Quantifying glucose permeability and enhanced light penetration in ex vivo human normal and cancerous esophagus tissues with optical coherence tomography

We report our pilot results on quantification of glucose (G) diffusion permeability in human normal esophagus and ESCC tissues in vitro by using OCT technique. The permeability coefficient of 40% aqueous solution of G was found to be (1.74±0.04)×10 -5 cm/s in normal esophagus and (2.45±0.06)×10 -5 cm/s in ESCC tissues. The results from this study indicate that ESCC tissues had a higher permeability coefficient compared to normal esophageal tissues, and the light penetration depths gradually increase with the increase of applied topically with G time for the normal esophageal and ESCC tissues. The results indicate that the permeability coefficient of G in cancer tissues was 1.41-fold than that in normal tissues, and the light penetration depth for the ESCC tissues is significantly smaller than that of normal esophagus tissues in the same time range. These results demonstrate that the optical clearing of normal and cancer esophagus tissues are improved after application of G. Equilibrium Glucose diffusion OCT signal slope, arb. units 0.9 1.0 0.8 0.7 120 0 2 0 4 0 6 0 8 0 1 0 0 Time, min OCT signal Smoothed OCT signal slope Glucose add OCTSS graphs as a function of time recorded from ESCC tissues during G 40% diffusion experiments