Fluorescent Characteristics and Pharmacokinetic Profiles of the Fluorescent Probe BCECF in Various Tissues: The Role of Blood Content

Abstract

— The purpose of this study was to investigate the in vitro and in vivo spectral characteristics of the fluorescent pH-sensitive probe Ws-carboxyethylcarboxyfluorescein (BCECF) in different tissues and its fluorescence kinetics profiles. The in vivo study was performed on anesthetized adult Wistar rats. After intravenous administration (4.8 mg/kg), fluorescence spectra were recorded on the following tissues: skin, an isolated blood vessel and liver. Measurements performed in vitro on blood samples show modifications of the BCECF emission spectrum with a blue-shift (10 nm) and a low fluorescence emission. Blood content greatly influences the pH measurement by increasing the I(490 exc, 530 em.)/I(470 exc, 530 em.) fluorescence ratio value (ratio of the fluorescence intensities at 530 nm following excitation at 470 nm and 490 nm) when the hematocrit is high. A 0.35 ratio difference is observed between a BCECF-buffered solution and blood samples of 44% hematocrit. The emission spectra recorded on the skin are quite similar to the emission spectrum of BCECF in aqueous solution and are consistent with an extravascular localization of the dye a few minutes after injection. On the contrary, spectra recorded on the blood vessel and the liver are more similar than those recorded in vitro on high hematocrit solutions. Kinetic profiles in skin, liver and isolated blood vessels compared to the clearance obtained by blood sampling provide information about tissue perfusion. Then the variation of in vivo spectra in different tissues may be taken into account to measure tissue pH with special regard to the blood content of the illuminated area and the time range in which the measurement is performed.