ECE 501 Introduction to BME ECE 501 Dr
ECE 501 Introduction to BME ECE 501 Dr. Hang
Part IV Bioinstrumentation Electrocardiogram ECE 501 Dr. Hang
Introduction • Physiology • Medicine • Instrumentation ECE 501 Dr. Hang
Medicine The Electrical Cycle ECE 501 Dr. Hang
Medicine The Electrocardiogram • The electrocardiogram (ECG) is a standardized way to measure and display the electrical activity of the heart. • Physicians can diagnose problems with the heart by analyzing its ECG and comparing it to the ECG of a healthy heart. ECE 501 Dr. Hang
Medicine ECG Waves ECE 501 Dr. Hang
Medicine ECG Intervals ECE 501 Dr. Hang
Medicine A-V Blocks Complete Hear Block • The cells in A-V node are dead and A-V node does not conduct action potential at all • Atria and ventricles beat independently • Ventricles are driven by abnormal pacemakers ECE 501 Dr. Hang
Medicine A-V Blocks First-degree Hear Block • The A-V node is diseased • The action potentials from atria can still reach ventricles • It is greatly delayed ECE 501 Dr. Hang
Medicine Heart Flutter Paroxysmal Tachycardia • An abnormal pacemaker in ventricle may discharge at a rapid rate • Ventricles depolarize irregularly at a high rate ECE 501 Dr. Hang
Medicine Heart Flutter Atrial Flutter • An abnormal pacemaker in atria may discharge at a rapid rate • Atria depolarize irregularly at a high rate ECE 501 Dr. Hang
Medicine Premature V- Contraction An accidental pacemaker within the ventricle causes an extra beat (extrasystole) ECE 501 Dr. Hang
Medicine Fibrillation Atrial Fibrillation Atria twitch irregularly ECE 501 Dr. Hang
Medicine Fibrillation Ventricular Fibrillation Ventricles twitch irregularly ECE 501 Dr. Hang
Medicine Ischemia • Deficient in blood supply due to coronary occlusion • Early stage: ST elevation • Late stage: ST elevation + TQ depression ECE 501 Dr. Hang
Instrumentation The Dipole Model • The electrical field generated by this dipole represents the electric activity of the heart at a specific instant • Cardiac vector M: dipole moment, having a magnitude of proportional to the amount of charge multiplied by the separation of the two charges • The magnitude and direction of M vary over time ECE 501 Dr. Hang
Instrumentation The Dipole Model • a 1, a 2: Lead vectors • va 1= M. a 1=|M|cosθ: ECG signal on lead a 1 ECE 501 Dr. Hang
Instrumentation The ECG Model • Electrodes are placed on points A and B • RAB: Resistance between A and B • RT 1, RT 2: Thoracic medium resistances • ΦAB: ECG voltage signal on lead AB ECE 501 Dr. Hang
Instrumentation ECG leads –Limb leads ECE 501 Dr. Hang
Instrumentation ECG leads – Augmented Limb leads a: a. VR b: a. VL c: a. VF d: Lead vectors ECE 501 Dr. Hang
Instrumentation ECG leads – Chest leads Wilson’s Central Terminal ECE 501 Dr. Hang
Instrumentation ECG leads – Chest leads Lead vector: Between the electrode and Wilson’s Central Terminal Electrode positions ECE 501 Lead vectors Dr. Hang
Instrumentation 12 - lead ECG • Simultaneous measurement from ü Three limb leads ü Three augmented limb leads ü Six chest leads • Process all data from 12 leads to obtain ECG waveform ECE 501 Dr. Hang
Instrumentation Block Diagram of an Electrocardiograph ECE 501 Dr. Hang
Instrumentation Protection Circuit Prevent high voltages from damage the electrocardiograph Voltage-limiting devices ECE 501 Current-voltage characteristics of Voltage-limiting devices Dr. Hang
Instrumentation Protection Circuit • Parallel silicon-diode voltage limiting circuit • Low voltage breakdown • Vb: 600 m. V ECE 501 Dr. Hang
Instrumentation Protection Circuit • Back-to-back silicon Zener-diode voltage limiting circuit • Moderate voltage breakdown • Vb: 2 to 20 V ECE 501 Dr. Hang
Instrumentation Protection Circuit • Gas-discharge tube (neon light) voltage limiting circuit • High voltage breakdown • Vb: 50 to 90 V ECE 501 Dr. Hang
Instrumentation Lead Selector • Determine which electrodes are necessary for a particular lead and to connect them to the remainder of the circuit • Controlled by the operator or by the microcomputer of the electrocardiograph ECE 501 Dr. Hang
Instrumentation Calibration A 1 -m. V calibration signal is momentarily introduced into the electrocardiograph for each channel that is recorded ECE 501 Dr. Hang
Instrumentation Preamplifier • Differential amplifier with high common-mode-rejection ratio (CMRR) • Analog filters ECE 501 Dr. Hang
Instrumentation Preamplifier ECE 501 Dr. Hang
Instrumentation Isolation Circuit • Contains a barrier to the passage of current from the power line • Transformer isolation amplifier • Optical isolator • Capacitively coupled isolation ampifier ECE 501 Dr. Hang
Instrumentation Isolation Circuit Transformer isolation amplifier ECE 501 Dr. Hang
Instrumentation Isolation Circuit Optical Isolator ECE 501 Dr. Hang
Instrumentation Isolation Circuit Capacitively coupled isolation amplifier ECE 501 Dr. Hang
Instrumentation Driven right leg circuit • Provides a reference point on the patient that normally is at ground potential • The connection is made to an electrode on the patient’s right leg ECE 501 Dr. Hang
Instrumentation Driven right leg circuit ECE 501 Dr. Hang
Instrumentation Driver amplifier • Amplify the ECG to a level at which it can appropriately record the signal on the recorder • Carry out the bandpass filtering ECE 501 Dr. Hang
Instrumentation Memory System • Store digital electrocardiograms from different leads • Store patient information ECE 501 Dr. Hang
Instrumentation Microcomputer • Control the overall operation • Perform a preliminary analysis to ECE 501 • determine heart rate • recognize some types of arrhythmia • calculate intervals Dr. Hang
Instrumentation Recorder-printer • Provide a hard copy of the recorded ECG signal • Print out patient information, results of the automatic analysis • Analog oscillograph-type recorder, thermal recorder, electrostatic recorder ECE 501 Dr. Hang
Instrumentation Inference in ECG Effect of voltage transient from other devices, such as cardiac defibrillation ECE 501 Dr. Hang
Instrumentation Inference in ECG 60 Hz power-line inference ECE 501 Dr. Hang
Instrumentation Inference in ECG Electromyographic(EMG) inference ECE 501 Dr. Hang
Instrumentation Inference in ECG Electromagnetic inference ECE 501 Twisting wires to minimize inference Dr. Hang
Instrumentation Inference in ECG A mechanism of electric-field pickup from the powerline ECE 501 Dr. Hang
Instrumentation Inference in ECG Another mechanism of electric-field pickup from the powerline ECE 501 Dr. Hang
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