Eddy Forte scite author profile

Tissular oxygen concentration plays a key role during photodynamic therapy (PDT). Therefore, monitoring its local oxygen partial pressure (pO2) may help predict and/or control the outcome of a PDT treatment. The first real-time, in vivo measurements of the pO2 in the chicken egg’s chorioallantoic membrane, using the delayed fluorescence of photoactivable porphyrins (PAPs), including protoporphyrin IX (PpIX), as monitored with a dedicated optical, fiber-based, time-resolved spectrometer, are reported here. The formation of PAPs/PpIX, photosensitizers of extensive clinical use, was induced in the chicken egg’s chorioallantoic membrane (CAM) with aminolevulinic acid. An excellent correlation between the vascular damage induced by PDT and the reduction in tissular pO2 is found. This study suggests that clinical measurement of the pO2 using the PAPs’/PpIX’s delayed fluorescence (DF) may be used to individualize in real time the PDT light dose applied.

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The Ariadne knowledge pool system

Duval

Forte

Cardinaels

et al. 2001

Commun. ACM

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The heat of formation of the nitric oxide dimer and its UV spectrum

Forte

Bergh

1978

Chemical Physics

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Optical fiber-based setup for in vivo measurement of the delayed fluorescence lifetime of oxygen sensors

et al. 2011

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A new optical-fiber-based spectrofluorometer for in vivo or in vitro detection of delayed fluorescence is presented and characterized. This compact setup is designed so that it can be readily adapted for future clinical use. Optical excitation is done with a nitrogen laser-pumped, tunable dye laser, emitting in the UV-vis part of the spectrum. Excitation and luminescence signals are carried to and from the biological tissues under investigation, located out of the setup enclosure, by a single optical fiber. These measurements, as well as measurements performed without a fiber on in vitro samples in a thermostable quartz cell, in a controlled-atmosphere enclosure, are possible due to the efficient collection of the laser-induced luminescence light which is collected and focused on the detector with a high aperture parabolic mirror. The detection is based on a gated photomultiplier which allows for time-resolved measurements of the delayed fluorescence intensity. Thus, relevant luminescence lifetimes, typically in the sub-microsecond-to-millisecond range, can be measured with near total rejection of the sample's prompt fluorescence. The instrument spectral and temporal resolution, as well as its sensitivity, is characterized and measurement examples are presented. The primary application foreseen for this setup is the monitoring and adjustment of the light dose delivered during photodynamic therapy.

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The ARIADNE Project (Part 1): Knowledge Pools for Computer-based and Telematics-supported Classical, Open and Distance Education

Forte¹,

Forte²,

Duval³

1997

European Journal of Engineering Education

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Eddy Forte

Real-time,in vivomeasurement of tissular pO2 through the delayed fluorescence of endogenous protoporphyrin IX during photodynamic therapy

The Ariadne knowledge pool system

The heat of formation of the nitric oxide dimer and its UV spectrum

Optical fiber-based setup for in vivo measurement of the delayed fluorescence lifetime of oxygen sensors

The ARIADNE Project (Part 1): Knowledge Pools for Computer-based and Telematics-supported Classical, Open and Distance Education

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