Thoracentesis

Last updated: June 9, 2023

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Summary

Thoracentesis is a procedure that removes pleural fluid for diagnostic and/or therapeutic purposes. It is used to relieve symptoms (e.g., dyspnea) and/or obtain pleural fluid for analysis to help determine the underlying cause (e.g., infection, malignancy). Relative contraindications include coagulopathy and infection over the procedure site. It is important to determine the best puncture site using ultrasound guidance and ensure all necessary equipment is at the bedside before performing the procedure. Complications include reexpansion pulmonary edema and pneumothorax.

Definition

Diagnostic thoracentesis: the sampling of a pleural effusion for pleural fluid analysis and identification of the etiology ^[2]
Therapeutic thoracentesis: removal of pleural fluid to relieve symptoms (e.g., dyspnea) and treat respiratory failure ^[2]^[3]

Indications

Diagnostic thoracentesis ^[2]^[3]
- New unilateral effusion of uncertain etiology
- Bilateral effusions with atypical findings (e.g., pleuritic chest pain, fever, disparate effusion sizes)
- Indications for detailed pleural fluid analysis that impact management (e.g., cytology, culture and sensitivity)
- Parapneumonic effusion > 5 cm
Therapeutic thoracentesis ^[2]^[3]
- Large symptomatic pleural effusions in select patients
- Pleural effusions causing respiratory failure and/or obstructive shock
- Complicated parapneumonic effusion

Patients with conditions known to cause bilateral symmetrical pleural effusions (e.g., heart failure, cirrhosis, ESRD) typically do not require a confirmatory diagnostic thoracentesis.

Contraindications

Absolute: None
Relative
- Coagulopathy
- Infection (e.g., cellulitis, herpes zoster) over the puncture site
- Adhesions ^[4]

Pleural fluid drainage with chest tube insertion, surgery, or indwelling pleural catheter implantation is preferable for certain patients and underlying etiologies (see “Pleural effusion treatment” for details).

We list the most important contraindications. The selection is not exhaustive.

Technical background

Low-viscosity pleural effusions: Small-bore (e.g., 8–14 Fr) thoracostomy tubes are usually appropriate. ^[5]
High-viscosity or complicated pleural effusions (e.g., pleural empyema, hemothorax, associated pneumothorax): Larger-bore (e.g., 20–36 Fr) thoracostomy tubes are typically required (see “Chest tube placement”). ^[3]^[5]

Landmarks and positioning

Place the patient in the sitting position with their arms resting on the bedside table.
Determine the puncture site using ultrasound and mark the skin.
- 1–2 intercostal spaces beneath the upper margin of the effusion
- Midscapular or posterior axillary line

Preparation

Initiate continuous cardiac monitoring and pulse oximetry.
Perform skin preparation and maintain a sterile field.
Provide parenteral analgesics as needed.

Equipment checklist

Ultrasound machine
Sterile gown and gloves
Surgical mask
Sterile drapes
Sterile ultrasound probe cover
Antiseptic solution
Local anesthetic (e.g., 1% lidocaine)
Needle
- Diagnostic thoracentesis: 22-gauge, 2-inch needle
- Therapeutic thoracentesis: over-the-needle assembly (e.g., 18-gauge needle with preloaded 8 Fr catheter)
Syringe (e.g., 60 mL for diagnostic, 10 mL for therapeutic thoracentesis)
Occlusive dressing
Tubes for sample collection
Drainage setup (if indicated)
- Three-way stopcock
- High-pressure tubing
- Drainage bag or evacuated container

Thoracentesis equipment

Procedure/application

Puncture of the intrapleural space

Administer single-point local anesthesia along the anticipated needle tract.
Assemble the appropriate needle and syringe for the procedure.
Insert the needle at the anesthetized puncture site under ultrasound guidance.
Maintain negative pressure on the syringe and advance until fluid returns.
Once position is confirmed, continue with diagnostic thoracentesis steps or therapeutic thoracentesis steps as indicated.
Once fluid removal is complete, withdraw the needle as the patient exhales and apply an occlusive dressing.

Thoracentesis Ultrasound-guided thoracentesis

Diagnostic thoracentesis steps ^[3]

Attach the thoracentesis needle to a 60 mL syringe.
Follow steps to puncture the intrapleural space.
Once proper needle position is confirmed, collect 50 mL of pleural fluid.

Therapeutic thoracentesis steps ^[3]

Attach the over-the-needle assembly to a 10 mL syringe.
Follow steps to puncture the intrapleural space.
Once proper needle position is confirmed, advance the catheter over the needle into the pleural space.
Remove the needle and attach a three-way stopcock to the catheter hub.
Connect high-pressure tubing to the three-way stopcock.
Attach the tubing to a drainage bag or evacuated container.
Allow drainage of a maximum of 1500 mL of pleural fluid.
Stop drainage if the patient develops a cough, chest discomfort, or hypoxia. ^[6]

Avoid draining more than 1500 mL of pleural fluid, as it is associated with a higher risk of reexpansion pulmonary edema. ^[3]

Pitfalls and troubleshooting

Pitfalls and troubleshooting during thoracentesis ^[3]^[4]^[7]
Complication	Prevention and screening	Management
Vascular injury and hemothorax	Consider screening coagulation panel prior to the procedure. Maintain proper positioning, landmarking, ultrasound guidance, and negative pressure in the syringe during puncture. Guide needles along the superior rib edge to avoid intercostal neurovascular bundles.	See “Traumatic hemothorax.”
Infection and empyema	Screen puncture site for signs of skin and soft tissue infection Maintain sterile technique during the procedure.	See "Pleural empyema.”
Pneumothorax	Obtain postprocedure CXR if suspected clinically. Maintain proper positioning, landmarking, ultrasound guidance, and negative pressure in the syringe during the puncture.	See “Traumatic pneumothorax management.”
Reexpansion pulmonary edema	Limit the speed and volume of fluid removal. Monitor for symptoms during pleural fluid drainage.	See “Reexpansion pulmonary edema” for details.

Postprocedure checklist

Samples sent for pleural fluid analysis (if indicated)
Serum total protein and LDH levels obtained (if indicated)
Procedure documented
Patients monitored for signs of reexpansion pulmonary edema

Postprocedure CXR is not routinely recommended in asymptomatic patients with uncomplicated thoracentesis. ^[8]^[9]

Interpretation/findings

Diagnotic thoracentesis: See “Pleural fluid analysis.”
Therapeutic thoracentesis: See “Management of pleural effusion” for details on clinical reassessment.

Complications

Reexpansion pulmonary edema
Vascular injury
Hemothorax
Pneumothorax
Infection (e.g., pleuritis, empyema)
Intraabdominal injury (e.g., injury to the diaphragm, liver, and/or spleen) ^[10]

We list the most important complications. The selection is not exhaustive.

References

$Contributor Disclosures - Thoracentesis. All of the relevant financial relationships listed for the following individuals have been mitigated: Alexandra Willis (copyeditor, was previously employed by OPEN Health Communications). None of the other individuals in control of the content for this article reported relevant financial relationships with ineligible companies. For details, please review our full conflict of interest (COI) policy.
Saguil A, Wyrick K, Hallgren J. Diagnostic approach to pleural effusion.. Am Fam Physician. 2014; 90 (2): p.99-104.
Roberts JR. Roberts and Hedges' Clinical Procedures in Emergency Medicine and Acute Care. Elsevier ; 2018
Walls R, Hockberger R, Gausche-Hill M. Rosen's Emergency Medicine. Elsevier Health Sciences ; 2018
Kasmani R, Irani F, Okoli K, Mahajan V. Re-expansion pulmonary edema following thoracentesis. Can Med Assoc J. 2010; 182 (18): p.2000-2002.doi: 10.1503/cmaj.090672 . | Open in Read by QxMD
Verhagen M, van Buijtenen JM, Geeraedts LMG. Reexpansion pulmonary edema after chest drainage for pneumothorax: A case report and literature overview. Respiratory Medicine Case Reports. 2015; 14: p.10-12.doi: 10.1016/j.rmcr.2014.10.002 . | Open in Read by QxMD
Petersen WG, Zimmerman R. Limited Utility of Chest Radiograph After Thoracentesis. Chest. 2000; 117 (4): p.1038-1042.doi: 10.1378/chest.117.4.1038 . | Open in Read by QxMD
Lenaeus MJ, Shepherd A, White AA. Routine Chest Radiographs after Uncomplicated Thoracentesis. J Hosp Med. 2018; 13 (11): p.787-789.doi: 10.12788/jhm.3042 . | Open in Read by QxMD
Williams JG, Lerner AD. Managing complications of pleural procedures. J Thorac Dis. 2021; 13 (8): p.5242-5250.doi: 10.21037/jtd-2019-ipicu-04 . | Open in Read by QxMD
Porcel JM. Chest Tube Drainage of the Pleural Space: A Concise Review for Pulmonologists. Tuberc Respir Dis (Seoul). 2018; 81 (2): p.106.doi: 10.4046/trd.2017.0107 . | Open in Read by QxMD

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