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Thoracic Radiology. Wendy Blount, DVM Lufkin TX. Thoracic Rads - Normal. Review of thoracic radiographs – 8 Steps Skeletal - Spine , front limbs, ribs, sternum Cranial abdomen Airways, Lung fields Mediastinum Great vessels - Aorta , pulmonary arteries, cranial & caudal vena cava
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Thoracic Radiology Wendy Blount, DVM Lufkin TX
Thoracic Rads - Normal Review of thoracic radiographs – 8 Steps • Skeletal - Spine, front limbs, ribs, sternum • Cranial abdomen • Airways, Lung fields • Mediastinum • Great vessels - Aorta, pulmonary arteries, cranial & caudal vena cava • Smaller vessels - Internal thoracic arteries, pulmonary lobar a & v, brachiocephalic trunk, left subclavian artery • Cardiac silhouette -Vertebral heart score, bulges • Left Heart Failure? Right Heart Failure?
Yorkshire Terrier
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Comparing heart size to lung field size doesn’t work • Dogs of different conformation have different ratios of heart size to lung size
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Comparing heart size to lung field size doesn’t work • Dogs of different conformation have different ratios of heart size to lung size
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Comparing heart size to lung field size doesn’t work • Dogs of different conformation have different ratios of heart size to lung size
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Comparing heart size to lung field size doesn’t work • Dogs of different conformation have different ratios of heart size to lung size • Lung field size changes with the breathing cycle • Abdominal fat pushes the diaphragm cranially • Thoracic fat makes lung fields appear smaller • Comparing heart size to vertebral size works better • Vertebral heart score
Thoracic Rads - Normal Positioning Tips • Lateral Views • Center on the caudal edge of the scapula • Include thoracic inlet to the caudodorsal tips of the lungs
Thoracic Rads - Normal Positioning Tips • Lateral Views • Center on the caudal edge of the scapula • Include thoracic inlet to the caudodorsal tips of the lungs • Pull front legs forward to evaluate cranial lung lobes • Try to superimpose the paired ribs, by symmetrical alignment of the front limbs • Try to click on peak inspiration
Thoracic Rads - Normal Positioning Tips • Lateral Views • Center on the caudal edge of the scapula • Include thoracic inlet to the caudodorsal tips of the lungs • Pull front legs forward to evaluate cranial lung lobes • Try to superimpose the paired ribs, by symmetrical alignment of the front limbs • Try to click on peak inspiration
Thoracic Rads - Normal Positioning Tips • VD or DV Views • Legs usually pulled over the head for VD, and always pulled forward for DV • Can pull legs back for “humanoid view” to better see the cranial mediastinum and lung lobes
Thoracic Rads - Normal Positioning Tips • VD or DV Views • Legs usually pulled over the head for VD, and always pulled forward for DV • Can pull legs back for “humanoid view” to better see the cranial mediastinum and lung lobes • Include thoracic inlet to the caudal tips of the lungs • Spine superimposed on the sternum • Tear drop shaped dorsal spinous processes
Thoracic Rads - Normal Positioning Tips • VD or DV Views • Legs usually pulled over the head for VD, and always pulled forward for DV • Can pull legs back for “humanoid view” to better see the cranial mediastinum and lung lobes • Include thoracic inlet to the caudal tips of the lungs • Spine superimposed on the sternum • Tear drop shaped dorsal spinous processes
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger • Pericardial fat • Pericardial effusion • Peritoneopericardial diaphragmatic hernia
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger • Pericardial fat • Pericardial effusion • Peritoneopericardial diaphragmatic hernia
Thoracic Rads - Normal Why is it so difficult to evaluate cardiac and chamber size on radiographs? • Things can make the heart look bigger • Pericardial fat • Pericardial effusion • Peritoneopericardial diaphragmatic hernia • Oblique positioning on VD/DV can make right heart look bigger • MYTH - “increased sternal contact” means right heart enlargement
Thoracic Rads - Normal Normal cats change with age • Long axis of the heart is more horizontal in old cats (40%) • Aortic bulge develops (30%) • Not due to hypertension or hyperthyroidism • At the aortic isthmus • Cardiac echo measurements in young & old cats are the same, despite these conformational changes in the thorax
Thoracic Rads - Normal Vertebral Heart Score 5.0 + 4.8 = 9.8
Thoracic Rads - Normal Vertebral Heart Score • Measure heart long axis • carina to the apex • Measure heart short axis • Widest point perpendicular to length • Count vertebrae from cranial aspect T4 • Add together • Dogs – normal 8.5-10.5 (breed variation) • Cats – normal 7-8
Thoracic Rads - Normal Vertebral Heart Score • Measure heart long axis • carina to the apex • Measure heart short axis • Widest point perpendicular to length • Count vertebrae from cranial aspect T4 • Add together • Dogs – normal 8.5-10.5 (breed variation) • Cats – normal 7-8
Thoracic Rads - Normal Heart Chambers – VD/DV - Left LV - Left Ventricle AV - Aortic Valve (AoV) AA - Ascending Aorta DA - Descending Aorta
Thoracic Rads - Normal Heart Chambers – VD/DV - Left LV - Left Ventricle AV - Aortic Valve (AoV) AA - Ascending Aorta DA - Descending Aorta LA – Left Atrium
Thoracic Rads - Normal Heart Chambers – VD/DV - Left
Thoracic Rads - Normal Heart Chambers – VD/DV - Right PV RV - Right Ventricle PV - Pulmonic Valve MPA - Main Pulmonary Artery RPA - Right Pulmonary Artery LPA - Left Pulmonary Artery
Thoracic Rads - Normal Heart Chambers – VD/DV - Right
Thoracic Rads - Normal Heart Chambers – VD/DV – Clock Face • Aorta 12-1 o’clock • LV 3-6 o’clock
Thoracic Rads - Normal Heart Chambers – VD/DV – Clock Face • Aorta 12-1 o’clock • MPA 1-2 o’clock • LV 3-6 o’clock • RV 7-9 o’clock
Thoracic Rads - Normal Heart Chambers – VD/DV – Clock Face • Aorta 12-1 o’clock • MPA 1-2 o’clock • LV 3-6 o’clock • RV 7-9 o’clock • LA has to be really big to see on K9 VD
Thoracic Rads - Normal Heart Chambers – VD/DV – Clock Face • Aorta 12-1 o’clock • MPA 1-2 o’clock • LV 3-6 o’clock • RV 7-9 o’clock • LA has to be really big to see on K9 VD • RA 9-12 o’clock
Thoracic Rads - Normal Heart Chambers – Lateral – Left • LA – Left Atrium • MV – Mitral Valve • LV – Left Ventricle • AV – Aortic Valve (AoV) • SV – Sinus of Valsalva • AAo – Ascending Aorta • BCT – Brachiocephalic Trunk • LS – Left Subclavian a.
Thoracic Rads - Normal Heart Chambers – Lateral – Right • RA – Right Atrium • RAu – R Auricle • RV – Right Ventricle • MPA – Pulmonary a.
Thoracic Rads - Normal Heart Chambers – Lateral – Right • RA – Right Atrium • RAu – R Auricle • RV – Right Ventricle • MPA – Pulmonary a. • RVOT – RV Outflow • PV – Pulmonic Valve • RPA – R Pulmonary a. • LPA – L Pulmonary a.
Thoracic Rads - Normal Heart Chambers – Lateral – Clock Face • LA (caudal waist) – • 12-3 o’clock • LV - 2-6 o’clock
Thoracic Rads - Normal Heart Chambers – Lateral – Clock Face • LA (caudal waist) – • 12-3 o’clock • LV - 2-6 o’clock • RV - 6-9 o’clock • MPA – 10-11 o’clock – bulge at 1-2 o’clock