52 Pleural Effusion
• Pleural effusion is the manifestation of an underlying disease process.
• The most common cause of pleural effusion in developed countries is congestive heart failure.
• Pulmonary embolism should be considered in patients with pulmonary effusions of uncertain etiology.
• Therapeutic thoracentesis is indicated in the emergency department for relief of acute respiratory or cardiovascular distress.
• Diagnostic thoracentesis should be performed in the emergency department to diagnose immediately life-threatening conditions in toxic-appearing patients.
Epidemiology
Because pleural effusions are harbingers of underlying disease, their precise incidence is difficult to determine. The incidence in the United States is estimated to be at least 1.5 million cases annually.1 In industrialized countries worldwide, the incidence approaches 320 cases per 100,000 people—with heart failure, bacterial pneumonia, cirrhosis, malignancy, and pulmonary embolism representing the most common causes. The morbidity and mortality associated with pleural effusion are directly related to cause, stage of disease at the time of diagnosis, and biochemical findings in the pleural fluid. Because pleural effusions are manifestations of underlying diseases, age, sex, race, and socioeconomic status reflect the variation in incidence of the causative disease state or disorder.
Pathophysiology
The presence of fluid in the normally negative pressure environment of the pleural space has a number of consequences for respiratory physiology. Pleural effusions produce a restrictive ventilatory defect and also decrease total lung capacity, functional residual capacity, and forced vital capacity. They may cause ventilation-perfusion mismatches and, when large enough, compromise cardiac output.2
The classic work of Light et al.3 in 1972 demonstrated that 99% of pleural effusions could be classified into these two general categories, transudative and exudative (Box 52.1). A basic difference is that transudates generally reflect a systemic process whereas exudates usually signify underlying local pleuropulmonary disease.3
Box 52.1 Light Criteria for Classification of Pleural Effusions
In 1972, Light et al.3 developed the currently accepted benchmark for classifying pleural fluid, as follows:
– Pleural fluid protein–to–serum protein ratio > 0.5 : 1
– Pleural fluid lactate dehydrogenase (LDH)–to–serum LDH ratio > 0.6 : 1
– Pleural fluid LDH greater than two thirds the upper limit of normal for serum LDH (a cutoff value of 200 IU/L was used previously)
Presenting Signs and Symptoms
In many cases, pleural effusions are asymptomatic when discovered. Physical findings of pleural effusions are unlikely to be manifested until an effusion exceeds 300 mL. Dyspnea, the most common symptom associated with pleural effusion, is related more to distortion of the diaphragm and chest wall during respiration than to hypoxemia. Less commonly, symptoms of pleural effusions consist of a mild, nonproductive cough and chest pain. Pleuritic chest pain indicates inflammation of the parietal pleura because the visceral pleura is not innervated. In many patients, drainage of pleural fluid alleviates the symptoms despite limited improvement in gas exchange. Findings on lung examination such as decreased breath sounds, dullness to percussion, pleural friction rub, egophony, and reduced tactile fremitus have all been described.1,2 Auscultation alone can miss up to 600 mL of fluid in the lung.4–6
The emergency physician should assess for the cause of the effusion. If a patient complains of fever, weight loss, and a progressively worsening cough with associated dyspnea, an oncologic or infectious cause is likely. Constant chest wall pain may reflect chest wall invasion by bronchogenic carcinoma or malignant mesothelioma. Pleuritic chest pain suggests either pulmonary embolism or an inflammatory pleural process. An effusion can mimic the classic symptoms of acute coronary syndrome, such as chest pain, dyspnea, and shoulder pain (Box 52.2).
Differential Diagnosis and Medical Decision Making
A pleural effusion is frequently identified during evaluation of the underlying chief complaint of the patient. Because the etiology of pleural effusion is myriad, a thorough history and physical examination may narrow the differential diagnosis substantially. Box 52.3 lists the common causes of pleural effusion. Frequently, effusion is identified on physical examination or with basic chest radiography, but additional imaging modalities, including radiography, ultrasonography, and computed tomography (CT), may identify the cause and provide additional insight about the effusion.1,3,6
Diagnostic Considerations
Radiography
Erect posteroanterior and lateral chest radiographs are still the most important initial tools in the diagnosis of a pleural effusion. On upright and lateral decubitus films, loss of the costophrenic angle is seen. With increasing size of the pleural effusion, the hemidiaphragm is obscured (Fig. 52.1