Chest Tube Drainage of the Pleural Space: A Concise Review for Pulmonologists

Chest tube insertion is a common procedure usually done for the purpose of draining accumulated air or fluid in the pleural cavity. Small-bore chest tubes (≤14F) are generally recommended as the first-line therapy for spontaneous pneumothorax in non-ventilated patients and pleural effusions in general, with the possible exception of hemothoraces and malignant effusions (for which an immediate pleurodesis is planned). Large-bore chest drains may be useful for very large air leaks, as well as post-ineffective trial with small-bore drains. Chest tube insertion should be guided by imaging, either bedside ultrasonography or, less commonly, computed tomography. The so-called trocar technique must be avoided. Instead, blunt dissection (for tubes >24F) or the Seldinger technique should be used. All chest tubes are connected to a drainage system device: flutter valve, underwater seal, electronic systems or, for indwelling pleural catheters (IPC), vacuum bottles. The classic, three-bottle drainage system requires either (external) wall suction or gravity (“water seal”) drainage (the former not being routinely recommended unless the latter is not effective). The optimal timing for tube removal is still a matter of controversy; however, the use of digital drainage systems facilitates informed and prudent decision-making in that area. A drain-clamping test before tube withdrawal is generally not advocated. Pain, drain blockage and accidental dislodgment are common complications of small-bore drains; the most dreaded complications include organ injury, hemothorax, infections, and re-expansion pulmonary edema. IPC represent a first-line palliative therapy of malignant pleural effusions in many centers. The optimal frequency of drainage, for IPC, has not been formally agreed upon or otherwise officially established.

[1]  F. Venuta,et al.  Chest Tubes: Generalities. , 2017, Thoracic surgery clinics.

[2]  A. Arnold,et al.  Management of spontaneous pneumothorax: British Thoracic Society pleural disease guideline 2010 , 2010, Thorax.

[3]  T. Gildea,et al.  When should an indwelling pleural catheter be considered for malignant pleural effusion? , 2016, Cleveland Clinic Journal of Medicine.

[4]  J. M. Porcel,et al.  Comparing approaches to the management of malignant pleural effusions , 2017, Expert review of respiratory medicine.

[5]  R. Davies,et al.  Management of pleural infection in adults: British Thoracic Society pleural disease guideline 2010 , 2010, Thorax.

[6]  V. Pathak,et al.  Management of anticoagulant and antiplatelet therapy in patients undergoing interventional pulmonary procedures , 2017, European Respiratory Review.

[7]  M. Wahidi,et al.  Straightening out chest tubes: what size, what type, and when. , 2013, Clinics in chest medicine.

[8]  L. Brieva,et al.  [Acute transient ataxia caused by local lidocaine injection during insertion of a pleural catheter]. , 2009, Archivos de bronconeumologia.

[9]  C. Lau,et al.  Permanent indwelling catheters in the management of pleural effusions. , 2013, Thoracic surgery clinics.

[10]  N. Katsikogiannis,et al.  Heimlich valve and pneumothorax. , 2015, Annals of translational medicine.

[11]  Edmund Neville,et al.  Management of a malignant pleural effusion: British Thoracic Society pleural disease guideline 2010 , 2010, Thorax.

[12]  S. Murgu,et al.  Management of Persistent Air Leaks. , 2017, Chest.

[13]  Anoop Chauhan,et al.  Effect of Opioids vs NSAIDs and Larger vs Smaller Chest Tube Size on Pain Control and Pleurodesis Efficacy Among Patients With Malignant Pleural Effusion: The TIME1 Randomized Clinical Trial. , 2015, JAMA.

[14]  Sandeep Sainathan,et al.  Is the trocar technique for tube thoracostomy safe in the current era? , 2014, Interactive cardiovascular and thoracic surgery.

[15]  R. Light Pleural diseases. , 1992, Disease-a-month : DM.

[16]  Vincent Chien,et al.  Chest-Tube Insertion , 2007 .

[17]  T. Papadimos,et al.  Complications of chest tubes: a focused clinical synopsis , 2015, Current opinion in pulmonary medicine.

[18]  A. Dongo,et al.  Tube Thoracostomy: Complications and Its Management , 2011, Pulmonary medicine.

[19]  N. Maskell,et al.  British Thoracic Society national pleural procedures audit 2010 , 2011, Thorax.

[20]  E. Ruffini,et al.  Errors and Complications in Chest Tube Placement. , 2017, Thoracic surgery clinics.

[21]  G. Varela,et al.  When to Remove a Chest Tube. , 2017, Thoracic surgery clinics.

[22]  G. Michaud,et al.  Randomized Trial of Pleural Fluid Drainage Frequency in Patients with Malignant Pleural Effusions. The ASAP Trial , 2017, American journal of respiratory and critical care medicine.

[23]  L. Berrizbeitia Chest-tube insertion. , 2008, The New England journal of medicine.

[24]  N. Maskell,et al.  Indwelling Pleural Catheters , 2014, Respiration.

[25]  F. Gleeson,et al.  Pleural procedures and thoracic ultrasound: British Thoracic Society pleural disease guideline 2010 , 2010, Thorax.

[26]  M. Raza Management of a malignant pleural effusion: British Thoracic Society pleural disease guideline 2010 , 2011 .

[27]  Y. C. Lee,et al.  Textbook of Pleural Diseases , 2008 .

[28]  E. David,et al.  Large-bore and small-bore chest tubes: types, function, and placement. , 2013, Thoracic surgery clinics.

[29]  M. Wahidi,et al.  Interventional Pulmonology Fellowship Accreditation Standards: Executive Summary of the Multisociety Interventional Pulmonology Fellowship Accreditation Committee , 2017, Chest.

[30]  J. Debeij,et al.  Systematic review and meta‐analysis of antibiotic prophylaxis to prevent infections from chest drains in blunt and penetrating thoracic injuries , 2012, The British journal of surgery.

[31]  E. Lim,et al.  Modern Techniques to Insert Chest Drains. , 2017, Thoracic surgery clinics.

[32]  K. Papagiannopoulos,et al.  Advances in chest drain management in thoracic disease. , 2016, Journal of thoracic disease.