2. Introduction
According to recent statistics sudden cardiac arrest is
becoming one of the leading causes of death.
Once the heart ceases to function, a healthy human brain
may survive without oxygen for up to 4 minutes without
suffering any permanent damage.
Unfortunately, a typical EMS response may take 6, 8 or
even 10 minutes.
3. Introduction…
It is during those critical minutes that CPR (Cardio
Pulmonary Resuscitation) can provide oxygenated blood
to the victim's brain and the heart, dramatically increasing
his chance of survival. And if properly instructed, almost
anyone can learn and perform CPR.
4. Cardiopulmonary resuscitation (CPR) is an
emergency technique used when a person’s heart has
stopped beating and breathing has stopped.
It is a combination of rescue breathing and chest
compression delivered to victims thought to be in
cardiac arrest.
5. PURPOSE
To maintain the blood circulation (C).
To maintain an open and clear airway (A).
To maintain breathing by artificial ventilation (B).
To save life of the patient.
To provide basic life support till medical and
Advanced Life Support arrives.
To provide a flow of oxygenated blood to the brain
7. Contraindications
Do-not-resuscitate (DNR) order
A person’s desire to not be resuscitated in the
event of cardiac arrest.
If a clinician justifiably feels that the intervention
would be medically futile.
8. Cardiac Arrest
Cardiac arrest is a sudden stop in effective blood
circulation due to failure of the heart to contract
effectively or at all.
Also known as cardiopulmonary arrest or circulatory
arrest.
It is a medical emergency
10. CAUSES OF CARDIAC ARREST…
ELECTROLYTE IMBALANCE
Hyper kalemia
Hyper/hypo calcemia
PROCEDURES
PA catheterisation
Cardiac catheterisation
Surgery
OTHERS
Drug toxicity
13. What is BLS?
Maintenance of airway
Support of breathing & circulation
Without using equipment other than a simple airway
device or protective shield.
16. Adult Basic Life Support and CPR
Quality
Lay Rescuer CPR (Trained or untrained)
Health Care Provider BLS
(Rescuer – all, regardless of training, should provide
chest compression)
17. COMPONENTS OF BLS
1) Ensure safety
2) Recognition of cardiac arrest
3) Activation Emergency Response System
4) Chest compressions
5) Check airway and ventilate
20. ENSURE SAFETY
Safety Of Self
Safety Of client
Movement of a trauma victim – only when absolutely
necessary
[unstable cervical spine – injured spinal cord]
Make sure the environment is safe for rescuers and victim
21. Recognition of cardiac arrest
Check for responsiveness(Ask the person “are you all
right?”Tap and shout)
No breathing or only gasping (ie, no normal breathing)
No definite pulse felt within 10 seconds
(Breathing and pulse check can be performed
simultaneously in less than 10 seconds)
22. Activation Of Emergency Response
System
If you are alone with no mobile phone, leave the victim
to activate the emergency response system and get
the AED before beginning CPR
Otherwise, send someone and begin CPR immediately;
use the AED as soon as it is available
23. Compression ventilation
ratio without advanced airway
1 or 2 rescuers
30:2
Compression ventilation ratio with
advanced airway
Continuous compressions at a rate of 100-120/min
Give 1 breath every 6 seconds (10 breaths/min)
24. Compression rate: 100-120/min
Compression depth: At least 2 inches (5 cm), should be no
more than 2.4 inches (6 cm).
Hand placement: 2 hands on the lower half of the
breastbone (sternum)
Chest recoil: Allow full recoil of chest after each
compression; do not lean on the chest after each
compression
Minimizing interruptions: Limit interruptions in chest
compressions to less than 10 seconds
27. If pulse is not definitely felt within 10 seconds,
proceed with chest compressions
28. Must be supine on a firm flat surface for CPR to be
effective
Victim lying facing down – logroll the victim
Cervical spine stabilization
Use cervical collar if available
Any hard objects that restrict neck movement
29. Kneel beside victim’s chest or stand beside bed
Heel of one hand on inter-mammary line (which is the
lower half of the sternum)
Heel of other hand on top of the first so that the hands are
overlapped and
parallel
Lock elbows
32. Chest compression…
Victim should lie supine on a hard surface.
Place the heel of the hand on the sternum in the centre
(middle) of the chest between the nipples and then
place the heel of the second hand on top of the first so
that the hands are overlapped and parallel.
33. Chest compression…
The rescuer should compress the lower half of the
victim’s sternum in the centre (middle) of the chest,
between the nipples.
Depress the sternum approximately 2 to 2.4 inches.
Allow complete chest recoil.
35. How do they work?
Increase intrathoracic pressure and directly compress heart
Creates a SBP peaks of 60 – 80 mmHg
MAP in carotid artery < 40 mmHg
Deliver a small but critical amount of O2 and substrate to brain
& myocardium
Rescuer fatigue – Decreased rate , depth, incomplete recoil -
switch every 2 min
36. Characteristics Of Good Compression
“Push hard Push fast”: push at a rate of 100 -120
minute.
Compression depth- 2 inches (5cm)- 2.4 inches (6cm)
Release completely to allow the chest to fully recoil.
Minimize interruptions in chest compressions.
A compression-ventilation ratio of 30:2 is
recommended.
37. Characteristics Of Good Compression …
Perform 30 chest compressions at a rate of 100 to 120
compressions per minute.
Your shoulders should be located over the victim's
chest.
Your arms should be straight.
Use your body weight to perform chest compressions
38. Characteristics Of Good Compression…
Keep constant contact between the heel of your
compression hand and the skin of the victim's chest.
Do not rock back and forth as you do chest
compressions.
Do not bounce your hands up and down on the victim's
chest.
NEVER use the PALM of your hand,
use the HEEL of your hand.
39. CHEST COMPRESSIONS
When 2 or more rescuers available,
switch the compressor about every 2 minutes (or after 5 cycles of
compressions and ventilations at a ratio of 30:2).
Accomplish this switch in ≤5 seconds.
Advanced airway and 2 rescuers-
continuous chest compressions at a rate of 100 to 120/min without
pauses for ventilation.
The rescuer delivering ventilation provides 8 to 10 breaths per
minute.
Lay rescuers should continue CPR until an AED arrives
41. OPEN THE AIR WAY
Head tilt – chin lift
Used by lay rescuers and health care providers
Recommended if no evidence of spinal cord injury
43. Jaw thrust maneuver
Jaw thrust method
In trauma patients where we
suspect spinal cord injury
By trained rescuer only
45. Look in the mouth
Do a jaw lift and look in the mouth.
If you see food or a foreign
object ,follow up with a finger sweep
Never do a blind finger sweep.
You should be able to see an object in the mouth
before you perform a finger sweep
48. Check breathing
After the first set of chest compressions, the
airway is opened and the rescuer delivers 2
breaths.
49. How rescue breathing works ….
Rescue breaths contain 16% oxygen
Early arrest – O2 content of blood remains normal, O2
delivery to organs is limited more by reduced blood flow
( C.O.) than reduced O2.
Prolonged/Asphyxial arrest
- reduced O2 content also there
50. GIVING RESCUE BREATHS
Deliver each rescue breath over 1 second.
Give a sufficient tidal volume to produce visible chest rise
(500-600ml).
Avoid rapid or forceful breaths.
When an advanced airway is in place during 2-person
CPR, ventilate at a rate of 10 breaths per min.
52. Rescue breathing
During CPR , C.O. is 25 – 33% of normal so oxygen
uptake from the lungs and CO2 delivery to the lungs are
also reduced.
Tidal vol : 6-7 ml/kg = 500-600 ml [ 1-2 L bag]
Risk of:
-Reduced venous return to heart.
-Gastric inflation – regurgitation , aspiration, splinting of lung
by diaphragm.
55. Mouth-to-mouth rescue breathing
Open the victims air way
Pinch the victims nose and
create an airtight mouth to
mouth seal and give 1 breath
over 1 second by taking a
regular breath
If victims chest does not rise
do head tilt chin lift and give
2nd breath
56. Mouth-to-barrier device
Use barrier devices like face shields, masks etc
Mouth-to-Nose and Mouth-to-Stoma
Ventilation
If impossible to ventilate through victims mouth
If mouth cannot be opened
If mouth to mouth seal is difficult to achieve
57. VENTILLATION WITH BAG AND
MASK
Can provide ventilation with room air or
oxygen
Can provide positive pressure ventilation of
sufficient tidal volume
May produce gastric inflation and its
complications
Use an adult (1 to 2 L) bag to deliver
approximately 600 ml tidal volume
58. Recovery position
The recovery position is used for unresponsive adult victims
who have normal breathing and effective circulation.
Designed to maintain a patent airway and reduce the risk of
airway obstruction and aspiration.
The victim is placed on his or her side with the lower arm in
front of the body. Adjust the top leg so that both the hip and
knee are bent at right angles. Gently tilt the head back to keep
the airway open
59. 1) Place the arm nearest to you out
at right angles to his body, elbow
bent with the hand palm uppermost
2) Bring the far arm across the
chest, and hold the back of the
hand against the victim’s cheek
nearest to you.
4)Keep the head tilted to keep
the airway open. Keep the face
downward to allow fluids to go
out
3)With your
other hand,
grasp the far leg
just above the
knee and pull it
up, keeping the
foot on the
ground.
60. COMPLICATIONS
Spinal cord Injury
Internal organ damage
Vomiting
Risk for aspiration
Gastric distension
Punctured lungs, lacerated liver, fractured ribs and
sternum--caused by chest compressions
Disease transmission, including Influenza, Staph infection,
and TB etc- due to inadequate or no protective mask.
61. CPR CONSIDERATIONS FOR OLDER
CLIENT
Assess for fractured sternum after CPR
Be certain the health care team implements the patient’s
desire for Do Not Resusitate or Do not intubate orders
Consider family presence
Keep in mind the effect of medications due to delayed
clearance & altered metabolic response
64. Conclusion
In the years since the publication of the 2005 AHA
Guidelines for CPR and ECC, many resuscitation systems
and communities have documented improved survival for
victims of cardiac arrest.
However, too few victims of cardiac arrest receive
bystander CPR.
We know that CPR quality must be high and that victims
require excellent post–cardiac arrest care by organized
teams with members who function well together.
Education and frequent refresher training are likely the
keys to improving resuscitation performance.