Hydropneumopericardium: A rare complication of pericardiocentesis

INTRODUCTION

Hydropneumopericardium is defined as air and water in the pericardial cavity. Various causes have been postulated for its occurrence and pericardiocentesis is one of them, albeit rare. Hydropneumopericardium can be asymptomatic or symptomatic, when substantial. The patient, most commonly, presents with increasing dyspnoea following temporary relief after pericardiocentesis. As it can potentially lead to cardiac tamponade, it needs to be managed promptly. Hydropneumopericardium can be drained using local anaesthesia through the subxiphoid route under 2-dimensional (2D) echocardiographic guidance. The causes leading to hydropneumopericardium should be sought out to avoid this life-threatening though avoidable pathology.

THE CASE

A 35-year-old man was referred to the emergency department with a complaint of low-grade fever for 1 month and progressively increasing dyspnoea for 15 days. On examination, his blood pressure was 84/56 mmHg, pulse rate was 88/minute, on auscultation, the chest had vesicular breath sounds bilaterally with muffled cardiac sounds. Twelve-lead electrocardiography showed low voltage complexes (Fig. 1). Chest X-ray revealed cardiomegaly without any evident pulmonary pathology (Fig. 2). 2D echocardiogram elicited massive pericardial effusion with tamponade physiology. Urgent, echo-guided, subxiphoid, percutaneous pericardiocentesis was performed through a 6 F-single lumen catheter and 1.5 L haemorrhagic fluid was drained with consequent clinical improvement. The patient was relieved of dyspnoea, and the sheath was left in situ. Pericardial fluid was sent for examination and reports showed total leucocyte count of 1250/cmm with 90% lymphocytes, protein 5.9 g/dl, glucose 45 mg/dl, adenosine deaminase enzyme 79 i.u./L, lactate dehydrogenase 459 i.u./L, polymerase chain reaction for tuberculosis was negative, Monteux 5 purified protein derivative was strongly positive, and the Gram and Ziehl–Neelsen stain was negative. Given the high prevalence of tuberculosis in the region, the patient was started on antitubercular therapy. The patient was reviewed for residual fluid twice a day, and by the end of day 3, only minimal pericardial effusion was present and so we planned to take out the sheath the next day before planning discharge.

FIG 1.: Twelve-lead electrocardiogram showing low voltage complexes in limb leads as wells as precordial leads suggestive of pericardial effusion

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FIG 2.: Chest X-ray posteroanterior view showing massive cardiomegaly

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Three days following presentation, the patient complained of dyspnoea and chest pain. The patient’s blood pressure was low and he had tachycardia. A chest X-ray showed hydropneumo-pericardium and mild right-sided pulmonary oedema (Fig. 3). 2D echo showed swirling bubbles in the pericardial cavity. CT scan of the chest confirmed pneumopericardium with an anterior extent (Fig. 4).

FIG 3.: Chest X-ray posteroanterior view showing cardiomegaly secondary to massive hydropneumopericardium with air fluid interface in pericardial space (arrow)

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FIG 4.: Axial slice of contrast-enhanced computed tomography thorax of the same patient showing hydropneumopericardium

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Approximately 500 ml of pericardial air was evacuated rapidly through the subxiphoid drain, and the catheter was left in situ (Fig. 5). The patient reported improvement in dyspnoea. The patient remained symptom-free subsequently. A repeat 2D echo showed minimal effusion. The hydropneumopericardium was considered to be iatrogenic and the patient was discharged a week later after stabilization.

FIG 5.: Chest X-ray posteroanterior view after drainage of fluid and air. Pigtail catheter can be seen in situ (arrow)

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DISCUSSION

Hydropneumopericardium is defined as the presence of air in the pericardial cavity. It can result occasionally after trauma or spontaneously without an underlying cause in a healthy adult and rarely after pericardiocentesis (Table I). It has been attributed either to a direct pleuro-pericardial communication or to an air leakage to the pericardial drainage system.14 In our patient, the plausible hypothesis for hydropneumopericardium was a leaky drainage system.

TABLE I.: Causes of hydropneumopericardium

Trauma: Blunt/penetrating Pericardial infection Fistula formation between pericardium and adjacent air-containing organ Oesophageal/gastric ulcer Tuberculosis Achalasia Subphrenic colonic abscess Pneumonia and abscess Pulmonary aspergillosis Iatrogenic Positive pressure ventilation Post-sternal bone marrow aspiration Laparoscopy Post-cauterization of oesophageal webs Tracheostomy Pericardiocentesis Endotracheal intubation Radiofrequency ablation Thoracocentesis Insertion of a pacemaker Paracentesis

Most of the time iatrogenic hydropneumopericardium requires no specific therapy but in some patients, life-threatening complications, especially pericardial tamponade, can occur and require prompt recognition and adequate management.3,4 Hydropneumopericardium is relatively easy to diagnose by chest X-ray which reveals lucent outline separating the pericardium from the heart or by echocardiography which shows the swirling bubbles sign in the pericardial cavity.3,5,6

The hydropneumopericardium has a variable clinical course and the gravest complication is tension pneumopericardium which can be fatal. It is clear that the abundance and especially the speed of constitution of pneumopericardium are the main determinants of clinical severity that will guide, along with the underlying aetiology, the therapeutic strategy.46 In the case of iatrogenic pneumopericardium following pericardiocentesis for pericardial effusion, a re-pericardiocentesis is indicated if the patient is haemodynamically unstable. Watchful waiting for spontaneous absorption of air under close monitoring is indicated in the absence of acute and life-threatening tension pneumopericardium.3,4,7

Both percutaneous and open drainage of the pericardial sac are invasive procedures with the risk of morbidity and mortality. These should be reserved for patients with evidence of haemodynamic compromise attributable to cardiac tamponade. A higher index of suspicion should be maintained in ventilated patients. Tension pneumopericardium mandates drainage of the pericardial sac. This may be achieved through percutaneous or open technique. The subxiphoid approach provides rapid and effective drainage.

Conclusion

Hydropneumopericardium is an uncommon and avoidable complication of pericardiocentesis. It should be suspected whenever the patient develops increasing dyspnoea following a temporary relief by pericardiocentesis. It is easy to diagnose it by chest X-ray as well as 2D echocardiography. When symptomatic, it should be managed by urgent drainage through the subxiphoid route under echocardiographic guidance.

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