Comparative Morphometric and Histometric Evaluation of Power-Dependent Tissue Ablation Using Fractional Carbon Dioxide Laser.

IF 2.2 4区医学 Q3 DERMATOLOGY

Clinical, Cosmetic and Investigational Dermatology Pub Date : 2025-08-07 eCollection Date: 2025-01-01 DOI:10.2147/CCID.S534637

Hye Guk Ryu, Jinyoung Park, Hyemin Kim, Wanil Kim, Hwa-Rim Lee, Jeongah Ko, Sung Bin Cho

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Abstract

Background: Fractional carbon dioxide (CO₂) lasers are commonly used in dermatological resurfacing, offering precise ablation and controlled dermal remodeling. Although clinical outcomes vary with the energy and pulse settings, comparative morphometric and histometric data on power-dependent tissue interactions are limited.

Objective: To evaluate and compare fractional CO₂ laser-induced microscopic thermal zones (MTZs) ablation characteristics at peak powers of 30 W and 40 W using an ex vivo porcine skin model.

Methods: Ex vivo porcine skin was treated with a fractional CO₂ laser at energy levels ranging from 40 to 240 mJ under 30 W and 40 W settings. Frozen tissue was used for dermoscopic assessment of ablation diameters, while unfrozen tissue at physiological temperature (30-32°C) was analyzed histologically for ablation depth. Morphometric and histometric measurements were performed and statistically analyzed.

Results: The 30 W and 40 W settings demonstrated energy-dependent increases in ablation depth and diameter. The 40 W laser consistently generated deeper ablation columns (average 11.8% deeper) with narrower surface diameters (average 7.3% narrower) and reduced peripheral carbonization. Linear regression showed strong correlations between energy and ablation depth (r > 0.91) and diameter (r > 0.91), with higher slope coefficients in the 40 W group, indicating greater ablation efficiency.

Conclusion: The 40 W fractional CO₂ laser system offers enhanced precision, deeper dermal penetration, and reduced thermal diffusion compared with the 30 W, despite delivering equivalent total energy. These findings suggest that higher peak power settings may improve fractional resurfacing procedures' safety and clinical outcomes, particularly in populations with darker skin phototypes.

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使用分数二氧化碳激光进行功率依赖性组织消融的比较形态学和组织学评价。

背景：部分二氧化碳（CO2）激光通常用于皮肤表面修复，提供精确消融和控制皮肤重塑。虽然临床结果随能量和脉冲设置而变化，但能量依赖组织相互作用的比较形态计量学和组织计量学数据是有限的。目的：利用离体猪皮肤模型，评价和比较30 W和40 W峰值CO2激光诱导显微热区（MTZs）消融特性。方法：在30 W和40 W的设置下，用40 ~ 240 mJ的分数CO2激光处理离体猪皮肤。冷冻组织用于皮肤镜评估消融直径，而在生理温度（30-32°C）下未冷冻组织进行组织学分析消融深度。进行形态计量学和组织计量学测量并进行统计学分析。结果：30w和40w设置显示能量依赖于消融深度和直径的增加。40 W激光持续产生更深的烧蚀柱（平均深11.8%），表面直径更窄（平均窄7.3%），减少了周围的碳化。线性回归显示能量与烧蚀深度（r > 0.91）和直径（r > 0.91）有较强的相关性，且40 W组的斜率系数较高，表明烧蚀效率较高。结论：与30 W相比，40 W分数CO2激光系统具有更高的精度，更深的皮肤穿透，减少热扩散，尽管提供相同的总能量。这些发现表明，更高的峰值功率设置可能会提高局部表面换肤手术的安全性和临床结果，特别是在肤色较深的人群中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical, Cosmetic and Investigational Dermatology Medicine-Dermatology

CiteScore

2.80

自引率

4.30%

发文量

353

审稿时长

16 weeks

期刊介绍： Clinical, Cosmetic and Investigational Dermatology is an international, peer-reviewed, open access journal that focuses on the latest clinical and experimental research in all aspects of skin disease and cosmetic interventions. Normal and pathological processes in skin development and aging, their modification and treatment, as well as basic research into histology of dermal and dermal structures that provide clinical insights and potential treatment options are key topics for the journal. Patient satisfaction, preference, quality of life, compliance, persistence and their role in developing new management options to optimize outcomes for target conditions constitute major areas of interest. The journal is characterized by the rapid reporting of clinical studies, reviews and original research in skin research and skin care. All areas of dermatology will be covered; contributions will be welcomed from all clinicians and basic science researchers globally.