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The foramen ovale is a remnant from embryologic heart development that usually closes within a few years after birth1. Previously, a patent foramen ovale (PFO) was found in 27.3% of cases in an autopsy study of 965 normal hearts2 and in 25.6% of the 581 subjects in a transesophageal echocardiography (TEE) study3. There are no significant differences with respect to sex or race/ethnicity2,3,4, and autopsy data show that the PFO diameter in adults varies from 1 mm to 19 mm (average: 4.9 mm) and increases with age5.
In up to 25% of all ischemic stroke cases, the cause cannot be attributed to clear factors such as the atherosclerosis of large vessels, small artery disease, or cardiac embolism despite extensive vascular, serological, and cardiac evaluation, hence the designation "cryptogenic stroke"6,7. Venous thrombus migration, through a PFO into the arterial circulation, has been shown as a possible cause of stroke in several studies and also by the imaging of the thrombus in transit8,9. PFO can be diagnosed with transthoracic contrast echocardiography when a contrast appears in the left atrium of the heart after filling the right atrium or within three heartbeat cycles after the Valsalva maneuver is terminated. Here, the shunt can be graded using the number of bubbles appearing in the left atrium: Grade 1 (fewer than 5 bubbles), Grade 2 (6-25 bubbles), Grade 3 (25 or more bubbles), and Grade 4 (visualization of the bubbles in the entire heart chamber)10. Further, transesophageal echocardiography (TEE) is necessary to evaluate the specific PFO morphology (see Figure 1). Certain findings are associated with a higher rate of thromboembolic events. These high-risk PFOs may have a large size, the presence of an atrial aneurysm (defined as an excursion of the septal tissue of more than 10 mm from the plane of the atrial septum into the right or left atrium), a large eustachian valve, spontaneous left-to-right shunts, and hypermobility of the septum during the Valsalva maneuver11. A number of scores, such as the RoPE score12, have been established to determine the probability that a discovered PFO is pathogenic. Finally, the PFO closure procedure is recommended by current guidelines for patients with cryptogenic stroke at 16 years to 60 years of age13. A further indication of this procedure is drug-resistant migraines.
Transesophageal echocardiography is regarded as the gold standard for the diagnosis of PFO and is utilized for the procedural planning of PFO closure. This procedure is performed percutaneously in a minimally invasive fashion in a standard cardiac catheterization laboratory using fluoroscopy, TEE guidance, and physiological monitoring. Intracardiac echocardiography (ICE) may be considered as an alternative to TEE by experienced operators14.
We describe the PFO-closure procedure under TEE and fluoroscopic guidance using a double-disc device made from a Nitinol (nickel titanium) wire mesh (i.e., the PFO occluder)15, as depicted in Figure 2.