Pleural Effusion

Pleural Effusion 

Normal Pleural Space

  • Contains 5–15 mL fluid
  • Produced mainly by parietal pleura
  • Absorbed via pleural lymphatics
  • Functions as a lubricant allowing lung movement

Pleural effusion develops when:Fluid formation > Fluid removal


Etiology

Transudative Pleural Effusion

Cause

Mechanism

Heart failure(~80% of transudates)

Increased hydrostatic pressure

Cirrhosis (hepatic hydrothorax)(~13% of transudates)

Ascitic fluid migration

Nephrotic syndrome

Low oncotic pressure

Hypoalbuminemia

Reduced plasma oncotic pressure

Constrictive pericarditis

Venous congestion

Peritoneal dialysis

Fluid movement across diaphragm

Volume overload-CKD


Hypothyroidism


Superior vena cava syndrome


Exudative Pleural Effusion

Cause

Mechanism

Parapneumonic effusion

Infection

Empyema

Pus in pleural space

Tuberculosis

Granulomatous inflammation

Malignancy

Pleural infiltration

Pulmonary embolism(85% exudative, 15% transudative)

Inflammation/infarction

Rheumatoid arthritis

Autoimmune pleuritis

SLE

Serositis

Pancreatitis

Enzyme leakage

Esophageal rupture

Mediastinal contamination

Chylothorax

Thoracic duct injury

Hemothorax

Blood accumulation

Uremic pleuritis

  • Amiodarone.
  • Clozapine.
  • Ergot alkaloids, including bromocriptine, ergotamine.
  • Methotrexate.
  • Nitrofurantoin.
  • Phenytoin, valproic acid.
  • Tyrosine kinase inhibitors, including dasatinib.


Postcardiac injury syndrome; post-CABG effusion.

Medications

Light’s Criteria 

for Exudative Pleural Effusion(Any ONE criterion positive)

Criterion

Exudate if Present

Pleural Fluid Protein / Serum Protein Ratio

> 0.5

Pleural Fluid LDH / Serum LDH Ratio

> 0.6

Pleural Fluid LDH Level

> 2/3 of the upper limit of normal serum LDH,but in practice the 200 IU/L cutoff is used.

Limitations of Light’s Criteria

Diuretic-Treated Heart Failure May falsely appear exudative.

Use: Serum-Pleural Albumin Gradient (SPAG) -SPAG >1.2 g/dL,

Serum-Pleural Protein Gradient -3.1 g/dL-Suggests transudate


Bilateral Pleural Effusions

Category

Causes

Transudative Effusions

Heart failure, hepatic hydrothorax, nephrotic syndrome, hypoalbuminemia, renal failure

Malignancy

Metastatic pleural disease, advanced abdominal or pelvic malignancy

Autoimmune Disorders

Systemic lupus erythematosus (SLE), rheumatoid arthritis, other connective tissue diseases

Thromboembolic Disease

Bilateral pulmonary emboli

  • Heart failure is the most common cause of bilateral pleural effusions.
  • Bilateral effusions may be transudative or exudative.
  • Unilateral predominance does not exclude heart failure.

Loculated Pleural Effusion

A pleural effusion confined within one or more compartments of the pleural space due to pleural adhesions, preventing free movement of fluid.Loculation strongly suggests an exudative process.

Causes of Loculated Effusion

Complicated parapneumonic effusion

Empyema

Tuberculosis

Hemothorax

Malignancy

Pulmonary embolism (especially when diagnosis is delayed >10 days)

Previous pleurodesis

Chronic pleural adhesions from prior pleural inflammation or injury

Hydropneumothorax

Causes of Hydropneumothorax

Bronchopleural fistula

Spontaneous pneumothorax with pleural effusion

Gas-forming pleuropulmonary infection

Thoracic trauma

Esophageal rupture

Tuberculosis

Necrotizing pneumonia

Malignancy

Post-thoracic procedures (thoracentesis, chest tube insertion, lung biopsy)

Chronic Pleural Effusion

Pleural effusion persisting for more than six months.

Causes of Chronic Pleural Effusion

Malignancy

Tuberculosis

Trapped lung

Chronic heart failure

Rheumatoid pleuritis

Chronic autoimmune pleuritis

Chronic hepatic hydrothorax

Yellow nail syndrome

Clinical Features

Feature

Typical Finding

Duration

>6 months

Symptoms

Often mild or absent

Progression

Usually slow

Discovery

Frequently incidental

  • A chronic pleural effusion is unlikely to be the sole explanation for sudden respiratory deterioration.
  • Acute worsening should prompt evaluation for:
    • Pneumonia
    • Pulmonary embolism
    • Pneumothorax
    • Heart failure exacerbation
    • Empyema
  • Chronic effusions may lead to:
    • Pleural fibrosis
    • Trapped lung
    • Restrictive ventilatory defects

Symptoms

Symptom 

Description / Clinical Significance

Dyspnea (Most Common Symptom)

Most common presenting symptom. Results from lung compression

Pleuritic Chest Pain

Sharp, localized chest pain that worsens with deep inspiration, coughing, sneezing, or movement. Usually indicates parietal pleural inflammation.

Dry, Nonproductive Cough

Common symptom caused by pleural irritation, compression of adjacent lung tissue, or stimulation of cough receptors.

Fever

Suggests an infectious or inflammatory etiology. Commonly seen in parapneumonic effusion, empyema, and tuberculous pleuritis.

Weight Loss

Suggests a chronic underlying disease, particularly malignancy or tuberculosis.

Anorexia

Frequently accompanies malignancy and tuberculosis.

Night Sweats

Classically associated with tuberculosis, lymphoma, and chronic infection.

Fatigue / Malaise

Common in chronic inflammatory, infectious, or malignant pleural diseases.

Hemoptysis

Not a typical feature of pleural effusion itself. When present, consider malignancy, tuberculosis, pulmonary embolism, or pneumonia.

Shoulder Pain

Referred pain from diaphragmatic pleural irritation via the phrenic nerve.

Physical Examination

Physical Examination Finding

Reason / Significance

Reduced chest movement

Pleural fluid restricts expansion of the affected lung and hemithorax

Asymmetric chest expansion

Reduced expansion on the side of the effusion compared with the opposite side

Reduced tactile vocal fremitus

Pleural fluid dampens transmission of vocal vibrations from the lung to the chest wall

Stony dullness on percussion

Classical sign of pleural effusion due to replacement of air-filled lung by fluid

Reduced breath sounds

Sound transmission is decreased across the fluid-filled pleural space

Reduced vocal resonance

Voice sounds are poorly transmitted through pleural fluid, resulting in diminished vocal resonance

Imaging

Chest X-Ray 

Radiographic Finding

Description / Clinical Significance

Blunting of the Costophrenic Angle

Earliest radiographic sign of pleural effusion due to fluid accumulation within the costophrenic recess.

Minimum Fluid Visible on Lateral CXR

Approximately 50 mL of pleural fluid.

Minimum Fluid Visible on PA CXR

Approximately 200 mL of pleural fluid.

Minimum Fluid Visible on Supine CXR

Usually >500 mL; fluid layers posteriorly and may produce diffuse haziness rather than a meniscus.

Meniscus Sign

Curved upward concave upper border of pleural fluid caused by capillary forces between pleural surfaces. Usually requires ≥500 mL of pleural fluid. Classical sign of a free-flowing pleural effusion.

White-Out Hemithorax with Mediastinal Shift Away

Most commonly due to massive pleural effusion. Differential diagnosis includes malignancy, empyema, hepatic hydrothorax, tuberculosis, hemothorax, and heart failure.

White-Out Hemithorax with No Shift

May occur when pleural effusion coexists with underlying lung collapse or a trapped lung.

Subpulmonic Effusion

Pleural fluid accumulates between the diaphragm and lung base without initially entering the costophrenic angle, causing the costophrenic angle to remain apparently normal.

  • Raised Hemidiaphragm Appearance-A subpulmonic effusion may mimic diaphragmatic elevation
  • Lateral Peak Sign-Apparent lateral displacement of the highest point of the hemidiaphragm.
  • Increased Distance Between Gastric Bubble and Left Hemidiaphragm

Pseudotumor (Vanishing Tumor)

Localized collection of pleural fluid within an interlobar fissure that mimics a pulmonary mass. Typically resolves after treatment of the underlying cause.Common Causes of Pseudotumor Heart failure, cirrhosis, renal failure, nephrotic syndrome.

Incomplete Fissure Sign

Pleural fluid may track along an incompletely fused interlobar fissure, creating atypical lenticular or loculated opacities that can mimic a mass lesion.

Fissural Effusion

Fluid accumulation within a major or minor fissure producing a biconvex or lenticular opacity.

Loculated Pleural Effusion

Fixed pleural opacity that does not redistribute with position changes; often associated with empyema, hemothorax, tuberculosis, or malignancy.

Apical Pleural Cap

Pleural fluid accumulating at the lung apex; may occur with loculated effusions.

Lamellar Effusion

Thin layer of pleural fluid seen along the lateral chest wall, often an early manifestation of pleural effusion.

POCUS

Advantages

  • More sensitive than CXR
  • Detects >100 ml fluid

Sonographic Appearance

Ultrasound Appearance

Description

Common Etiologies

Simple Anechoic Effusion

Completely black fluid without internal echoes

Heart failure, nephrotic syndrome, uncomplicated transudates

Complex Non-Septated Effusion

Internal floating echoes without septations

Early infection, malignancy, hemothorax

Complex Septated Effusion

Fibrin strands and multiple septations

Complicated parapneumonic effusion, empyema, tuberculosis

Homogeneously Echogenic Effusion

Dense echogenic fluid throughout

Empyema, hemothorax(Increasing density of fluid in the most dependent areas may suggest blood (hematocrit sign).), organized pleural collection

Ultrasound Sign

Description / Significance

Thoracic Spine Sign (Spine Sign)

Visualization of the thoracic vertebral bodies extending above the diaphragm. Normally the aerated lung obscures the spine above the diaphragm. Presence of fluid provides an acoustic window allowing visualization of the spine, indicating pleural effusion.

Quad Sign

Pleural fluid forms a roughly rectangular (quadrangular) space bordered by the pleural line, lung line, and acoustic shadows of adjacent ribs. Highly suggestive of pleural effusion.

Sinusoid Sign

Rhythmic movement of the visceral pleura (lung line) toward and away from the parietal pleura during respiration. Indicates a free-flowing pleural effusion and an expandable lung.

Jellyfish Sign (Flapping Lung Sign)

Collapsed atelectatic lung seen floating and moving within pleural fluid, resembling a jellyfish. Suggests a moderate-to-large pleural effusion with compressive atelectasis.

Plankton Sign

Multiple tiny mobile echogenic particles seen swirling within pleural fluid. Suggests an exudative effusion, commonly empyema, hemothorax, or malignant effusion.

Swirling Sign

Dynamic movement of echogenic debris within the fluid during respiration. Often indicates high cellular or proteinaceous fluid, commonly malignancy, empyema, or hemothorax.

Curtain Sign (Normal Sign)

During inspiration, aerated lung descends and covers the diaphragm and upper abdominal organs like a curtain. Presence generally excludes a significant pleural effusion at that location.

Tissue-Like Lung Sign

Lung adjacent to the effusion appears hepatized and tissue-like. Indicates atelectasis or pneumonia associated with pleural effusion.

Dynamic Air Bronchogram Sign

Mobile air bronchograms within consolidated lung near an effusion. Favors pneumonia rather than passive atelectasis.

Static Air Bronchogram Sign

Fixed air bronchograms within compressed lung. More consistent with compressive atelectasis from pleural effusion.

Pleural Thickening

Pleural thickness >3 mm.

Significance

Finding

Possible Cause

Smooth thickening

Chronic inflammation

Nodular thickening

Malignancy

Diffuse irregular thickening

Mesothelioma, metastatic disease

CT Chest

Useful for:

  • Malignancy
  • Empyema
  • Loculations
  • Pleural thickening

Diagnostic Thoracentesis

Indications

  • Perform in all NEW pleural effusions of unknown etiology that is moderate-large in size or ≥10 mm thick on ultrasound or Effusion occupies approximately 1/3(moderate)–1/2 (Large)of hemithorax on CXR
  • Unilateral effusion( mostly an exudate)
  • Pneumonia to distinguish paraneumonic effusion
  • Suspected infection(like in Cirrhosis may cause spontaneous bacterial empyema)
  • Suspected malignancy
  • Loculations/septations.

Therapeutic thoracentesis

it is not same as ICD insertion

  • Moderate-to-large effusion
  • Dyspnea attributable to effusion
  • Lung compression on imaging
  • Oxygenation impairment from effusion

Pleural Effusion in Heart Failure / Volume Overload (e.g., Missed Dialysis)

Thoracentesis is not routinely required if the picture is typical:

  • Bilateral effusions
  • Known CHF or renal failure
  • No fever
  • No pleuritic chest pain
  • No suspicion of infection or malignancy
  • Improves with diuresis/dialysis

In this situation, treat the underlying cause first.


Commonly Used Clinical Volume Estimate (Not Official Guideline Definitions )

Effusion Size

Approximate Volume

Small (mild)

<500 mL

Moderate

500–1500 mL

Large

>1500 mL

Massive

>2000–2500 mL

Ultrasound Estimation of Pleural Effusion Volume

Formula Name

Formula

Patient Position

Balik Formula (most commonly used in ICU)

Pleural Effusion Volume (mL) ≈ 20 × Sep (mm)

Sep = maximal interpleural distance at end-expiration

Supine with ~15° trunk elevation(mechanically ventilated ICU patients)

Eibenberger Formula

Pleural Effusion Volume (mL) = 47.6 × Separation (mm) − 837

Sitting upright (erect position)

Vignon Formula

Pleural Effusion Volume (mL) = 90 × Maximal Interpleural Distance (cm)

Semirecumbent/supine ICU patient

Goecke Formula

Volume (mL) = (X + LDD) × 70

X = subpulmonary height (cm)

LDD = lung base-to-mid-diaphragm distance (cm)

Sitting or semierect patient