Interstial lung disease
Chronic diffuse interstitial restrictive lung disease
• Heterogenous group of diseases characterized by Inflammation & fibrosis of most peripheral interstitial connective tissue in the alveolar walls
• It concerns • alveolar epithelium,• pulmonary capillary endothelium,• basement membrane,• perivascular and perilymphatic tissues.
The interstitium of the lung is not normally visible radiographic- ally; it becomes visible only when disease (e.g., edema, fibrosis, tumor) increases its volume and attenuation.
The interstitial space is defined as continuum of loose connective tissue throughout the lung composed of three subdivisions:
(i) the bronchovascular (axial), surrounding the bronchi, arteries, and veins from the lung root to the level of the respiratory bronchiole(ii) the parenchymal (acinar), situated between the alveolar and capillary basement membranes
(iii) the subpleural, situated beneath the pleura, as well as in the interlobular septae.
The Lung Interstitium
• Interstitial lung disease may result in four patterns of abnormal opacity on chest radiographs and CT scans:
1. linear,
2. reticular,
3. nodular,
4. Reticulonodular • These patterns are more accurately and
specifically defined on CT
Patterns of Interstitial Lung Disease
Patterns of Interstitial Lung Disease
Linear Pattern
A linear pattern is seen when there is thickening of the interlobular septa, producing Kerley lines. Kerley B lines
Kerley A lines
The interlobular septa contain pulmonary veins and lymphatics.
The most common cause of interlobular septal thickening, producing Kerley A and B lines, is pulmonary edema, as a result of pulmonary venous hypertension and distension of the lymphatics.
Kerley B lines
Kerley A lines
DD of Kerly Lines:
1. Pulmonary edema is the most common cause
2. Mitral stenosis
3. Lymphangitic carcinomatosis
4. Malignant lymphoma
5. Congenital lymphangiectasia
6. Idiopathic pulmonary fibrosis
7. Pneumoconiosis
8. Sarcoidosis
b. Reticular Pattern
A reticular pattern results from the summation
or superimposition of irregular linear
opacities.
The term reticular is defined as meshed, or in
the form of a network. Reticular opacities can be
described as fine, medium, or coarse, as the
width of the opacities increases.
A classic reticular pattern is seen with pulmonary fibrosis,
in which multiple curvilinear opacities form small
cystic spaces along the pleural margins and lung
bases (honeycomb lung)
This 50-year-old man presented with end-stage lung fibrosisPA chest radiograph shows medium to coarse reticularB: CT scan shows multiple small cysts (honeycombing) involving predominantly the subpleural peripheral regions of lung. Traction bronchiectasis, another sign of end-stage lung fibrosis.
c. Nodular pattern
A nodular pattern consists of multiple round opacities, generally ranging in diameter from 1 mm to 1 cm
Nodular opacities may be described as miliary (1 to 2 mm, the size of millet seeds), small, medium, or large, as the diameter of the opacities increases
A nodular pattern, especially with predominant distribution, suggests a specific differential diagnosis
Disseminated histoplasmosis and nodular ILD.CT scan shows multiple bilateral round circumscribed pulmonary nodules.
Hematogenous metastases and nodular ILD. This 45-year-old woman presented with metastatic gastric carcinoma. The PA chest radiograph shows a diffuse pattern of nodules, 6 to 10 mm in diameter.
Differential diagnosis of a nodular pattern of interstitial lung disease
SHRIMPSarcoidosis
Histiocytosis (Langerhan cell histiocytosis)
Hypersensitivity pneumonitis
Rheumatoid nodules
Infection (mycobacterial, fungal, viral)
Metastases
Microlithiasis, alveolar
Pneumoconioses (silicosis, coal worker's, berylliosis)
d. Reticulonodular pattern results
A reticulonodular pattern results from a combination of reticular and nodular opacities.
This pattern is often difficult to distinguish from a purely reticular or nodular pattern, and in such a case a differential diagnosis should be developed based on the predominant pattern.
If there is no predominant pattern, causes of both nodular and reticular patterns should be considered.
K n o w n ca u seD ru g s
C o lla g en v a scu la r
Id io p a th ic P u lm o n a ry F ib ro s isC F A /IP F
U IP
A IPA c u te
In te rstit ia l P n e u m o n ia
D IPD e sq u a m a tiv e
In te rstit ia l P n e u m o n ia
R B IL DP e sp ira to ry B ro n c h io lit isIn te rstit ia l L u n g D ise a se
C O PC ry p to g e n ic
O rg a n is in g P n e u m o n ia
L IPL y m p h o c y tic
In te rstit ia l P n e u m o n ia
(N S IP )N o n sp e c if ic
In te rstit ia l P n e u m o n ia
O th e rs
Id io p a th icIn ter st it ia lP n eu m o n ia
G ra n u lo m a to u sS a rco id o s is
O th er sp ec if icL A M
H istio cyto s is
D iffu se p aren ch ym al lu n g d isease
Classification of interstitial / diffuse parenchymal lung disease
Idiopathic pulmonary fibrosis/usual interstitial pneumonia (IPF/UIP/CFA)
• Non-specific interstitial pneumonia (NSIP)• Desquamative interstitial pneumonia (DIP)• Respiratory bronchiolitis/interstitial lung disease (RB/ILD)• Acute interstitial pneumonia (AIP)• Lymphoid interstitial pneumonia (LIP)• Cryptogenic organising pneumonia (COP)Environmental and occupational diseases • Pneumoconiosis eg asbestosis, silicosis• Extrinsic allergic alveolitis (EAA), for example, bird fancier’s lung
Classification of interstitial / diffuse parenchymal lung disease
Multisystem diseases • Connective tissue diseases, for example, systemic sclerosis,• Sarcoidosis• Wegener’s granulomatosis• Tuberose sclerosis ,lymphangioleiomyomatosis (LAM)• Drug reactions, for example, amiodarone, methotrexate, bleomycinRare lung diseases • Pulmonary alveolar proteinosis• Pulmonary histiocytosis• Pulmonary eosinophilia• Idiopathic pulmonary haemosiderosis
Chronic diffuse interstitial lung diseases
• RESTRICTIVE (INFILTRATIVE)
• Dyspnea, tachypnea, end inspiratory crackles without airway obstruction.
• ↓ CO diffusing capacity, ↓lung volume. ↓compliance.
• Honey-comb lung
• Secondary pulmonary hypertention
• Corpulmonale
Chronic diffuse interstitial lung diseases
• Restrictive (infiltrative) • Reduced compliance, reduced gas exchange)• Are also diffuse• Heterogeneous main categories of CILD
1. FIBROSING
2. GRANULOMATOUS
3. EOSINOPHILIC
4. SMOKING RELATED
5. PAP (Pulmonary Alveolar Proteinosis)
1.FIBROSING
• Usual interstitial pneumonia-Idiopathic pulmonary fibrosis (UIP-IPF-CFA).
• Nonspecific interstitial pneumonia / fibrosis• Cryptogenic organizing pneumonia• Connective tissue (Collagen vascular) diseases• Pneumoconioses• Drug reactions• Radiation changes
IPF (UIP/CFA)• Cobblestone pleural surface by retraction
scar along interlobular septa.
• Lower lobe subpleural & interlobular septal fibrosis.
• Fibroblastic foci - honeycomb fibrosis
IPF (UIP/CFA)
NON-SPECIFIC INTERSTITIAL PNEUMONIA
– Fibroblastic foci & honey combing absent.
– Cellular infiltrate (lymphs & plasma cells)
Cryptogenic organizing pneumonia (cop)
• Idiopathic• “Bronchiolitis obliterans organizing peumonia” BOOP• Some alveolar spaces are filled by ball of fibroblast
(masson bodies) but alveolar walls are normal.• All lesion are of same age.• No intertstitial fibrosis or honeycomb lung.
Connective tissue “Collagen” vascular diseases
• Rheumatoid Arthritis• SLE (“Lupus”)• Progressive Systemic Sclerosis
(Scleroderma)
Pneumoconioses• Non-neoplastic lung reaction to inhalation of mineral dust
or chemicals or organic materials• “Occupational”-“Coal miners lung”• 1-5µm diameter particles can reach airsacs & settle in their
linning.– Coal (anthracosis)– Silica– Asbestos– Be, FeO, BaSo4, Tin oxide– HAY, FLAX, Benzene, Insecticides, etc.
Pneumoconioses• Coal workers peumoconiosis CWP• Asymtomatic anthracosis• Simple CWP• Complicated CWP or PMF• Silicosis• Hard collagenous scars in upper lobes of
lung• Eggshell calcification of lymphnodes
Pneumoconioses• Asbestos-related disease
• Localized fibrous plaque
• Pleural effusions
• Interstitial fibrosis
• Carcinoma lung
• Mesothelioma
• Laryngeal or colonic carcinomas
2.Granulomatous• Sarcoidosis,
• Hypersensitivity peumonitis
Sarcoidosis• By excluding other causes of non-caseating granulomas• Bilateral hilar LA or lung involvement in 90%.• Disordered immune regulation.• Intra-alveolar & interstitial CD4/CD8 ratio 5:1 →15:1• ↑Th1 cytokine IL-2 ,IFNϫ, TNF,IL-8• -ve tuberculin test• Polyclonal hyper-ϫglobulinemia• Stellete inclusions Asteroid bodies & ,laminated calcium
concretion Schumann bodies in giant cells in 60%
NON-Caseating Granulomas are the RULE
“Asteroid” bodies within these granulomas are virtually diagnostic
3-Hypersensitivity peumonitis
• (dusts, bacteria, fungi,)• farmer’s lung →thermophilic actinomycosis,• pigeon breeder’s lung →proteins derived from birds• Histology• Interstitial peumonitis• Non-caseating granulomas in 2/3rd patients• Interstitial fibrosis, honeycombing & obliterative
bronchiolitis• Intra-alveolar infiltrate
4-Smoking relatedDesquamative Interstitial
Pneumonia ( DIP )
– M>>F– Cigarettes– 100% Survival
Alveolar Macrophages
4-Smoking related• Respiratory Bronchiolitis-Associated Interstitial
Lung Disease
• Pigmented intraluminal macrophages within Resp. bronchioles. Macrophages are similar to those in DIP.
5-PAP (Pulmonary Alveolar Proteinosis)
• Accumulation of intra-alveolar & intra-bronchial acellular surfactant.
1. Acquired (anti-GM-CSF Ab),
2. Congenital immediate onset neonatal respiratory distress ABCA3, SP-B,SP-C
3. Secondary hemopoetic & inhalation syndrome
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