Pericardiocentesis is most commonly performed percutaneously by needle drainage of pericardial fluid and insertion of a pericardial drain with or without echocardiographic guidance. Echocardiographic guidance is associated with relatively low complication and recurrence rates and a high success rate.Evidence 1High Quality of Evidence (high confidence that we know true effects of the intervention). Tsang TS, Enriquez-Sarano M, Freeman WK, et al. Consecutive 1127 therapeutic echocardiographically guided pericardiocenteses: clinical profile, practice patterns, and outcomes spanning 21 years. Mayo Clin Proc. 2002 May;77(5):429-36. PubMed PMID: 12004992. Surgical drainage may be preferable in certain situations, such as hemopericardium with clotted blood, concomitant surgical issues (eg, type A aortic dissection), or other conditions making needle drainage difficult or high risk (eg, posterior pericardial fluid collection, purulent effusion).
1. Therapeutic: Cardiac tamponade (a life-saving procedure).
2. Diagnostic: Pericardial effusion of unclear etiology if the fluid thickness on echocardiography (in diastole) is >20 mm.
Cardiac tamponade with aortic dissection (emergency cardiac surgery is necessary). In the case of diagnostic pericardiocentesis, relative contraindications include uncompensated coagulopathy (international normalized ratio [INR] ≥1.5, activated partial thromboplastin time [aPTT] >1.5 × upper limit of normal), anticoagulant treatment, platelet count <50,000/microL, and predominantly posterior pericardial effusion.
Potential Complications Top
Perforation of the myocardium or coronary vessels, air embolism, pneumothorax, arrhythmia (usually bradycardia resulting from a vasovagal response), inadvertent puncture of the peritoneum or abdominal organs.
Patient Preparation Top
Obtain informed consent. Place the patient in a supine position. Studies include echocardiography and coagulation tests.
1. Equipment for surgical field preparation and infiltration anesthesia.
2. Echocardiography or fluoroscopy equipment (if neither is available, transfer of the patient should be considered, if feasible).
3. Long needle with metal stylet (a Tuohy needle, thin-walled 18-gauge needle), central vein catheterization kit (a needle with a guidewire and a single-lumen catheter) or long sheathed angiocatheter and 3-way stopcock.
Site of Pericardiocentesis Top
Most frequently the apical or subcostal (subxiphoid) approach is used. The ideal entry site is the area with the largest fluid pocket on echocardiography that is closest to the skin.
1. Prepare the surgical field and use infiltration anesthesia of the skin.
2. Under sterile technique and guidance of echocardiography (bedside) or fluoroscopy (in the cardiac catheterization laboratory) insert the needle (a large-bore angiocatheter or needle used for central venous catheterization) connected to a syringe while aspirating continuously. The needle should be directed towards the largest pocket of pericardial fluid with the needle trajectory based on echocardiographic or fluoroscopic assessment. Needle placement in pericardial space can be confirmed by instillation of agitated saline and visualizing bubbles in pericardial space using echocardiography. Once the position is confirmed, fluid can be removed. If ongoing drainage is planned, insert a guidewire through the needle, withdraw the needle, insert a catheter over the guidewire, and remove the guidewire. Extended catheter drainage is associated with reduced rates of recurrence. Secure the catheter with a suture.
3. Drain the fluid in portions <1 L to help avoid acute right ventricular dilation or dysfunction. Maintain the drainage (catheter) until the aspirated fluid volume is <25 to 50 mL over 24 hours.
4. Collect samples for tests as in the case of pleural effusion (eg, cell count, gram stain, culture, acid-fast bacilli stain, lactate dehydrogenase, protein, cytology).