Patent foramen ovale (PFO) is implicated in platypnea-orthodeoxia, stroke and decompression
sickness (DCS) in divers and astronauts. However, PFO size in relation to clinical
illness is largely unknown since few studies evaluate PFO, either functionally or
anatomically. The autopsy incidence of PFO is approximately 27% and 6% for a large
defect (0.6 cm to 1.0 cm). A PFO is often associated with atrial septal aneurysm and
Chiari network, although these anatomic variations are uncommon. Methodologies for
diagnosis and anatomic and functional sizing of a PFO include transthoracic echocardiography
(TTE), transesophageal echocardiography (TEE) and transcranial Doppler (TCD), with
saline contrast. Saline injection via the right femoral vein appears to have a higher
diagnostic yield for PFO than via the right antecubital vein. Saline contrast with
TTE using native tissue harmonics or transmitral pulsed wave Doppler have quantitated
PFO functional size, while TEE is presently the reference standard. The platypnea-orthodeoxia
syndrome is associated with a large resting PFO shunt. Transthoracic echocardiography,
TEE and TCD have been used in an attempt to quantitate PFO in patients with cryptogenic
stroke. The larger PFOs (approximately > or =4 mm size) or those with significant
resting shunts appear to be clinically significant. Approximately two-thirds of divers
with unexplained DCS have a PFO that may be responsible and may be related to PFO
size. Limited data are available on the incidence of PFO in high altitude aviators
with DCS, but there appears to be a relationship. A large decompression stress is
associated with extra vehicular activity (EVA) from spacecraft. After four cases of
serious DCS in EVA simulations, a resting PFO was detected by contrast TTE in three
cases. Patent foramen ovales vary in both anatomical and functional size, and the
clinical impact of a particular PFO in various situations (platypnea-orthodeoxia,
thromboembolism, DCS in underwater divers, DCS in high-altitude aviators and astronauts)
may be different.