Bronchopleural fistula

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pEditor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor-In-Chief: Cafer Zorkun, M.D., Ph.D. [2]

Overview

A bronchopleural fistula (BPF) is a fistula between the pleural space and the bronchial tree. It is a sinus tract between the bronchus and the pleural space that may result from many reasons but most commonly following pneumectomy, or sometimes due to tumors at bronchial margin. It can also occur in response to chemotherapy, radiotherapy COpD, lymph node dissection, long term mechanical ventilation and infections. On imaging, the diagnosis is suspected indirectly on radiograph. Increased gas in the pneumonectomy operative bed, or new gas within a loculated effusion are highly suggestive of the diagnosis. Although radiograph can help in diagnosing it but CT gives a better picture.

It can present with acute or subacute symptoms. It presents with symptoms such as sudden onset dyspnea, chest pain, hemodynamic instability in acute setting. The subacute presentation shows up with emphysema, fever, malaise. Depending on how the patient presents, general suppprtive care and surgical repair are the treatment options.

Pathophysiology

Bronchopleural fistula can occur due to necrotising pneumonia/empyema (anaerobic, pyogenic, tuberculous, and fungal), lung neoplasms, blunt and penetrating lung injuries. It can also occur as a complication of procedures, such as  lung biopsy, chest tube drainage, thoracocentesis or may complicate radiation therapy. Most commonly it occurs as a complication of lung surgery. When the bronchial stump fails to heal, a sinus tract is formed between bronchus and pleura, which causes continuous air leak into the pleura. This failure to heal can be from improper initial closure, inadequate blood supply, infection or residual malignant tumour at the bronchial stump.

Epidemiology and Demographics

The incidence of  varies from 4.5% to 20% after pneumonectomy and 0.5% after lobectomy. Certain patient characteristics increase this incidence. preoperative radiation to the chest, destroyed or infected lung from inflammatory disease, immunocompromised or immunesuppressed host, diabetes, hypoalbuminemia, cirrhosis, steroid administration, pneumonectomy, right-sided pneumonectomy, a long bronchial stump, residual cancer at the bronchial margin, devascularization of the bronchial stump, prolonged ventilation, or reintubation after resection and surgical inexperience are the factors which may make patient more vulnerable to having BPF. The increased risk of BPF associated with right pneumonectomy is due to the need of more extensive resection required in right pneumonectomy. [1] Mortality rates varies between 18 percent to 67 percent in BPF. The most common cause of death is aspiration pneumonia and subsequent acute respiratory distress syndrome or development of tension pneumothorax.

Etiology

Bronchopleural fistula mostly develops after lung resection surgery. Some other causes of bronchopleural fistula are

  • Right sided surgery[2]
  • Chemotherapy and radiation
  • Malignancies such as
    • Lung cancer
    • Thyroid cancer
    • Esophageal cancer
    • Lymphomas[3]
  • Diabetes mellitus[4]
  • Gastrointestinal causes such as
    • Gastroesophageal reflux disease with Barrett esophagus
    • Boerhaave syndrome
    • Broncholithiasis
  • Heavy smoking and COpD[5]
  • Low nutritional status
  • Residual tumor at bronchial margin
  • Extensive lymph node dissection
  • Traumatic and iatrogenic etiologies
    • Thoracic trauma with tracheobronchial tree disruption
    • Post-surgical (eg. lobectomy or lung biopsy) - by far the most common cause.
    • Bougie intubation
    • Necrotizing lung disease
    • ARDS
    • Ventilator-induced barotrauma
    • Excessive manual ventilation
    • Central line placement
    • Complication of bronchoscopy
  • Older age
  • Long term postoperative mechanical ventilation specially following criteria predisposes patient to BPF
    • High suction of the ICC
    • High tidal volumes
    • High inspiratory pressures
  • Tuberculous[6] of fungal infection[7]. Other infections such as
    • Haemophilus influenzae
    • Streptococcus viridans
    • Staphylococcus aureus
    • Pseudomona aeruginosa
    • Klebsiella pneumoniae
    • Pneumococcus
    • Nonhemolytic streptococcus
    • Aspergillus
    • Histoplasma capsulatum

Natural History And Classification

Cough and changes in the air-fluid pattern on chest radiograph after surgery are critical as warning signs of BPF. Other manifestations include fever with serosanguinous or purulent sputum. Large fistula causing aspiration to the contralateral lung or if a tension pneumothorax can develops acute respiratory distress. Many cases are associated with empyema. The diagnosis must be suspected when there is a persistent post-operative air-leak (immediate post-operative period), or a new or increasing air-fluid level, or disappearance of pleural fluid on chest radiographs (if patient has no chest tube in place. With a delayed BPF, a new air fluid level appears in a previously opacified haemithorax. Bronchopleural fistula typically manifests seven to fifteen days following a lung resection. Bronchopleural fistula occurring postoperatively almost always occur within three months after surgery while those developing as a complication of pleuropulmonary infections may develop at any point of time during the course of illness. Varoli classified  fistulas according  to the time of onset after the operation:

  • Early [1 to 7 days]
  • Intermediate [8 to 30 days]
  • Late  fistulas [more than 30 days]

Clinical features

Symptoms can vary from acute (with in first two weeks postoperative period to subacute (>14 days

Acute Symptoms

  • Sudden onset dyspnea
  • Chest pain
  • Hemodynamic instability
  • Subcutaneous emphysema
  • Less severe symptoms in case of chest tube (large persistent or new air leak through chest tube drainage might be the only sign

Subacute Symptoms

  • Empyema
  • Fever
  • Malaise
  • Muscle wasting
  • Cough with purulent sputum

Complication

Empyema necessitans

Examination

Examination plays a vital role in diagnosing bronchopleural fistula. A careful early examination can lead to early diagnosis and hence good prognosis. Examination should involve the following steps

  • Examine the patient (an ABC based primary survey, ensuring that the patient is not about to die of pneumothorax or mediastinal shift and is vitally stable)
  • Exclude drain dislodgement (examine the drain)
  • Quantify the leak by asking the patient to follow below given instructions.
    • Ask the patient to cough
    • Ask the patient to speak
    • Observe the quantity of bubbles.
    • If bubbling is constantly happening while the patient is speaking, the leak is significant.
    • If the bubbling is only present with cough and diminishes with ssutained coughing, the leak is probably small.

On auscultation, percussion and checking position of trachea, following findings might be present

  • Reduced air entry on affected side
  • Dullness to percussion of affected side
  • Tracheal deviation (if tension pneumothorax

Diagnosis

Imaging

Following features can be seen on a radiograph but are better appreciated on CT

  • pneumothorax
  • pneumomediastinum
  • Subcutaneous emphysema
  • Failure of postpneumonectomy space to fill with fluid
  • Air bubbles around surgical side
  • Fistula

Bronchoscopy

It can help in determining

  • Surgical site
  • Fistula size and site
  • Mucosal defect
  • Localization of fistula by instilling dye
  • Rule out other etiologies

Differential Diagnosis

Reasons for tension pneumothorax in postoperative period can be

Management

General Supportive Care

These measures are usually practiced when bronchopleural fistula has subacute presentation. Drainage of air from pleural space by chest tube thoracostomy. If fluid is collected, it should be sent for following labs

  • Cell count
  • pH
  • Total protein
  • LDH
  • Glucose
  • Cytology
  • Triglycerides
  • Gram Stains
  • Culture

Asses the patient for empyema[8] and treat him for it.

  • Broad spectrum intravenous antibiotics until gram stains, culture and sensitivity is available
  • Intrapleural fibrinolytic for patients with infected multi loculated effusions
  • postural drainage

Maximize nutrition

Treat other co morbidities

  • For mechanically ventilated patient, lower the level of positive pressure and selectively intubate healthy lung. Thihe advantages and disadvantages of some of the above mentioned measures are discussed bel.a.
rategyt vantagesd Disadvantages
h
  • Easy and readily available
  • Usually well tolerated
  • Does not interfere with weaning of ventilation
  • Risk of damaging more lung
  • Risk of creating larger leak
  • potentially perpetuates the fistula by negative essure suction
  • Invasive
  • Low tidal volume
  • Low PEEP
  • Low inspiratory rate
  • Short inspiratory time
  • Tolerate high PCO2
  • Wean rapidly
  • Extubate early
  • easy and readily available
  • Usually well tolerated
  • Early extubation is the ideal step to aim for, as spontaneous negative pressure breathing is better for BPF healing than positive pressure ventilation
  • The BPF itself may frustrate weaning off ventilation
  • Mandatory mode may prolong ventilation time
  • Permissive hypercapnea may lead to respiratory acidosis, which is not ideal for the patient with traumatic brain injury
Independent Lung Ventilation
  • Dual-lumen tube
  • Bronch blocker
  • Isolation of one lung permits the selective low-volume low-pressure ventilation of the affected lung, and more rapid higher volume ventilation of the unaffected lung.
  • PCO2 levels may be easier to control in this manner
  • Technically difficult: DLT insertion is one thing; running two ventilators is another.
  • There may be leak of gas and pressure from one lung to another if the seal is imperfect
  • Sedation requirements will  be higher, to tolerate the larger tube and the very unnatural respiratory pattern
  • Local pressure effects of the DLT are also more problematic

Surgical Repair

Surgical repair is usually done in patients if symptoms of bronchopleural effusion arise after lung resection.

patient procedure Indication Contraindication
Acute symptoms
  • Stump debridement and closure
  • VATS
  • Thoracotomy
  • Fit for surgery
  • Healthy bronchial stump
  • Expected exyubation
Wait until extubation in patients with
  • Hemodynamic instability
  • Hypoxia
Subacute symptoms Time to bridge period before surgery by
  • Bronchoscopic Therapies
  • General measures
  • Empyema
  • poor nutrition status
  • poor physical strength[9]
  • Small fistula
  • Advanced malignancies
Bronchoscopic therapies and general measures does not work for large fistulas

Bronchoscopic therapies are performed depending on size of the fistula. Advantages and disadvantages of some of the invasive strategies have been given below.

rategyt vantaged Disadvantage
Surgical Repair
  • Success rates are between 80 and 95%
  • It may be impossible to find the leak intraoperatively
  • It may be unfeasible to remove so much lung
  • It may be impossible if there are multiple leaks
  • The patient must tolerate one-lung ventilation
  • This approach requires thoracotomy
onchial Stentingr
  • The affected bronchus can be stented over bronchoscopically, thereby blocking the leak.
  • This is a minimally invasive alternative to surgical patch repair
  • You need to be sure of where the leak is
  • The leak must be in an accessible bronchus.
  • This may not work if there are multiple leaks
  • The procedure requires technical expertise
  • The patient must be fit to tolerate the bronchoscopy
onchial Occlusionr Similarly to surgery, the affected pronchus is blocked with either a one-way valve or a plug. In fact, the Lois article lists options such as blood clot, cyanoacrylate glue, fibrin, lead shot,  gel foam, calf bone, and various others.
  • You need to be sure of where the leak is
  • The leak must be in an accessible bronchus
  • A major part of the lung may be sacrificed
  • The atelectatic lung may develop infection
Application Of PEEP to ICC
  • The equal intra and extrathoracic PEEP decreases the leak volume
  • Maintained intra-thoracic PEEP permits higher PEEP levels to be used
  • Drainage is compromised
  • There is a major risk of rapid tension pneumothorax
OVF
  • May reduce peak pressures
  • Certainly reduces tidal volume (to ~50ml)
  • Thus, theoretically reduces flow across the BPD, allowing it to heal
  • This is avery unnatural form of ventilation, and may be poorly tolerated
  • Large amounts of sedation or paralysis will be required
MOC
  • This may be the only option for severely hypoxic patients
  • With ECMO, one can limit or totally abolish gas flow through the BPF
  • All the risks of ECMO apply, as it is a maximally invasive therapy
  • It is not widely available.
  • There is little experience with this in BPF.

Refractory Cases

Occlusive materials can be methyl 2 cyanoacrylate, N butyl cyanoacrylate, albumin glutaraldehyde tissue adhesive, polyvinyl alcohol sponge or fibrin glue[10]. In scelrosants, endobronchial injection of ethanol, polydocanol and tetracycline is given. For small bronchopleural fistula, argon plasma coagulation and neodymium doped yttrium aluminuin garnet laser have been used. Omentum[11] can be used to repair the defect as well. Endobronchial occlusion[12] is also an option on table.

For refractory patients, following interventions could be done.

  • Repeat surgery
  • Alternate bronchoscopic mathod
  • Open window thoracostomy[13]

Follow Up

Monitor

  • Clinical symptoms of recurrence
  • Chest tube air output
  • Radiograph and CT

Bronchoscopy is done if symptoms reappear.

shown below are courtesy of Sedat Altin MD, Levent Dalar MD and Cafer Zorkun MD from Yedikule Education and Research Hospital, Istanbul - Turkey.

References

  1. https://www.ncbi.nlm.nih.gov/pubmed/11309718. Missing or empty |title= (help)
  2. https://www.ncbi.nlm.nih.gov/pubmed/29516277. Missing or empty |title= (help)
  3. https://en.wikipedia.org/wiki/Bronchopleural_fistula. Missing or empty |title= (help)
  4. https://www.ncbi.nlm.nih.gov/pubmed/27063612. Missing or empty |title= (help)
  5. https://www.ncbi.nlm.nih.gov/pubmed/27499951. Missing or empty |title= (help)
  6. https://www.ncbi.nlm.nih.gov/pubmed/29516277. Missing or empty |title= (help)
  7. https://www.ncbi.nlm.nih.gov/pubmed/25019431. Missing or empty |title= (help)
  8. https://www.ncbi.nlm.nih.gov/pubmed/30054070. Missing or empty |title= (help)
  9. https://www.ncbi.nlm.nih.gov/pubmed/29348280. Missing or empty |title= (help)
  10. https://www.ncbi.nlm.nih.gov/pubmed/29109057. Missing or empty |title= (help)
  11. https://www.ncbi.nlm.nih.gov/pubmed/29587951. Missing or empty |title= (help)
  12. https://www.ncbi.nlm.nih.gov/pubmed/29443771. Missing or empty |title= (help)
  13. [https://www.ncbi.nlm.nih.gov/pubmed/23525638 https://www.ncbi.nlm.nih.gov/pubmed/26743783 https://www.ncbi.nlm.nih.gov/pubmed/27220922 https://www.ncbi.nlm.nih.gov/pubmed/29109057 https://www.ncbi.nlm.nih.gov/pubmed/23525638 https://www.ncbi.nlm.nih.gov/pubmed/26743783 https://www.ncbi.nlm.nih.gov/pubmed/27220922 https://www.ncbi.nlm.nih.gov/pubmed/29109057] Check |url= value (help). line feed character in |url= at position 45 (help); Missing or empty |title= (help)

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