases risk - Bronchospasm
    • Inadequate ventilation and oxygenation: difficult airway, mucus plug, kinked ETT, inadvertent extubation
    • Disordered control of breathing: drug overdose, neuromuscular diseases, apnea
    • Aspiration
  • SUDDEN CARDIAC COLLAPSE
    • Bradycardia or cardiovascular collapse: - Traction, pressure, or insufflation involving the abdomen, eye, neck, or heart - Undiagnosed cardiomyopathy
    • Overdose - Weight-based dosing of IV anesthetic on induction in a child with hypovolemia or compensated shock may lead to collapse

Important Resuscitation Steps[2]:

Important Resuscitation Steps[2]:

  1. Inform team
  2. Stop surgical stimulation
  3. Stop anesthetics (volatiles & sedation infusion)  and vasodilatory meds
  4. 100% Oxygen
  5. Open fluids and Trendelenburg position
  6. Chest-compression
  7. Call for help
  8. Consider stopping potassium containing solutions (blood or hyperalimentation)
  9. Ask for ice to head
  10. Assign roles


Resuscitation Algorithm for Intraoperative Pulseless Arrest[2]:

Intraoperative Pulseless Arrest Resuscitation

Important Notes:

  • Medication have not been shown to change outcome, more emphasis on effective compression.
  • Compression depth:
    • For a child is at least ⅓ the depth of the chest size, or 5 cm
    • For infant: 4cm
  • Allow complete recoil, don’t lean on chest
  • Don’t interrupt compression
  • Intubate, follow ETCO2
  • 100 compressions : 8-10 ventilations per min
  • Avoid overinflation
  • Biphasic shock - First dose: 2-4J/kg - Second dose: 4J/kg - Third dose: 4-10J/kg
  • Epi dose: - 10 MICROg/kg IV/IO - 100 MICROg/kg ETT
  • PEA vs. VFib rhythm: PEA appears organized and pulseless
  • Call for ECMO if no ROSC after 6 mins
  • Ice to head
  • If prone, perform 2 mins CPR prone, evaluate EtCO2 then consider supine
  • IO access is as effective as IV access and may be easier to obtain during circulatory collapse
Prone Chest Compression (Shaffner et al. 2013)


Methods of Measuring Effectiveness of CPR

  • ETCO2 levels >10 mm Hg are associated with higher likelihood of ROSC
    • >30mmHg:  good
    • <10 mmHg: bad
  • Diastolic pressure on a-line (relaxation right atrial pressure):
    • >20 mmHg infants
    • >30 mmHg children
    • <15 mmHg - bad (in adults associated with no ROSC during CPR)
  • MVO2
    • <30% was associated with no ROSC


Post Resuscitation:

  • Avoid hypotension
  • Allow to be cool (avoid hyperthermia)
  • Avoid hypoglycemia
  • Avoid hyperventilation (unless herniating)


Special Considerations:

LARYNGOSPASM:

  • On induction, 100% FiO2, deepen anesthetics
  • IM  atropine 0.02 mg/kg (0.1 mg minimum dose) and
  • IM  succinylcholine 4 mg/kg (maximum dose 150 mg).
  • If the patient has IV or IO access, then a lower dose of succinylcholine should be used to break laryngospasm (0.3–1.0 mg/kg)
  • Of note, don’t need to aspirate before IM injection


VP SHUNT:

During chest compressions:

  • Without increased ICP:  one-third of the intrathoracic pressure generated may be transmitted to the ICP via the vertebral veins and CSF
  • With increased ICP much higher percentage of intrathoracic pressure during chest compressions is transmitted to ICP, significantly decreasing cerebral perfusion pressure.

Neurosurgeon should immediately tap the VP shunt to remove cerebrospinal fluid (CSF) and reduce ICP.


VENOUS AIR EMBOLUS:

Administering 100% inspired oxygen

Discontinuing nitrous oxide and inhaled drugs

Stopping air entry:

  • Flood field with fluid
  • Lower field to promote venous filling
  • Trap air in right atria (right side up)

Aspirating air from the central line

CPR and vasopressor administration may be needed


HYPERKALEMIA

The acute resuscitation to drive potassium into cells and reduce cardiotoxicity includes (Mnemonic: C-B-I-G)

Calcium CaCl2 20 mg/kg or Calcium Gluconate 60 mg/kg IV or IO

Bicarb: NaHCO3 1–2 mEq/kg IV or IO

Insulin/Glucose: D25 W 2 mL/kg and regular insulin 0.1 U/kg

Alkalosis Hyperventilation (can see immediate decrease in T waves)


LOCAL ANESTHETICS TOXICITY

Seizure: immediate treatment with benzodiazepine

Cardiac arrest: chest compressions should be started and Epi at low initial doses (1 μg/kg based on adult recommendations).

Antiarrhythmic drugs: amiodarone (avoid lidocaine and procainamide)

Intralipid:

1.5 mL/kg bolus of 20% intralipid over 1 minute

If HDS, infusion at 0.25 mL/kg/min for 10 minutes

If still unstable: additional 1.5 mL/kg bolus, then infusion rate at 0.5 mL/ kg/min

Max total dose 10 mL/kg of lipid emulsion over 30 minutes


ANAPHYLAXIS:

Remove the likely allergens

Administering 100% oxygen

Epinephrine: 10 μg/kg/dose IM up to 0.5 mg/dose q 20 minutes or IV infusion

IVF (boluses of 20 mL/kg)

Trendelenburg positioning

Histamine blockers, Albuterol and corticosteroids

Serum tryptase level is a useful indicator that mast cell degranulation occurred. The test for serum tryptase is time sensitive and needs to be obtained within 3 hours


Critical Event Resources:

PEDI CRISIS 2.0

Causes of Perioperative Cardiac Arrest: Mnemonic, Classification, Monitoring, and ActionsMeng L, Rasmussen M, Abcejo AS, Meng DM, Tong C, Liu H. Causes of Perioperative Cardiac Arrest: Mnemonic, Classification, Monitoring, and Actions. Anesthesia and analgesia 2024;138(6):1215-1232

The effect of adherence to ACLS protocols on survival of event in the setting of in-hospital cardiac arrest. Resuscitation 2014;85(1):82-7

Esmolol in the management of pre-hospital refractory ventricular fibrillation: A systematic review and meta-analysis

Peri-operative cardiac arrest in children as reported to the 7th National Audit Project of the Royal College of Anaesthetists

  1. Fister N, Syed A, Tobias JD. Intraoperative Cardiac Arrest: Immediate Treatment and Diagnostic Evaluation. J Med Cases. 2021 Jan;12(1):18-22. doi: 10.14740/jmc3579. Epub 2020 Nov 18. PMID: 34434422; PMCID: PMC8383635.
  2. 2.0 2.1 2.2 2.3 2.4 Shaffner DH, Heitmiller ES, Deshpande JK. Pediatric perioperative life support. Anesth Analg. 2013 Oct;117(4):960-979. doi: 10.1213/ANE.0b013e3182a1f3eb. Epub 2013 Sep 10. PMID: 24023023.