Internal structuring of silica glass fibers: Requirements for scattered light applicators for the usability in medicine

J. Köcher, V. Knappe, M. Schwagmeier
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引用次数: 5

Abstract

Abstract Background: Diffuser fibers have been used for some time in the fields of laser-induced thermotherapy and photodynamic therapy. For their applicability the breaking strength, the thermostability and a homogeneous radiation profile are of great importance. Flexible applicators offer special benefits because they introduce a totally new range of application possibilities. Objective: The aim of the presented investigations was to develop a totally new flexible diffuser fiber generation which can be produced cheaper and without the use of any further materials. For this purpose it was proposed to induce scattering micro dots directly into silica fibers by generating a local change of the refractive index in the core of the optical fiber. The resulting diffuser was expected to create a homogeneous radiation profile containing at least 80% of the light coupled into the optical fiber, i.e. less than 20% prograde (forward) emission. Materials and methods: On the basis of former research results, scattering micro dots were induced linearly into the core of an optical silica fiber through a multiple photon process using a femtosecond laser. In addition to the macroscopic optical control by means of a microscope, the form of the radiation profile was examined as well as the non-scattered forward emission which depends on a variety of influencing factors. The processing was optimized according to the observations made. The thermostability of the developed prototypes was assessed by using a thermocamera, and the minimal bending radius was determined. Finally the prototypes were tested and validated ex vivo using porcine liver. Results: An influence of the processing power, the number and radial position of the scattering micro dots as well as the therapeutic coupled-in wavelength onto the form of the radiation profile and the non-scattered forward emission was determined. Both the form of the radiation profile and the prograde emission were found to be independent of the therapeutic laser power coupled into the fiber. The developed prototype had a nearly homogeneous radiation profile, a forward emission of 12.8±2.1% in average, and a minimum bending radius of 31±6 mm. Conclusion: The non-scattered forward emission of the developed diffusers was within the objective of below 20% and the radiation profile was very nearly homogeneous. In order to improve the reproducibility of the production process, an improved fixation apparatus needs to be developed.
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二氧化硅玻璃纤维的内部结构:医学用散射光照射器的要求
摘要背景:扩散光纤在激光热疗和光动力治疗领域的应用已经有一段时间了。断裂强度、热稳定性和均匀辐射分布对其适用性至关重要。灵活的涂抹器提供特殊的好处,因为它们引入了一个全新的应用范围的可能性。目的:本研究的目的是开发一种全新的柔性扩散光纤,它可以更便宜地生产,并且不需要使用任何其他材料。为此,提出了通过在光纤芯部产生局部折射率变化来直接诱导散射微点进入二氧化硅光纤的方法。由此产生的扩散器预计将产生均匀的辐射剖面,其中至少包含80%耦合到光纤中的光,即少于20%的前向(前向)发射。材料与方法:在前人研究成果的基础上,利用飞秒激光,通过多光子工艺将散射微点线性诱导到石英光纤芯中。除了利用显微镜进行宏观光学控制外,还研究了辐射剖面的形式以及受多种影响因素影响的前向非散射发射。根据观察结果对工艺进行了优化。使用热像仪评估了所开发原型的热稳定性,并确定了最小弯曲半径。最后,利用猪肝对原型进行了体外测试和验证。结果:确定了处理功率、散射微点的数量和径向位置以及治疗耦合波长对辐射轮廓和非散射正向发射形式的影响。研究发现,辐射轮廓的形式和渐变发射与耦合到光纤中的治疗激光功率无关。所开发的原型具有几乎均匀的辐射分布,平均正向辐射为12.8±2.1%,最小弯曲半径为31±6 mm。结论:研制的扩散器的非散射正向辐射在20%以下的目标范围内,辐射分布非常均匀。为了提高生产过程的再现性,需要开发一种改进的固定装置。
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