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Model calculation on the efficiency of PDT by pulsed laser a pplication

Opto CANADA   9-10 May 2002 CAo6-515. Model calculation on the efficiency of PDT by pulsed laser a pplication. Hans-Georg Fercher, Dirk Meyer, and Hans-Jochen Foth, Dept. of Physics, University of Kaiserslautern Germany. Problem:.

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Model calculation on the efficiency of PDT by pulsed laser a pplication

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  1. Opto CANADA  9-10 May 2002 CAo6-515 Model calculation on the efficiency of PDT by pulsed laser application Hans-Georg Fercher, Dirk Meyer, and Hans-Jochen Foth, Dept. of Physics, University of Kaiserslautern Germany

  2. Problem: Cw-irradiation causes hypoxic regions between microvessels ð PDT becomes ineffective J.P. Henning et al. 1995 T.H. Foster et al. 1991 Solution: • Light fractionation • (on/off intervalls with Dt = 5 s to 60 s, T.H. Foster et al. 1992) • Pulsed systems • (pulsed flashlamp pumped dye laser with 15µs long pulses)

  3. Conditions for transient calculation  Laser parameters ·t = 15 ms ·    EP = 50 mJ ·l = 635 nm Distance between the capillaries ·    L = 100 mm Time dependent values of the concentrations are shown for the centre between the capillaries

  4. Numerical solution of the system of coupled differential equations on a personal computer

  5. Used constants

  6. Results for transient calculation

  7. Results for transient calculation

  8. Decrease of oxygen

  9. Results using the responce function

  10. Optimal treatment duration Goal: Treatment duration should be as short as possible Depletion of oxygen leads to low repetition rates which is in contrast to The treatment threshold is faster reached under high repetition rates

  11. Number of pulses to reach the threshold Therapeutic threshold = N = [O2] x pulse energy Decreases with increasingrepetition rate N Treatment duration = t = Repetition rate

  12. Conclusion Experimental finding: Efficiency of PDT is under pulsed laser exposure higher than under cw irradiation Results of this model calculations: The depletion of oxygen leads to a lower level of phototoxic compounds: Diffusion of oxygen is the bottle neck. Overlap of the efficiency and the mean power leads to a repetition rate around 5 Hz for the shortest treatment duration This value depends on the rate constants

  13. Result for transient calculations

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