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角膜生物力学研究2:使用布里渊显微镜和动态Scheimpflug成像技术对角膜交联术前和术后的比较评估。

KERATO Biomechanics Study 2: A Comparative Evaluation Before and After Corneal Cross-Linking Using Brillouin Microscopy and Dynamic Scheimpflug Imaging.

作者信息

Vinciguerra Riccardo, Herber Robert, Cen Kaman Zeng, Romano Mario R, Raiskup Frederik, Khoramnia Ramin, Vinciguerra Paolo

出版信息

J Refract Surg. 2025 Jun;41(6):e594-e601. doi: 10.3928/1081597X-20250506-01. Epub 2025 Jun 1.

DOI:10.3928/1081597X-20250506-01
PMID:40488477
Abstract

PURPOSE

To evaluate biomechanical changes induced by epithelium-off corneal cross-linking (CXL) in progressive keratoconus using Brillouin microscopy (BOSS; Intelon Optics) and ultra-high-speed Scheimpflug camera (Corvis ST; Oculus Optikgeräte GmbH).

METHODS

Twenty-three eyes from 24 patients were included in this retrospective, multicenter study. Biomechanical properties were assessed before and 1 month after CXL using the BOSS and Corvis ST. Brillouin measurements included mean, minimum, and maximum Brillouin frequency shift (BFS) and sectors (inferior, equator, and superior). The Corvis ST assessed dynamic corneal response (DCR) parameters, including inverse concave radius (1/R) and stress-strain index (SSI). Statistical analyses included Wilcoxon tests, Pearson correlation, and linear mixed models, with adjustments for corneal pachymetry.

RESULTS

Brillouin microscopy demonstrated significant stiffening after CXL, with increases in mean BFS and maximum BFS, together with inferior and equatorial regions ( < .001). A strong correlation was observed between preoperative BFS and postoperative changes ( = 0.597, < .001). The Corvis ST confirmed biomechanical stiffening with a significant decrease in 1/R values ( = .002), although no significant changes were observed in SSI.

CONCLUSIONS

Both Brillouin microscopy and the Corvis ST effectively detected corneal stiffening after CXL, with Brillouin technology offering localized biomechanical insights. These findings highlight the potential of Brillouin microscopy for guiding customized CXL treatments and underscore its complementary role alongside the Corvis ST. .

摘要

目的

使用布里渊显微镜(BOSS;Intelon Optics)和超高速Scheimpflug相机(Corvis ST;Oculus Optikgeräte GmbH)评估上皮移除角膜交联术(CXL)对圆锥角膜进展期角膜生物力学变化的影响。

方法

本回顾性多中心研究纳入了24例患者的23只眼睛。在CXL术前和术后1个月使用BOSS和Corvis ST评估生物力学特性。布里渊测量包括平均、最小和最大布里渊频移(BFS)以及扇形区域(下方、赤道和上方)。Corvis ST评估动态角膜反应(DCR)参数,包括反凹半径(1/R)和应力应变指数(SSI)。统计分析包括Wilcoxon检验、Pearson相关性分析和线性混合模型,并对角膜厚度进行了校正。

结果

布里渊显微镜显示CXL术后角膜显著变硬,平均BFS和最大BFS增加,下方和赤道区域也有增加(P <.001)。术前BFS与术后变化之间存在强相关性(r = 0.597,P <.001)。Corvis ST证实了生物力学变硬,1/R值显著降低(P =.002),尽管SSI未观察到显著变化。

结论

布里渊显微镜和Corvis ST均能有效检测CXL术后角膜变硬,布里渊技术可提供局部生物力学信息。这些发现凸显了布里渊显微镜在指导定制CXL治疗方面的潜力,并强调了其与Corvis ST的互补作用。

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