CHEST X-RAY CARDIAC DISEASE.........pptx

CHEST X-RAY CARDIAC DISEASE

Normal heart The heart size is normal – cardiothoracic ratio is less than 50% The upper zone vessels are normal – they are smaller than the lower zone vessels The lungs are clear – indicating there is no pulmonary oedema The costophrenic angles are well defined ( asterisks ) – indicating there is no pleural effusion

Pericardial fat pad The heart size is normal in this image Accurate measurement of the cardiothoracic ratio can be difficult if there is a pericardial fat pad The width of a pericardial fat pad – which may have to be estimated – should not be included in the measurement of the cardiac size

Cardiomegaly - Mild Good quality Posterior-Anterior chest X-ray with no rotation In this image CTR = 53% There are no other signs of heart failure

Cardiomegaly History of hypertension and angina This patient has an enlarged heart CTR = 68%

Left atrial enlargement This image shows massive cardiomegaly (CTR=79%) in a patient with a metallic mitral valve replacement This image shows specific features indicating massive enlargement of the left atrium (highlighted area) 1 - Carina splayed to >90° 2 - Double right heart border 3 - Left atrial appendage bulging the left heart border

Upper zone vascular prominence Enlarged heart (CTR = 55%) The upper zone vessels are prominent – an indicator of increased pulmonary venous pressure Signs of pulmonary oedema have also developed – septal lines ( Kerley B lines) due to interstitial oedema , and airspace shadowing due to alveolar oedema The costophrenic angles are blunt due to bilateral pleural effusions

Septal lines - Example 1 Pulmonary oedema may manifest with evidence of interstitial oedema ( septal lines) or alveolar oedema (airspace shadowing/consolidation) Septal lines (also known as ‘ Kerley B lines’) appear as horizontal lines which make contact with the edge of the lung Airspace shadowing due to alveolar oedema is also visible )

Septal lines - Example 2 Septal lines represent thickening of the interlobular septa – interstitial tissue which separates the secondary lobules at the peripheries of the lungs Septal lines are a specific sign of interstitial oedema in the context of suspected left ventricular failure Occasionally septal lines are seen in conditions which cause blockage of the pulmonary lymphatics – such as lymphangitis carcinomatosa or sarcoidosis

Septal lines - Example 3 Septal lines may be very subtle but if present are a clear indicator of interstitial oedema Look carefully at the lung bases near the costophrenic angles whenever heart failure is suspected clinically Septal lines may be present with or without alveolar oedema

Alveolar oedema - Bat's wing pattern Alveolar oedema is caused by fluid leaking from the interstitial tissues into the alveoli and small airways, and manifests as airspace shadowing (consolidation) In the context of acute pulmonary oedema , alveolar oedema radiates symmetrically from the hilar regions in a ‘bat's wing’ distribution of airspace shadowing E nlarged heart (CTR 60%) and sternal wires and metallic heart valve Blunting of the costophrenic angles is due to pleural effusions

Asymmetric bat's wing shadowing Bat's wing pulmonary oedema may not be symmetrical Note the septal lines on the right (interstitial oedema ) and blunting of the costophrenic angles bilaterally (pleural effusions) The oxygen tubing and ECG buttons have not been removed – indicating the patient is acutely unwell

Pulmonary oedema Images which show pulmonary oedema are frequently of poor quality because the patient is too unwell to stand or hold their breath This is a common appearance of acute pulmonary oedema Remember that bilateral air space shadowing may also be caused by other disease processes such as infection – it is usually the clinical features that indicate the diagnosis

Non-cardiogenic pulmonary oedema This patient had pulmonary oedema secondary to nephrotic syndrome – albumin was very low Note that the heart size is normal (CTR <50%) If the heart size is normal, then heart disease may still be the cause of pulmonary oedema , but non-cardiogenic causes should also be considered The converse is also true – if the heart is enlarged, then the cause of pulmonary oedema is not always cardiac

Pleural effusions This patient with left ventricular failure has developed pleural effusions Note that the heart is enlarged and the upper zone vessels appear prominent – if these features are absent then other causes of pleural effusions become more likely

Asymmetric pleural effusions Pleural effusions caused by heart failure may not be symmetrical This patient with heart failure had been nursed lying on their right side before this X-ray was taken Fluid has accumulated in the right pleural space – the right costophrenic angle is not visible No effusion is present in the left pleural space – the left costophrenic angle remains visible The left heart border is not distinct because there is pulmonary oedema of the adjacent lung

Pericardial effusion This image shows some of the features of heart failure 1 - Upper zone vascular prominence 2 - Airspace shadowing (alveolar oedema ) 3 - Septal lines (interstitial oedema ) 4 - Pleural effusion The heart is also enlarged and has a globular (rounded) appearance due to a pericardial effusion (fluid accumulation within the pericardial sac)

Post-surgical pericardial effusion This patient has had recent cardiac surgery The heart is enlarged but there are no other signs of heart failure Whenever the heart appears globular, it could be due to a pericardial effusion – the diagnosis can be confirmed using ultrasound (echocardiogram)

Malignant pericardial effusion Pericardial effusions may not be due to heart disease This patient with metastatic disease (primary colon cancer) has an enlarged and globular-shaped heart due to a malignant pericardial effusion (fluid and cancerous cells within the pericardium) There are also numerous small lung nodules (pulmonary metastases) and bilateral pleural effusions (malignant effusions)

Left ventricular aneurysm Aneurysms of the left ventricle are an uncommon complication of previous myocardial infarction They may calcify and appear as a smooth eggshell-like line near the left heart border

Pericardial calcification Increased density – due to calcification of the pericardium – follows the contour of the heart Pericardial calcification is an uncommon feature seen on a chest X-ray which is associated with constrictive pericarditis – in this case caused by previous tuberculosis infection

Mitral valve calcification Calcification of the mitral valve is common in elderly patients – occasionally this is heavy enough to be seen on a chest X-ray Mitral valve calcification is often asymptomatic but may be associated with arrhythmias or mitral valve incompetence

Atrial septal defect The pulmonary artery is large relative to the aortic knuckle This combination is associated with increased pulmonary blood flow (left to right shunt) An atrial septal defect was confirmed on echocardiogram This adult patient had mild shortness of breath and a subtle systolic murmur

Patent ductus arteriosus The pulmonary artery is large relative to the aortic knuckle The features are very similar to those seen in the image above Echocardiogram showed that this patient had a patent ductus arteriosus (PDA) PDA is usually discovered in early childhood but can be asymptomatic until adulthood

Congenital heart disease - post-surgery This patient had undergone corrective surgery for tetralogy of Fallot (TOF) many years previously The X-ray can be considered ‘normal’ for this patient even though the pulmonary arteries are enlarged and there is also a right-sided aorta – a common associated anatomical variant in patients with TOF The appearances of a chest X-ray can be confusing following surgery for correction of congenital anomalies – reference to the surgical history is required

Pacemaker Cardiac pacemakers are a frequently encountered artifact seen on chest X-rays There are many different designs of pacemaker which may have one or two leads placed in the right heart chambers The pulse generator (battery pack) is usually implanted in the retro-pectoral space on the left side of the anterior chest wall

Pneumothorax following pacemaker insertion After pacemaker insertion a chest X-ray is used to check for a pneumothorax

Implantable cardioverter defibrillator Implantable cardioverter defibrillators (ICDs) have a similar appearance to pacemakers The ventricular lead has two thicker segments – these are the shocking electrodes which automatically defibrillate the heart if an arrhythmia is detected The proximal shocking electrode is located in the superior vena cava and left brachiocephalic vein The distal shocking electrode is located in the right ventricle

Cardiac surgery artifact Surgical artifacts such as sternotomy wires and metallic heart valves are common artifacts seen on chest X-rays This patient also has a single chamber pacemaker Note the signs of heart failure – large heart, prominent upper zone vessels and pulmonary oedema

CABG clips Patients who have had coronary artery bypass grafts (CABG) will often have visible metallic vascular clips seen on their post-operative chest X-ray These clips are placed to prevent flow through the branches of the internal mammary arteries which are used to form the coronary artery bypass

Prosthetic heart valves This patient had previously undergone mitral and aortic valve replacement surgery – see the metallic heart valve artifact New signs of heart failure are evident – large heart, prominent upper zone vessels, septal lines ( Kerley B lines), and pleural effusions

Coronary artery stent Coronary stents may be visible on chest X-rays

ECG buttons Following a 12 lead ECG (electrocardiogram) this patient’s ECG buttons remain stuck to the skin of the chest wall and were not noticed by the radiographer at the time of this chest X-ray If appropriate, artifacts should be removed from the chest wall prior to taking a chest X-ray Sometimes a patient is too unwell for these to be removed – as in many of the other images in this gallery

Other medical artifacts This X-ray was acquired to verify the position of the temporary pacing wire – the only internal artifact visible in this image Very sick patients frequently have a large number of lines, tubes and other artifacts projected over the chest X-ray It is often not appropriate for these to be removed prior to acquisition of a chest X-ray If you cannot identify an artifact on a chest X-ray then its identity can be checked by examining the patient or checking the notes

CHEST X-RAY CARDIAC DISEASE.........pptx

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