Abstract
Significance
Efficacious photodynamic therapy (PDT) of abscess cavities requires personalized treatment planning. This relies on knowledge of abscess wall optical properties, which we report for the first time in human subjects.
Aim
The objective was to extract optical properties and photosensitizer concentration from spatially-resolved diffuse reflectance measurements of abscess cavities prior to methylene blue (MB) PDT, as part of a Phase 1 clinical trial.
Approach
Diffuse reflectance spectra were collected at the abscess wall of 13 human subjects using a custom fiber-optic probe and optical spectroscopy system, before and after MB administration. A Monte Carlo lookup table was used to extract optical properties.
Results
Pre-MB abscess wall absorption coefficients at 665 nm were 0.15±0.1 cm −1 (0.03-0.36 cm −1 ) and 10.74±15.81 cm −1 (0.08-49.3 cm −1 ) post-MB. Reduced scattering coefficients at 665 nm were 8.45±2.37 cm −1 (4.8-13.2 cm −1 ) and 5.6±2.26 cm −1 (1.6-9.9 cm −1 ) for pre-MB and post-MB, respectively. Oxygen saturations were found to be 58.83±35.78% (5.6-100%) pre-MB and 36.29±25.1% (0.0001-76.4%) post-MB. Determined MB concentrations were 71.83±108.22 µM (0-311 µM).
Conclusions
We observed substantial inter-subject variation in both native wall optical properties and methylene blue uptake. This underscores the importance of making these measurements for patient-specific treatment planning.
Full Text Availability
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