1. ALS Algorithm

2. Learning outcomes This lecture should enable you to: Describe the ALS algorithm Recognise the importance of high quality chest compressions Discuss the treatment of shockable and non-shockable rhythms Define when to give drugs during cardiac arrest Identify the treatment of potentially reversible causes of cardiac arrest Discuss the roles within a resuscitation team

3. Resuscitation team roles planned in advance identify team leader importance of non-technical skills task management team working situational awareness decision making structured communication debrief after event

4. Adult ALS algorithm

5. To confirm cardiac arrest… patient response open airway check for normal breathing Caution agonal breathing No longer than 10 seconds check circulation At same time as checking breathing If doubt about pulse = not present monitoring

6. Cardiac arrest confirmed

8. Chest compression 30:2 compressions centre of chest one third total depth/ >5 cm rate 100-120 min -1 maintain high quality compressions with minimal interruptions (<5 s) continuous compressions once airway secured switch CPR provider every 2 min cycle to avoid fatigue

9. START CPR MINIMISE INTERRUPTIONS IN CHEST COMPRESSIONS

10. Shockable (VF) Shockable (VF) bizarre irregular waveform no recognisable QRS complexes random frequency and amplitude uncoordinated electrical activity coarse/fine exclude artefact movement electrical interference

11. Shockable (pulseless VT) Shockable (pulseless VT) monomorphic VT broad complex rhythm rapid rate constant QRS morphology if tolerating effective compressions - pulseless polymorphic VT may appear similar VF torsade de pointes

12. MINIMISE INTERRUPTIONS IN CHEST COMPRESSIONS IMMEDIATELY RESTART CPR

13. Manual Mode Defibrillator Operation learn in defibrillation station safety first – teamwork vital wording / exact language used is less important than communicating principles to ensure safety

14. Defibrillation energies vary with manufacturer - check local equipment default energy level for adults is set at 200 J for all shocks If first shock unsuccessful it is reasonable to increase to 360 J for following shocks energy levels for defibrillators on this course…

15. If VF/pVT persists CPR for 2 min During CPR Adrenaline 1 mg IV/IO CPR for 2 min During CPR Amiodarone 300 mg IV/IO Deliver 2 nd shock Deliver 3 rd shock 2 nd and subsequent shocks 200 – 360 J biphasic give adrenaline after 2 nd shock during CPR then every second loop give amiodarone after 3 shocks during CPR do not need to be sequential

16. START CPR MINIMISE INTERRUPTIONS IN CHEST COMPRESSIONS with charged defibrillator

17. Non-Shockable (Asystole) absent ventricular (QRS) activity atrial activity (P waves) may persist rarely a straight line trace adrenaline 1 mg IV then every second loop

18. Non-shockable (PEA) clinical features of cardiac arrest ECG normally associated with an output adrenaline 1 mg IV then every second loop

19. Vascular access peripheral versus central veins intraosseous

20. Airway and ventilation secure airway: supraglottic airway device (e.g. LMA, i-gel) tracheal tube do not attempt intubation unless trained and competent to do so once airway secured, if possible, do not interrupt chest compressions for ventilation avoid hyperventilation waveform capnography

21. Waveform capnography aids confirmation of correct tracheal tube placement monitor ventilation rate monitor quality of CPR identify ROSC prognostication during CPR

22. Hypokalaemia & metabolic disorders & Hyperthermia

23. Hypoxia seek evidence of Hypoxia history pre-arrest SpO 2 and other observations

24. Oxygen in Cardiopulmonary Arrest ensure patent airway give as much oxygen as possible No evidence in adults on best FiO 2 SpO 2 measurement dependent on perfusion consider advanced airway avoid hyperventilation

25. Hypovolaemia seek evidence of Hypovolaemia history examination -haemorrhage? -internal/external haemorrhage -check surgical drains other Hypovolaemia causes including sepsis anaphylaxis

26. Hypovolaemia control haemorrhage if Hypovolaemia suspected, give intravenous fluids/blood blood loss IV fluids and plan for emergency blood transfusion distributive shock IV fluids restriction to flow (e.g. Thrombus/Tamponade/Pneumothorax/Pregnancy) consider IV fluids with other therapeutic measures

27. Hypo/hyperkalaemia and metabolic disorders seek evidence examination near patient testing for K + and glucose history check latest laboratory results medical history drug chart fluid input/output chart

28. Potassium Disorders Hyperkalaemia calcium chloride calcium gluconate – if chloride unavailable IV/IO insulin (10 units - short acting) / dextrose (25g) IV fluids consider sodium bicarbonate Hypokalaemia/ hypomagnesaemia electrolyte supplementation KCL 5 mmol bolus and consider 2g Mg ++

29. Hypothermia rare if patient is an in-patient evidence touch patient and then take core temperature use low reading thermometer treat with active rewarming techniques avoid warm IV fluids in pre-hospital setting consider cardiopulmonary bypass /ECMO

30. Hyperthermia core temp >40.6 C consider cause: prolonged exercise in hot conditions/dehydration drug toxicity, MDMA, malignant hyperthermia, thyroid storm heat stroke can resemble septic shock rhabdomyolysis, coagulopathy issues

31. Hyperthermia Treatment rapid cooling to 39 C (similar techniques to TTM) large fluid volumes – & correct electrolyte abnormalities/acidosis no specific medications for heat stroke effective – dantrolene for anaesthetic agent reactions (and some MDMA)

32. Tension pneumothorax seek evidence history particular considerations in thoracic trauma/procedural and asthma patients check tube position if intubated examination/clinical signs difficult to ventilate possible – back pressure unilateral chest rise/fall decreased breath sounds hyper-resonant percussion note tracheal deviation

33. initial treatment needle decompression, or thoracostomy (if ventilated or expertise available) needle 2 nd intercostal space – mid clavicular line follow up with chest drain

34. Tamponade, cardiac seek evidence history chest trauma - penetrating or blunt post cardiac surgery procedural – e.g. PCI/CVC lines, pacing wire insertion (inc. PPM) examination difficult to diagnose without echocardiography

35. Tamponade, cardiac treat with needle pericardiocentesis or resuscitative thoracotomy skilled techniques for competent operators

36. Thrombosis seek evidence history examination ultrasound may help

37. Thrombosis if high clinical probability for PE consider fibrinolytic therapy percuteanous intervention coronary pulmonary if fibrinolytic therapy given – minimum of 30 minutes CPR – consideration for continuing CPR for up to 60-90 minutes

38. Toxins seek evidence History review medication charts rare unless evidence of deliberate overdose recreational drugs complicated by purity / polypharmacy examination difficult

39. Toxins specific antidotes evidence during arrest poor

40. Other considerations during CPR ultrasound mechanical chest compression devices if prolonged CPR facilitate transport facilitate safe angiography/radiological intervention extracorporeal CPR

41. Ultrasound in skilled hands may identify reversible causes obtain images during safely do not interrupt CPR

42. Post Resuscitation Care Re-evaluate ABCDE 12 lead ECG Treat precipitating causes Aim for: SpO2 94-98%, normocapnia and normoglygaemia Targeted temperature management

43. Any questions?

44. Summary the ALS algorithm importance of high quality chest compressions potentially reversible causes of cardiac arrest role of resuscitation team

45. Advanced Life Support Course Slide set All rights reserved © Australian Resuscitation Council (January 2016)