模拟波长对脉冲染料激光治疗鲜红斑痣的影响。

Modeling the effect of wavelength on the pulsed dye laser treatment of port wine stains.

作者信息

Verkruysse W, Pickering J W, Beek J F, Keijzer M, van Gemert M J

出版信息

Appl Opt. 1993 Feb 1;32(4):393-8. doi: 10.1364/AO.32.000393.

DOI:10.1364/AO.32.000393

PMID:20802703

Abstract

To determine the influence of wavelength on the depth of vascular injury in port wine stains following pulsed dye laser treatment, we calculated fluence rates at wavelengths varying from 415 to 590 nm in a two-layer Monte Carlo model representing the epidermis and the dermis. Calculations were made for four different volumetric fractions of blood in the dermis: 0%, 1%, 5%, and 10%. The depth of the selective vascular injury was determined to be the depth at which the rate of temperature rise at some point within the vessel just equals that at the epidermal-dermal junction. This was maximal between 577 and 590 nm with the maximum shifted toward 590 nm for a greater dermal blood content and for larger vessels. The effect of greater epidermal pigmentation was not only to reduce the depth of vascular injury but to shift slightly the wavelength of the maximum vascular injury to a shorter wavelength.

摘要

为了确定波长对脉冲染料激光治疗鲜红斑痣时血管损伤深度的影响，我们在一个代表表皮和真皮的两层蒙特卡罗模型中，计算了波长在415至590nm范围内的能量密度率。针对真皮中四种不同的血液体积分数进行了计算：0%、1%、5%和10%。选择性血管损伤的深度被确定为血管内某一点的温度上升速率恰好等于表皮 - 真皮交界处温度上升速率时的深度。这在577至590nm之间达到最大值，对于更高的真皮血液含量和更大的血管，最大值向590nm偏移。表皮色素沉着增加的影响不仅是降低血管损伤深度，还会使最大血管损伤的波长略微向较短波长偏移。

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模拟波长对脉冲染料激光治疗鲜红斑痣的影响。

Modeling the effect of wavelength on the pulsed dye laser treatment of port wine stains.

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