chest x ray

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great presentation on X-rays.
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  Notes
 
 
Slide 1 : Chest & Abdominal X-ray Interpretation Lt Col NK Jain Gd Spl (Radiology) MH Jabalpur
Slide 2 : The Chest X-Ray
Slide 3 : Techniques - Projection P-A (relation of x-ray beam to patient)
Slide 4 : Techniques - Projection (continued) A-P Supine/Erect
Slide 5 : Techniques - Projection (continued) Lateral
Slide 6 : Techniques - Projection (continued) Lateral Decubitus
Slide 7 : Technical Factors Centering Penetration Inspiration
Slide 8 : Rotation
Slide 9 : Rotation (continued)
Slide 10 : Penetration
Slide 11 : Inspiration/Expiration
Slide 12 : Densities The big two densities are: (1) WHITE - Bone (2) BLACK - Air The others are: (3) DARK GREY- Fat (4) GREY- Soft tissue/water And if anything Man-made is on the film, it is: (5) BRIGHT WHITE - Man-made
Slide 13 : Systematic Approach Bony Framework Soft Tissues Lung Fields and Hila Diaphragm and Pleural Spaces Mediastinum and Heart Abdomen and Neck
Slide 14 : Systematic Approach Bony Fragments Ribs Sternum Spine Shoulder girdle Clavicles
Slide 15 : Systematic Approach Soft Tissues Breast shadows Supraclavicular areas Axillae Tissues along side of breasts
Slide 16 : Systematic Approach Lung Fields and Hila Hilum Pulmonary arteries Pulmonary veins Lungs Linear and fine nodular shadows of pulmonary vessels Blood vessels 40% obscured by other tissue
Slide 17 : Systematic Approach Diaphragm and Pleural Surfaces Diaphragm Dome-shaped Costophrenic angles Normal pleura is not visible Interlobar fissures
Slide 18 : Systematic Approach Mediastinum and Heart Heart size on PA Right side Inferior vena cava Right atrium Ascending aorta Superior vena cava
Slide 19 : Systematic Approach Mediastinum and Heart Left side Left ventricle Left atrium Pulmonary artery Aortic arch Subclavian artery and vein
Slide 20 : Heart Size:
Slide 21 : Heart Size of heart Size of individual chambers of heart Size of pulmonary vessels Evidence of stents, clips, wires and valves Outline of aorta and IVC and SVC
Slide 22 : Systematic Approach Abdomen and Neck Abdomen Gastric bubble Air under diaphragm Neck Soft tissue mass Air bronchogram
Slide 23 : Anatomy
Slide 24 : Lobes Right upper lobe:
Slide 25 : Lobes (continued) Right middle lobe:
Slide 26 : Lobes (continued) Right lower lobe:
Slide 27 : Lobes (continued) Left lower lobe:
Slide 28 : Lobes (continued) Left upper lobe with Lingula:
Slide 29 : Lobes (continued) Lingula:
Slide 30 : Lobes (continued) Left upper lobe - upper division:
Slide 31 : Pleura Layers: Visceral Parietal Angles: 1. Cardiophrenic 2. Costophrenic
Slide 32 :
Slide 33 : Hilum Made of: 1. Pulmonary Art.+Veins 2. The Bronchi Left Hilum higher (max 1-2.5 cm) Identical: size, shape, density
Slide 34 : Hilum
Slide 35 : The Normal Lateral Chest X-ray Lateral View: Oblique fissure Horizontal fissure Thoracic spine and retrocardiac space Retrosternal space
Slide 36 : Lateral CXR (continued)
Slide 37 : Lateral CXR (continued)
Slide 38 : Lateral CXR (continued)
Slide 39 : Identify the lesion ? localise the lesion ? describe the lesion ? give DD Never stop looking, carry on with your systematic approach!!
Slide 40 : Pathology
Slide 41 : The Silhouette Sign An intra-thoracic radio-opacity, if in anatomic contact with a border of heart or aorta, will obscure that border. An intra-thoracic lesion not anatomically contiguous with a border or a normal structure will not obliterate that border.
Slide 42 : Consolidation Lobar consolidation: Alveolar space filled with inflammatory exudate Interstitium and architecture remain intact The airway is patent Radiologically: A density corresponding to a segment or lobe Airbronchogram, and No significant loss of lung volume
Slide 43 : Atelectasis Loss of air Obstructive atelectasis: No ventilation to the lobe beyond obstruction Radiologically: Density corresponding to a segment or lobe Significant loss of volume Compensatory hyperinflation of normal lungs
Slide 44 : Practice Time
Slide 45 :
Slide 46 : Right Middle and Left Upper Lobe Pneumonia
Slide 47 :
Slide 48 : Pseudotumor: fluid has filled the minor fissure creating a density that resembles a tumor. Also seen is right pleural effusion
Slide 49 :
Slide 50 : CHF: accentuated interstitial markings, Kerly lines, and an enlarged heart. Normally indistinct upper lobe vessels are prominent but are also masked by interstitial edema.
Slide 51 :
Slide 52 : Chest wall lesion: arising off the chest wall and not the lung
Slide 53 :
Slide 54 : Pleural effusion: Note loss of left hemidiaphragm. Fluid drained via thoracentesis
Slide 55 :
Slide 56 : Lung Mass
Slide 57 :
Slide 58 : Small Pneumothorax: LUL
Slide 59 :
Slide 60 : Metastatic Lung Cancer: multiple nodules seen
Slide 61 :
Slide 62 : Perihilar mass: Hodgkin’s disease
Slide 63 :
Slide 64 : Widened Mediastinum: Aortic Dissection
Slide 65 :
Slide 66 : Pulmonary artery stenosis with cardiomegally likely secondary to stenosis.
Slide 67 : RUL Pneumonia
Slide 68 : ?
Slide 69 : Pneumothorax
Slide 70 : RUL collapse
Slide 71 : Air under the diaphragm
Slide 72 : Emphysema
Slide 73 : Cavitating lesion
Slide 74 : Hiatus hernia
Slide 75 : Miliary shadowing
Slide 76 : Chest Tube, NG Tube, Pulm. artery cath
Slide 77 : Abdominal Xrays
Slide 78 : The Abdominal X ray Not used in clinical diagnosis regularly An AXR uses 50x the radiation of a plain CXR Can be plain or contrast study Indications include: Suspected bowel obstruction Foreign body Stones in the renal tract To check position of stents etc .
Slide 79 : Position of Patient Supine (lying on their back) with the plate (film) underneath them – x rays from front to back Unless otherwise labelled, the film will probably be supine Erect – may be useful if looking for fluid levels Decubitus – taken with the patient in the lateral position – may be useful to detect intraperitoneal gas Prone - patient lying on their front - occasionally used in IVUs
Slide 80 : Interpreting the AXR Step by Step
Slide 81 : Part 1 – Patient Details Name of patient Age Date of birth Date the radiograph was taken/time Brief info about patient
Slide 82 : Part 2- Technical Details Type –AP/PA - supine/erect/L.decubitus/prone Orientation of film Penetration Rotation Adequate view
Slide 83 : Part 3 – Intraluminal gas Stomach Small intestine (n= 2.5 cm) Colon (n= 5 cm) Caecum (n= 9 cm) Rectum (sometimes visible)
Slide 84 : Clinical Findings- Obstruction
Slide 85 :
Slide 86 : “ ERECT Note the multiple fluid levels
Slide 87 : Part 4 – Extraluminal gas Gas under diaphragm Gas present in the peritoneum - perforation
Slide 88 : Gas under diaphragm Gas under diaphragm
Slide 89 : Perforation Pneumoperitoneum – Supine AXR
Slide 90 : Part 5 – soft tissue structures Liver Spleen Pancreas Kidneys Ureters Bladder Psoas muscles
Slide 91 : Kidney Psoas T12 vertebra Sacrum Sacroiliac joints Descending colon faeces Gas in rectum
Slide 92 : Part 6 – Abnormal calcification Aorta Pancreas Cystic Duct Gall bladder Kidneys Ureter Bladder Urethra
Slide 93 : Bladder calculi
Slide 94 : Renal Stones
Slide 95 : Ureteric Calculus
Slide 96 : Pancreatic Calcification
Slide 97 : Gallstones
Slide 98 : Aorta Endovascular aortic aneurysm stent Walls of AAA
Slide 99 : Part 7 – Look at bone structure Fractures – vertebral bodies Metastases Changes in bone density Shape
Slide 100 : Fracture
Slide 101 : Bone pathologies
Slide 102 : Finally- Extra features Foreign objects ECG leads Tubes/stents Surgical clips – aid diagnosis Then summarise the findings and give possible diagnoses
Slide 103 :
Slide 104 : Summary – Presenting Patient Details - easy Technical Details Intraluminal Gas – dilated etc. Extraluminal Gas- preforation Soft tissue Structures- “-megaly” Abnormal Calcification - stones Bony Structures Any Extra Features - objects SUMMARY
Slide 105 : NORMAL Hepatomegaly
Slide 106 : Dilated Small Bowel
Slide 107 : Stag Horn Calculus
Slide 108 : Pneumobilia
Slide 109 : Toxic Megacolon
Slide 110 : Volvulus
Slide 111 : Pancreatic Calcification
Slide 112 : Gall Stones
Slide 113 : Small Bowel Obstruction
Slide 114 : Vesical Calculus
Slide 115 : Renal Calculi
Slide 116 : Thank You

 


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