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Advanced Cardiac Life Support

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Advanced Cardiac Life Support ACLS COURSE CPR Provider Manual 12/2003 Advanced Life Support in perspective Chain of survival: 1. Early access to emergency services [911]. – PowerPoint PPT presentation

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Title: Advanced Cardiac Life Support


1
Advanced Cardiac Life Support
  • ACLS COURSE
  • CPR Provider Manual
  • 12/2003

2
Advanced Life Support in perspective
  • Chain of survival
  • 1. Early access to emergency services 911.
  • 2. Early Basic life Support by hands only.
  • 3. Early defibrillation .
  • 4. Early Advanced Life Support.

3
Causes prevention of Cardio respiratory arrest
  • Definition A respiratory arrest is when
    breathing stops (apnea). A cardiac arrest is when
    the heart stops contracting pumping blood.
  • Causes
  • 1. Airway problems.
  • 2. Breathing problems.
  • 3. Cardiovascular problems.

4
Airway Obstruction
  • Complete airway obstruction will rapidly result
    in cardiac arrest.
  • Partial airway obstruction may lead to cerebral
    or pulmonary edema , hypoxic brain damage as well
    as cardiac arrest .
  • Causes of airway obstruction blood , vomitus ,
    F.B. , direct throat / face trauma , CNS
    depression , epiglottitis , epileptic fit ,
    bronchial secretions , mucosal edema ,
    laryngeospasm , bronchospasm .

5
Cardiac Abnormalities
  • Primary causes ventricular fibrillation
  • 1. Ischemia.
  • 2. M.I.
  • 3. Drugs digoxin , quinidine , phenothiazide ,
    tricyclic antidepressant.
  • 4. Alcohol abuse.
  • 5. Acidosis .
  • 6. Abnormal electrolytes conc.Ca, Mg K.

6
  • Secondary causes of cardiac abnormalities
  • 1.asphyxia.
  • 2. Apnea.
  • 3. Acute sever blood loss.
  • 4. Acute pulmonary edema.
  • 5. Suffocation.
  • 6. Hypoxemia , anemia , hypothermia ,
    end-stage septic shock are having longer heart
    effect.

7
  • Prevention
  • 1. History, examination investigation when
    needed.
  • 2. Breathing problems is pre cardio respiratory
    arrest clinical abnormalities.
  • 3. Hypotension , confusion , restlessness
    lethargy L.O.C. should be considered .
  • 4. Metabolic abnormalities particularly
    acidosis.
  • 5. Consider ICU admission in your plan.

8
Risks to The Rescuer
  • The rescuer should never place him self in danger
    while saving the patients life.
  • In case of poisonings organophosphates that is
    easily absorbed via the rescuer skin
    respiratory tract.
  • Infections HIV , HBV , Cutaneous TB shigellosis
    , salmonella , meningeococcal meningitis herpes
    simplex virus .

9
Management of The Airway
  • Basic techniques
  • 1. Head tilt respiratory tract in one
    straight line .
  • 2. Chin left.
  • 3. Jaw thrust take tongue with its base the
    only technique done in suspected cervical spine
    injury patient .
  • Types of airways
  • 1. Oral.
  • 2. Naso-pharyngeal clenched jaw or
    maxillofacial injuries .

10
Ventilation
  • Face mask 45 - 50 if more than 6 L/m .
  • Nasal Cannulae 30 - 35 on 3 L/m.
  • Ventorie 24 90 .
  • Non re-breathing mask 90 .
  • Laryngeal mask airway 100 .
  • Endo tracheal tube 100 .
  • Needle cricothyroidotomy full neck extension ,
    feel the cricoid prick 0.5 cm below it .

11
Cardiac Monitoring rhythm Recognition
  • Remember Treat the patient not the ECG.
  • A normal HR is defined as 60 100 b/m , a rate
    below 60 is known as bradycardia a rate of 100
    is known as tachycardia.
  • Rhythms causing cardiac arrest
  • 1. Supra-ventricular tachycardia above
    bundle of His bifurcation .
  • 2. Ventricular tachycardia distal to
    bifurcation.

12
  • Supra-ventricular tachycardia
  • 1. Atrial fibrillation absent P wave
    normal QRS complex.
  • 2.Atrial flutter there is P wave but saw
    tooth in appearance rate more than 200/m
    (250-300/m) with regular QRS complex.
  • 3.supra-ventricular tachycardia you might
    find P wave or not , because it might start from
    A/V node .

13
  • Ventricular tachycardia
  • 1.wide QRS complex.
  • 2. rare more than 100/m.
  • 3. may sustain for more than 30 seconds (take
    it seriously). But if it was for less than 30
    seconds it might be d.t. lytes imbalance or
    hypoxia.
  • Ventricular Fibrillation
  • 1. no pulse.
  • 2. ECG show absent QRS T wave replaced by
    cont., very rapid, bizarre, irregular appearance
    of apparently random frequency amplitude.

14
Drugs Their delivery
  • Priority in drug delivery
  • 1. central line 30 seconds.
  • 2. Peripheral line 5 minutes.
  • 3. E.T. Tube but we double or triple the IV
    dose.
  • 4. Intra Cardiac not used any more
  • a) technically difficult.
  • b) while doing the procedure CPR should
    stopped.
  • c) high rate of complications
    1.coronary laceration.
  • 2.intra mural injections.
  • 3.pneumothorax.

15
  • Adrenaline
  • 1/1000 1/10000 conc..
  • Atropine
  • parasympatholytic , block the
    vagal nerve affect SAN AVN.
  • Calcium
  • indication
  • 1. Pre-existing hyperkalemia
  • 2. Hypocalcaemia.
  • 3. Calcium Chunnel blocker toxicity.

16
  • NaHCO3
  • Toxicity
  • 1. Exacerbate intra cellular acidosis.
  • 2. - ve inotropic effect on ischemic
    myocardium.
  • 3. Increase Na load C.I. in brain edema.
  • 4. Shift Oxygen dissociation curve to the
    left.
  • Indications
  • 1. hyperkalemia.
  • 2. pre-existing metabolic acidosis (PHlt7.1).
  • 3. Tri-cyclic anti-depressant toxicity.

17
  • Mg
  • Indication
  • 1. Suspected hypomagnesaemia.
  • 2. Refractory V.F.
  • Adenosine
  • Indication
  • 1. Drug of choice for SVT.
  • 2. Slow A-V conduction .
  • 3. Half life 10 to 15 sec.
  • 4. Shouldn't be diluted push flush.

18
  • Verapamil
  • Indication
  • 1. Reduce AVN conductivity.
  • 2. Only can be used in definite SVT
  • 3. Dilute give slowly.
  • Amiodarone
  • 1. Increase duration of action potention in
    atrial ventricular myocardium, Q-T interval is
    prolonged .
  • 2. given via central cath. /wide pore
    cannulae.

19
  • 3. Should be diluted in G/W 50 cc to be
    given over 10 min.
  • Side Effects
  • 1. photo-sensitivity.
  • 2. hepatic pulmonary infiltrates.
  • 3. peripheral neuropathy .
  • 4. corneal micro-deposits.
  • 5. thyroid function disturbances.

20
  • Lignocaine
  • Indication
  • 1. ventricular tach. (metabolites in
    liver).
  • 2. dose 1 mg/kg loading then 2-4 mg/min
    drip.
  • Toxicity
  • 1. confusion.
  • 2. drowsiness.
  • B. blockers
  • 1. 2nd line of SVT treatment.
  • 2. Given carefully after Verapamil.

21
  • Vasopressin
  • Single dose of 40 units as alternation to
    adrenaline in Ventricular Fibrillation or pulse
    less ventricular tachycardia.

22
Defibrillation
  • We paralyze the heart, to let S. A. Node to start
    working again .
  • The delay in DC gtgtgtthe sever the arrhythmia gtgtgt
    less favorable prognosis less responsive to
    treatment.
  • Types
  • 1. Synchronized Cardio-version.
  • 2. A synchronized Cardio-version.

23
  • 1. Synchronized Cardio-version
  • if is used to convert Atrial or ventricular
    tach., it is important that the shock is
    synchronized to occur with the R wave of the ECG
    rather than with the T wave.
  • 2. A synchronized Cardio-version
  • it will shock at any ECG phase , it can cause
    ventricular fibrillation.
  • Mechanism of action
  • 1. Monophasic
  • receive single burst, 1 pad to another dont
    come back.

24
  • 2. Biphasic
  • less Jules (electric shock waves move from 1
    pad to the other then go in reverse direction).
  • Types of Biphasic Defibrillator
  • 1. Manual (which we are using).
  • 2. Shock Advisor (for non-expert people),with
    big electrodes they can read the rhythm then talk
    or write the order to be done.
  • 3. Automated External (you just connect it to
    the patient it will work calculate the
    electric wave by it self when to give it).

25
  • Position
  • 1. Right of the upper sternum below the
    clavicle
  • 2. left 5th inter-costal space ant.
    Axillary's line.
  • Technique
  • 1. apply pressure to the paddle 10kg to
    decrease thoracic impedance (the distance by pr.
    The fat).
  • 2. keep the defibrillator paddles at least 12.5
    cm from the pace maker if there is.
  • 3. Keep oxygen flow away from from paddle (not
    to kill the patient by burning instead of arrest)
  • 4. Dont remove the paddle until 3 DC shock
    performed.

26
Treatment of Algorithms
  • During CPR
  • If not already
  • 1. Check electrode/paddle position contact.
  • 2. Attempt/verify airway ,oxygen IV access.
  • 3. Give adrenaline every 3 minutes (cycle).
  • 4. Consider
  • a. Anti-arrhythmic.
  • b. Atropine.

27
  • Correct Reversible causes (4 Hs 4Ts)
  • 1. Hypoxia.
  • 2. Hypovolemia.
  • 3. Hypo/Hyperkalemia metabolic disorders.
  • 4. Hypothermia.
  • 5. Tension pneumothorax.
  • 6. Tamponade.
  • 7. Toxic/Therapeutic disturbances.
  • 8. Thrombo-embolic/mechanical obstruction.

28
Management of VF/pulse-less VT
  • In each CPR cycle we provide
  • 1mg adrenaline IV.
  • 3 DC shocks (200, 200, 360 joules).
  • 1 minute CPR.
  • Then after 1 min. CPR 3 DC shocks (each 360
    joules) 1 minute CPR adrenaline.

29
Algorithm for management of non VF/VT rhythms
  • In case of a systole there is no rule of DC shock
    unless fine VF.
  • 1mg adrenaline 3mg atropine.(USA)
  • 3mg atropine but 0.5mg every 3 min total of 3mg
    1mg adrenaline in each cycle.
  • Post DC shock heart can enter into a systole for
    15 sec. Then return to normal.

30
Cardiac Arrest in special Circumstances
  • Hypothermia.
  • Near drowning.
  • Pregnancy.
  • Poisoning.
  • Electrocution.
  • Anaphylaxis.
  • Acute severe asthma.

31
Hypothermia
  • Hypothermia exist when the body core temp. falls
    below 35C.
  • (AB) with high conc. Warm O2.
  • (C) palpate a major artery for a minimum of 1
    minute before concluding that there is no C.O.P.
  • As body temp. falls? sinus bradycardia? A.F. ?
    V.F.? finally a systole. When core temp lt 30C
    VF will not respond to cardioversion or drugs.
    Arrhythmias other than VF tend to revert
    spontaneously as the core temp rises in open
    heart surgery when we rise temp 33C the heart
    rate pick up systole sinus rhythm.
  • Rewarming
  • 1) Remove cold wet clothing ASAP cover with
    blankets.
  • 2) Warm bathes (40C).

32
  • Severe hypothermia (lt28C) maintain in ICU for 24
    hrs
  • 1) Ventilate with warm humidified O2.
  • 2) I.V. warm Fluids (40C).
  • 3) Gastric, peritoneal, or pleural lavage
    with warm fluids (_at_40C).
  • 4) Heated blankets.
  • 5) Blood rewarming by haemodialysis or
    cardiopulmonary bypass.
  • N.B
  • - U.O.P. increase with hypothermia
  • - Hypothermia promotes the transfer of fluid
    from the circulation into the tissues.
  • - Warm slowly (1 degree/30 minutes).

33
Near Drowning
  • Associated with hypothermia beadycardia.
  • Defined as asphyxiation in fluid (water).
  • Respiratory arrest 1ry event cardiac arrest is
    2ry event.
  • BLS ALS shouldnt be less than 45 min.
  • Placed horizontally head down ( to prevent
    aspiration regurgitation).
  • In 10 of cases no fluid is aspirated (dry
    drowning due to spasm).
  • Hospitalization is needed for
  • - Secondary pulmonary edema.
  • - ARDS (aspirated fluid).
  • Patient can be discharged after 6 hrs if
    clinically, ABG, CXR normal.

34
Pregnancy
  • Two people to resuscitate.
  • Causes of maternal cardiac arrest
  • - Hemorrhage.
  • - Pulmonary embolism.
  • - Amniotic fluid embolism.
  • - Placental abruption.
  • - Eclampcia.
  • After 5 minutes of unsuccessful in-hospital
    resuscitation, emergency C/S is indicated to save
    the fetus (in the 3rd trimester of pregnancy).

35
Poisoning
  • A.B.C. NO mouth to mouth breathing.
  • Increase risk of pulmonary edema, aspiration,
    early intubation is recommended in thermal injury
    airway burns.
  • Arrhythmias commonly results from the ingestion
    of drugs with negative inotropic action
    (treatment is with positive inotropic drugs i.e.
    adrenaline dobutamine).

36
  • Antidote
  • - Opiod X Naloxone 1.2mg
  • - Bradyarrhythmia X atropine 2mg or
    isoprenaline 10-100ug/min.
  • - B.blockers X glucagon 5mg IV.
  • - Organophosphate insecticides X high-dose
    atropine.
  • - Cyanides X dicobalt edetate.
  • - Digoxin toxicity X digoxin specific FAB.
  • Pass NGT lavage stomach from ingested toxins
    give activated charcoal.

37
Electrocution
  • The severity of injury depends on the area the
    magnitude the path of the current.
  • Electricity tends to pass along muscles, nerves
    vessels. It may therefore paralyze the
    respiratory muscles or disturb the myocardium,
    leading to respiratory or cardiac arrest (V.
    Fibrillation, immediate asystole, extra pace
    maker).
  • Electrocution is like a bullet goes in out, but
    if it remains in it will settle at the heart.
  • Those who have survived an electric shock should
    be monitored in hospital if they have suffered
    (L.O.C, cardiac arrest, ECG abnormalities,
    contact injury)

38
Anaphylaxis
  • Due to (insect bite, food, blood products
    drugs) ?IgE Anti bodies ? histamine release ?
    increase vascular permeability peripheral V.D.(
    decrease V.R. C.O.P.) ? sudden collapse
    death.
  • Anaphylactoid reaction (there is no IgE mediators
    no previous sensitization).
  • Resuscitation with
  • 1) 100 oxygen.
  • 2) Adrenaline (if stridor, wheeze or
    respiratory distress) 0.5cc 1/1000 I.M. repeat
    Q5 minutes if no clinical improvement is clear.
  • 3) CPR or ALS.
  • 4) Antihistamines.
  • 5) Hydrocortisone.
  • 6) IV Colloids.

39
Acute Severe Asthma
  • Normal or low PCO2.
  • Resuscitated with
  • 1) ABGs.
  • 2) Intubation.
  • 3) Exclude pneumothorax consider open
    cardiac message.
  • Resist arrhythmias in case of metabolic
    disorders.

40
Peri-arrest
  • Arrhythmias complications of M.I. in certain
    circumstances may also precede ventricular
    fibrillation, named
  • 1. Bradycardia.
  • 2. Broad complex tachycardia (90 ventricular
    in origin).
  • 3. Narrow complex tachycardia (90atrial in
    origin).
  • Principle of treatment
  • 1. How is the patient ?
  • 2. What is the arrhythmia ?
  • Three options available in the immediate
    treatment of arrhythmias
  • 1. Cardio-version.
  • 2. Anti-arrhythmic other drugs.
  • 3. Cardiac pacing.

41
  • Bradycardia
  • blood pressure lt 90 mmHg.
  • Broad complex tachycardia
  • 1) Pulse ? sedation ? synchronize DC shock
  • 2) Pulseless ? no C.O.P. ? VF/VT.
  • Narrow complex tachycardia
  • 1) AF gt 130 b/min? ask help? BP lt 90 mmHg?
    synchronized DC shock.
  • 2) Vagal maneuver ? adenosine? ask help? BP
    lt90 mmHg? synchronized DC shock.

42
Cardiac Pacing
  • SAN (60 - 70 beats/minute).
  • AVN (40 -50 beats/minute) narrow QRS.
  • His/Purkinje fibers (30 beats/minute) wide QRS.
  • N.B.
  • In open heart surgery the pace maker should
    be 100 beats/minute to over come SAN.

43
  • Artificial pacemakers classification
  • Non-invasive
  • Percussion pacing (decrease HR ? decrease COP).
  • Transcutaneous pacing (stickers).
  • Invasive
  • Temporary transvenous pacing (central line placed
    in Rt. ventricle).
  • Permanent implanted pacing (catheter with
    patery).
  • Implantable cardioverter defibrillators.

44
  • patient is stable
  • Thank you
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