Optical penetration models for practical prediction of femtosecond laser ablation of dental hard tissue

IF 2.2 3区 医学 Q2 DERMATOLOGY
Peter L. Woodfield PhD, Andrei V. Rode PhD, Dzung Dao PhD, Van Thanh Dau PhD, Steve Madden PhD, Laurence J. Walsh PhD, Heiko Spallek PhD, Lee Walsh PhD, Andrew J. Sutton PhD, Omar Zuaiter MPP, Alaa Habeb MCyberSec, Timothy R. Hirst PhD, Ludovic Rapp PhD
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Abstract

Objectives

To develop and practically test high-precision femtosecond laser ablation models for dental hard tissue that are useful for detailed planning of automated laser dental restorative treatment.

Methods

Analytical models are proposed, derived, and demonstrated for practical calculation of ablation rates, ablation efficiency and ablated morphology of human dental enamel and dentin using femtosecond lasers. The models assume an effective optical attenuation coefficient for the irradiated material. To achieve ablation, it is necessary for the local energy density of the attenuated pulse in the hard tissue to surpass a predefined threshold that signifies the minimum energy density required for material ionization. A 1029 nm, 40 W carbide 275 fs laser was used to ablate sliced adult human teeth and generate the data necessary for testing the models. The volume of material removed, and the shape of the ablated channel were measured using optical profilometry.

Results

The models fit with the measured ablation efficiency curve against laser fluence for both enamel and dentin, correctly capturing the fluence for optimum ablation and the volume of ablated material per pulse. The detailed shapes of a 400-micrometer wide channel and a single-pulse width channel are accurately predicted using the superposition of the analytical result for a single pulse.

Conclusions

The findings have value for planning automated dental restorative treatment using femtosecond lasers. The measurements and analysis give estimates of the optical properties of enamel and dentin irradiated with an infrared femtosecond laser at above-threshold fluence and the proposed models give insight into the physics of femtosecond laser processing of dental hard tissue.

Abstract Image

用于实际预测飞秒激光烧蚀牙科硬组织的光学穿透模型。
目的开发并实际测试用于牙科硬组织的高精度飞秒激光烧蚀模型,该模型有助于详细规划自动激光牙科修复治疗:提出、推导并演示分析模型,用于实际计算使用飞秒激光的人类牙釉质和牙本质的烧蚀率、烧蚀效率和烧蚀形态。这些模型假定了照射材料的有效光学衰减系数。要实现烧蚀,硬组织中衰减脉冲的局部能量密度必须超过预定的阈值,该阈值表示材料电离所需的最小能量密度。使用波长为 1029 nm、功率为 40 W 的碳化物 275 fs 激光器烧蚀成人牙齿切片,并生成测试模型所需的数据。结果:结果:模型与测量到的珐琅质和牙本质消融效率与激光能量曲线相吻合,正确捕捉到了最佳消融能量和每个脉冲消融材料的体积。利用单脉冲分析结果的叠加,可以准确预测 400 微米宽通道和单脉冲宽度通道的详细形状:结论:研究结果对规划使用飞秒激光的自动牙科修复治疗很有价值。通过测量和分析,可以估算出红外飞秒激光以高于阈值的通量照射牙釉质和牙本质时的光学特性,而所提出的模型则有助于深入了解飞秒激光处理牙科硬组织的物理学原理。
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来源期刊
CiteScore
5.40
自引率
12.50%
发文量
119
审稿时长
1 months
期刊介绍: Lasers in Surgery and Medicine publishes the highest quality research and clinical manuscripts in areas relating to the use of lasers in medicine and biology. The journal publishes basic and clinical studies on the therapeutic and diagnostic use of lasers in all the surgical and medical specialties. Contributions regarding clinical trials, new therapeutic techniques or instrumentation, laser biophysics and bioengineering, photobiology and photochemistry, outcomes research, cost-effectiveness, and other aspects of biomedicine are welcome. Using a process of rigorous yet rapid review of submitted manuscripts, findings of high scientific and medical interest are published with a minimum delay.
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