Issue 12, 2007

The role of oxygen monitoring during photodynamic therapy and its potential for treatment dosimetry

Abstract

Understanding of the biology of photodynamic therapy (PDT) has expanded tremendously over the past few years. However, in the clinical situation, it is still a challenge to match the extent of PDT effects to the extent of the disease process being treated. PDT requires drug, light and oxygen, any of which can be the limiting factor in determining efficacy at each point in a target organ. This article reviews techniques available for monitoring tissue oxygenation during PDT. Point measurements can be made using oxygen electrodes or luminescence-based optodes for direct measurements of tissue pO2, or using optical spectroscopy for measuring the oxygen saturation of haemoglobin. Imaging is considerably more complex, but may become feasible with techniques like BOLD MRI. Pre-clinical studies have shown dramatic changes in oxygenation during PDT, which vary with the photosensitiser used and the light delivery regimen. Better oxygenation throughout treatment is achieved if the light fluence rate is kept low as this reduces the rate of oxygen consumption. The relationship between tissue oxygenation and PDT effect is complex and remarkably few studies have directly correlated oxygenation changes during PDT with the final biological effect, although those that have confirm the value of maintaining good oxygenation. Real time monitoring to ensure adequate oxygenation at strategic points in target tissues during PDT is likely to be important, particularly in the image guided treatment of tumours of solid organs.

Graphical abstract: The role of oxygen monitoring during photodynamic therapy and its potential for treatment dosimetry

Article information

Article type
Perspective
Submitted
26 Jun 2007
Accepted
13 Sep 2007
First published
21 Sep 2007

Photochem. Photobiol. Sci., 2007,6, 1246-1256

The role of oxygen monitoring during photodynamic therapy and its potential for treatment dosimetry

J. H. Woodhams, A. J. MacRobert and S. G. Bown, Photochem. Photobiol. Sci., 2007, 6, 1246 DOI: 10.1039/B709644E

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