Chest Radiology- A Case of Azygous Lobe

By Dr Deepu
The lungs are normally divided into five lobes by three main fissures .
 Occasionally, invaginations of the visceral pleura create accessory fissures that separate individual bronchopulmonary segments into accessory lobes .
 An azygos lobe is found in approximately 0.4% of patients . In contrast to other accessory lobes, the azygos lobe does not correspond to a distinct anatomical bronchopulmonary segment .

It forms during embryogenesis when the precursor of the azygos vein fails to migrate to its medial position in the mediastinum, where it normally arches over the origin of the right upper lobe bronchus.
 This gives rise to the following characteristics, which are visible on a standard chest x-ray

: the laterally displaced azygos vein lies between folds of parietal pleura, also referred to as the mesoazygos, where it assumes a characteristic teardrop shape ; the mesoazygos indents the right upper lobe, thereby creating the accessory (azygos) fissure, which is similar in shape to an inverted comma; the fissure delineates the azygos lobe, located superomedially ; laterally, the pleural folds of the mesoazygos separate before reaching the chest wall, resulting in a radiopaque triangular area ; and medially, the tracheobronchial angle appears empty .

 An azygos lobe may be confused with a pathological air space such as a bulla or abscess . In addition, the abnormally located azygos vein may be mistaken for a pulmonary nodule, while a consolidated azygos lobe may be confused with a mass . An understanding of the pathogenesis and characteristic x-ray features of the azygos lobe will enable an accurate diagnosis in most cases .
 If the x-ray findings are equivocal, computed tomography will be diagnostic .

Easy Way To Interpret Chest X Ray

   Chest X-Rays (CXR) are routine investigation in clinical practice and consequently it is important for medical students and clinician’s alike to know how to interpret them. There are many approaches to CXR interpretation, each trying to ensure that key abnormalities are identified and no area is overlooked.

Many people would be familiar with the ABC method to interpreting CXRs.

• Airways
• Breathing & Bones
• Circulation

This is a simple way of approaching CXR, and it works for many people, however some people still struggle using this approach. 

IMPROVE YOUR X RAY READING SKILLS, BUY A BOOK

DRSABCD is a familiar acronym for those who have undertaken First Aid/Basic Life Support courses. NowDRSABCDE can used as a simple, yet comprehensive, approach to CXR interpretation.

D – Details

Before you even begin interpreting a CXR you should have the correct details. This includes;

• Patient name, age / DOB, sex
• Type of film – PA or AP, erect or supine, correct L/R marker, inspiratory/expiratory series
• Date and time of study

R – RIPE (assessing the image quality)

Next up, how “ripe” is the image. That is, what is the technical quality of the film?

• Rotation – medial clavicle ends equidistant from spinous process
• Inspiration – 5-6 anterior ribs in MCL or 8-10 posterior ribs above diaphragm, poor inspiration?, hyperexpanded?
• Picture – straight vs oblique, entire lung fields, scapulae outside lung fields, angulation (ie ’tilt’ in vertical plane)
• Exposure (Penetration) – IV disc spaces, spinous processes to ~T4, L) hemidiaphragm visible through cardiac shadow.

S – Soft tissues and bones

In CXR interpretation it is common to leave soft tissues until the end.

• Ribs, sternum, spine, clavicles – symmetry, fractures, dislocations, lytic lesions, density
• Soft tissues – looking for symmetry, swelling, loss of tissue planes, subcutaneous air, masses
• Breast shadows
• Calcification – great vessels, carotids

A – Airway & mediastinum

• Trachea – central or slightly to right lung as crosses aortic arch
• Paratracheal/mediastinal masses or adenopathy
• Carina & RMB/LMB
• Mediastinal width <8cm on PA film
• Aortic knob
• Hilum – T6-7 IV disc level, left hilum is usually higher (2cm) and squarer than the V-shaped right hilum.
• Check vessels, calcification.

B – Breathing

• Lung fields
  • Vascularity – to ~2cm of pleural surface (~3cm in apices), vessels in bases > apices
  • Pneumothorax – don’t forget apices
  • Lung field outlines – abnormal opacity/lucency, atelectasis, collapse, consolidation, bullae
  • Horizontal fissure on Right Lung
  • Pulmonary infiltrates – interstitial vs alveolar pattern
  • Coin lesions
  • Cavitary lesions
• Pleura
  • Pleural reflections
  • Pleural thickening

C – Circulation

• Heart position –⅔ to left, ⅓ to right
• Heart size – measure cardiothoracic ratio on PA film (normal <0.5)
• Heart borders – R) border is R) atrium, L) border is L) ventricle & atrium
• Heart shape
• Aortic stripe

D – Diaphragm

• Hemidiaphragm levels – Right Lung higher than Left Lung (~2.5cm / 1 intercostal space)
• Diaphragm shape/contour
• Cardiophrenic and costophrenic angles – clear and sharp
• Gastric bubble / colonic air
• Subdiaphragmatic air (pneumoperitoneum)

E – Extras

• ETT, CVP line, NG tube, PA catheters, ECG electrodes, PICC line, chest tube
• PPM, AIDC, metalwork