We report the first-ever intra-tissue pressure measurement performed during 1064 nm laser
ablation (LA) of an ex vivo porcine liver. Pressure detection has been performed with a biocompatible,
all-glass, temperature-insensitive Extrinsic Fabry-Perot Interferometry (EFPI) miniature probe;
the proposed methodology mimics in-vivo treatment. Four experiments have been performed,
positioning the probe at different positions from the laser applicator tip (from 0.5 mm to 5 mm).
Pressure levels increase during ablation time, and decrease with distance from applicator tip: the
recorded peak parenchymal pressure levels range from 1.9 kPa to 71.6 kPa. Different pressure
evolutions have been recorded, as pressure rises earlier in proximity of the tip. The present study
is the first investigation of parenchymal pressure detection in liver undergoing LA: the successful
detection of intra-tissue pressure may be a key asset for improving LA, as pressure levels have been
correlated to scattered recurrences of tumors by different studies.