INVESTIGATION IN CARDIOVASCULAR DISEASE
Electrocardiography ECGIndications
Normal Impulse ConductionSinoatrial node AV node Bundle of His Bundle Branches Purkinje fibers
Impulse Conduction & the ECG
Sinoatrial node AV node Bundle of His Bundle Branches Purkinje fibersPacemakers of the Heart
SA Node - Dominant pacemaker with an intrinsic rate of 60 - 100 beats/minute. AV Node - Back-up pacemaker with an intrinsic rate of 40 - 60 beats/minute. Ventricular cells - Back-up pacemaker with an intrinsic rate of 20 - 45 bpm.The “PQRST” P wave - Atrial depolarization
T wave - Ventricular repolarization
QRS - Ventricular depolarizationThe standard 12–lead ECG The 12-lead ECG is generated from ten physical electrodes that are attached to the skin. One electrode is attached to each limb and six electrodes are attached to the chest
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The standard 12–lead ECG Three dipole limb leads (I ,II,III), three augmented voltage limb leads(avL,avR,avF) Six unipole chest leads(V1-V6).For more presentations www.medicalppt.blogspot.com
Exercise (stress) ECGExercise electrocardiography is used to detect myocardial ischaemia during physical stress and is helpful in the diagnosis of coronary artery disease. A 12-lead ECG is recorded during exercise on a treadmill or bicycle ergometer
Ambulatory ECG(Holter)
Continuous (ambulatory) ECG recordings can be obtained using a portable digital recorder. These devices usually provide limb lead ECG recordings only, and can record for between 1 and 7 days. Ambulatory ECG recording is principally used in the investigation of patients with suspected arrhythmia , such as those with intermittent palpitation, dizziness or syncopyChest X-ray
This is useful for determining the size and shape of the heart, and the state of the pulmonary blood vessels and lung fields. Most information is given by a posteroanterior (PA) projection taken in full inspirationChest X-Ray
Echocardiography (echo)Echocardiography, or cardiac ultrasound, is obtained by placing an ultrasound transducer on the chest wall to image the heart structures as a real-time, twodimensional ‘slic
Echocardiography (echo)
Transthoracic echo. Transoesophageal.For more presentations www.medicalppt.blogspot.com
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Doppler echocardiography This depends on the Doppler principle that sound waves reflected from moving objects, such as intracardiac red blood cells, undergo a frequency shift. The speed and direction of the red cells, and thus of blood, can be detected in the heart chambers and great vesselsFor more presentations www.medicalppt.blogspot.com
For more presentations www.medicalppt.blogspot.comTransoesophageal echocardiography endoscope-like ultrasound probe which is passed into the oesophagus under light sedation and positioned behind the LA. This produces high-resolution images.
Computed Tomographic Imaging
Useful for imaging the cardiac chambers, great vessels , pericardium, and mediastinal structures and masses And recently even the coronaries (CT coronary angiography).For more presentations www.medicalppt.blogspot.com
Magnetic resonance imagingMagnetic resonance imaging (MRI) requires no ionising radiation and can be used to generate cross-sectional images of the heart, lungs and mediastinal structures
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Cardiac catheterisationThis involves passage of a preshaped catheter via a vein or artery into the heart under X-ray guidance, which allows the measurement of pressure and oxygen saturation in the cardiac chambers and great vessels, and the performance of angiograms by injecting contrast media into a chamber or blood vessel