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In The Name of Allah The Most Beneficent The Most Merciful
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ECE 4550:Biomedical Instrumentation
Lecture:Defibrillators
Engr. Ijlal HaiderUniversity of Lahore,
Lahore
NEED FOR A DEFIBRILLATORVentricular fibrillation is a serious cardiac emergency resulting from asynchronous contraction of the heart muscles.
Due to ventricular fibrillation, there is an irregular or rapid heart rhythm.
Fig. Ventricular fibrillation Fig. Normal heart beat
Ventricular fibrillation can be converted into a more efficient rhythm by applying a high energy shock to the heart.
This sudden surge across the heart causes all muscle fibres to contract simultaneously.
The instrument for administering the shock is called a DEFIBRILLATOR.
Possibly , the fibres may then respond to normal physiological pacemaking pulses.
NEED FOR A DEFIBRILLATOR
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TYPES OF DEFIBRILLATORS
Internal External
TYPES OF DEFIBRILLATORS
a) Internal defibrillator• Electrodes placed directly to the heart• Eg.-Pacemaker
b) External defibrillator • Electrodes placed directly on the heart• Eg.-AED
DEFIBRILLATOR ELECTRODES Types of Defibrillator electrodes:-
a) Spoon shaped electrode
• Applied directly to the heart.
b) Paddle type electrode
• Applied against the chest wall
c) Pad type electrode
• Applied directly on chest wall
DEFIBRILLATOR ELECTRODES
Fig.- Pad electrode
DEFIBRILLATOR ELECTRODES
DEFIBRILLATOR ELECTRODESElectrodes have insulated handlesDesigned to prevent the spread of jell from electrodes to handles for the safety and easeof operator
PRINCIPLE OF DEFIBRILLATION
Energy storage capacitor is charged at relatively slow rate from AC line.
Energy stored in capacitor is then delivered at a relatively rapid rate to chest of the patient.
Simple arrangement involve the discharge of capacitor energy through the patient’s own resistance.
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PRINCIPLE OF DEFIBRILLATION
PRINCIPLE OF DEFIBRILLATIONThe discharge resistance which the patient represents as purely ohmic resistance of 50 to 100Ω approximately for a typical electrode size of 80cm2.
This particular waveform Fig 13.9(b) is called ‘ Lown’ waveform.
The pulse width of this waveform is generally 5-10 ms.
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Peak current of 50 ATime 5 secResistance 50 ohmPower delivered = 320 J
To overcome losses across capacitor and inductor25% additional energy requiredEnergy to be stored is 400 JCapacitor of 16 micro faradVoltage required is 7000V
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For Internal electrodes only 50 J is needed
Classes of discharge waveform
Monophasic pulse or waveform Bi-phasic pulse or waveform
Classes of discharge waveformThere are two general classes of waveforms:
a) mono-phasic waveform
• Energy delivered in one direction through the patient’s heart
b) Biphasic waveform
• Energy delivered in both direction throuth the patient’s heart
Classes of discharge waveform
Fig:- Generation of bi-phasic waveform
Classes of discharge waveformThe biphasic waveform is preferred over monophasic waveform to defibrillate .why?????
• A monophasic type, give a high-energy shock, up to 360 to 400 joules due to which increased cardiac injury and in burns the chest around the shock pad sites.
• A biphasic type, give two sequential lower-energy shocks of 120 - 200 joules, with each shock moving in an opposite polarity between the pads.
Classes of discharge waveform
Dual Peak Waveform10 msec
Truncated WaveformTime can be adjusted
AUTOMATIC EXTERNAL DEFIBRILLATOR
AEDs require self-adhesive electrodes instead of hand held paddles.
AED is a type of external defibrillation process.
AUTOMATIC EXTERNAL DEFIBRILLATOR AED is a portable electronic device that automatically diagnoses the ventricular fibrillation in a patient.
Automatic refers to the ability to autonomously analyse the patient's condition.
The AED uses voice prompts, lights and text messages to tell the rescuer what steps have to take next.
ELECTRODE PLACEMENT OF AED
Anterior electrode pad
Apex electrode pad
Fig. anterior –apex scheme of electrode placement
WORKING OF AED turned on or opened AED.
AED will instruct the user to:-
• Connect the electrodes (pads) to the patient.
• Avoid touching the patient to avoid false readings by the unit.
• The AED examine the electrical output from the heart and determine the patient is in a shockable rhythm or not.
•When charged, the device instructs the user to ensure no one is touching the victim and then to press a red button to deliver the shock.
•when device determined that shock is warranted, it will charge its internal capacitor in preparation to deliver the shock.
WORKING OF AED
Many AED units have an 'event memory' which store the ECG of the patient along with details of the time the unit was activated and the number and strength of any shocks delivered.
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Courtesy Texas Instruments
Testing DefibrillatorsA dummy load is connected across the defibrillator electrodesDischarge is observed50 ohm resistance is taken as human resistance connected in series with a low value resistor. Neon light is connectedwith low value resistor and lights when defibrillator is discharged
Testing DefibrillatorsSome defibrillators have built-in testsystem
If they do not have, it can be designedand mounted on the trolley
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•Current requirements normally range up to 20 A.•Voltage ranges from 1000V to 6000V•Time of discharge is kept from 5 to 10 msec•Current is dependent on the body (chest) resistance
•For reference visit:•http://www.resuscitationcentral.com/defibrillation/biphasic-waveform
/•And various other resources on internet
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Thank You!