A parapneumonic effusion refers to the accumulation of exudative pleural fluid associated with an ipsilateral lung infection, mainly pneumonia. Parapneumonic effusions are mainly associated with bacterial infections.
Parapneumonic pleural effusions are classified into:
Pneumonia is the most frequent cause of parapneumonic effusions and empyema thoracis. Empyema may result as a complication of cardiothoracic surgery. Trauma can also lead to infection of the pleural space. The infecting organism may have spread from blood or other organs into the pleural space.
There are risk factors for empyema like age and comorbidities such as diabetes.
Streptococcus pneumoniae and Staphylococcus aureus are responsible for about 70% of aerobic gram-positive cultures. Klebsiella, Pseudomonas, and Haemophilus species are the commonest in gram-negative culture. Bacteroides and Peptostreptococcus species are the commonest anaerobic organisms. In empyema thoracis associated with aspiration pneumonia mixed bacterial florae containing aerobic and anaerobic bacteria are common. The common organism in cases of empyema thoracis complicating surgery is S. aureus.
The stages of parapneumonic effusion are:
The clinical course varies from spontaneous healing to chronic empyema and fibro-thorax with trapped restricted lung.
The clinical manifestations of parapneumonic effusion or empyema are related to various factors like the presentation timing and the virulence of the causative organism. Common symptoms of bacterial pneumonia with parapneumonic effusion include a cough, expectoration, and a rise in body temperature, pleuritic chest pain, and difficulty breathing.
In most patients the following clinical signs are present in clinical examination and include:
Plain chest x-ray: Pleural effusion can easily be detected by conventional radiographic. The consistency of these pleural-based densities suggests pleural fluid loculation.
Chest ultrasound: Ultrasonography helps identify free or loculated pleural effusions and helps with thoracentesis guidance.
Chest computed tomography (CT): For empyema or loculated effusion in adults, a CT scan with intravenous contrast is helpful. Radiographic contrast enhances visualization of the pleural surfaces and helps identify pleural fluid loculations. Empyema is suggested by the presence of split pleura sign in which there is a thickening of the visceral and parietal pleura with significant separation of the pleural surfaces. CT helps in detecting underlying parenchymal abnormalities.
Diagnostic thoracentesis is needed for the management guidance of parapneumonic pleural effusion. In general, a parapneumonic effusion should be sampled if It is a free-flowing and layers greater than 10-mm on a lateral decubitus film. Radiological guidance of thoracentesis by ultrasound or chest computed tomography (CT) in some cases is helpful especially when the effusion is loculated. The aspirated pleural fluid is subjected to:
More appropriate investigations should be performed to exclude other causes of pleural effusion when indicated.
Treatment of parapneumonic effusion includes appropriate antibiotic therapy together with drainage of pleural fluid as indicated.
Parapneumonic effusion is classified into 4 groups based on risk for the poor outcome:
Patients with category 1 and category 2 may not require drainage. In patients with category 3 and 4, drainage is recommended. Fibrinolytics, VATS, and surgery may be indicated for managing patients with category 3 and category 4 parapneumonic effusion not responding to less invasive drainage methods.
It must cover the suggested causative organisms of pneumonia according to the clinical setting. The duration of antibiotic therapy depends on many factors, for example, the sensitivity of the organism, extent of pulmonary parenchymal and pleural disease, response to initial therapy and adequacy of drainage.
Chest Tube Drainage
Chest tube drainage is generally preferred for patients with uninoculated effusions and free-flowing fluid. Chest tubes are ideally inserted under ultrasound or CT-guidance. The choice of a thoracostomy tube size is controversial. Imaging performed within 24 hours is essential for documenting the correct position of the chest tube. Chest tubes are left in place until the drainage rate is less than 50 ml per day and the empyema cavity has closed.
The intrapleural administration for fibrinolytic agents (for example, streptokinase and tissue plasminogen activator) or fibrinolytic plus mucolytic agents aiming for facilitating the drainage of loculated parapneumonic effusion is controversial.
Thoracoscopy is an alternative therapy for loculated empyemas when antibiotics and tube thoracostomy fail for the drainage. Thoracoscopy disrupts the intrapleural adhesions and allows the drainage of the pleural fluid. Previous studies showed that delay for referral for thoracoscopy more than two weeks was associated with failure of thoracoscopy and conversion to thoracotomy.
Decortication is indicated when persistent (present after 6 months) pleural peel is formed, leading to significant pulmonary restriction.
Rib Resection and Open Drainage of Pleural Space
A vertical incision through the chest wall with rib resection (1 to 3) is done to allow pleural fluid drainage. A chest tube is left in place (about 60 to 90 days). Open drainage of the pleural space may be considered when the previous methods fail, and when the patient is too ill to tolerate decortications.
Most of the patients with parapneumonic pleural effusion recover, but the mortality rate still around 10%. Proper antibiotic therapy and pleural fluid drainage are vital for recovery. Scoring systems have been studied (RAPID score) to determine which patients with parapneumonic effusions are at highest risk for a poor outcome.
Complications of pleural empyema may include residual pleural thickening, extensive pleural fibrosis, bronchopleural fistula formation, and development of empyema necessitans.
Early diagnosis, appropriate antimicrobial therapy, and adequate drainage of parapneumonic effusion are essential for decreasing its morbidity and mortality.
The parapneumonic pleural effusion management requires interprofessional cooperation between physicians of the concerned specialties (e.g., pulmonary medicine, radiology, and microbiology and cardiothoracic surgery) for a good outcome. The interprofessional care provided to the patient must follow an evidence-based approach. (Level III)
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