体内使用孟加拉玫瑰红-绿光和核黄素-紫外线A进行胶原交联后的生物力学变化

Biomechanical Changes After In Vivo Collagen Cross-Linking With Rose Bengal-Green Light and Riboflavin-UVA.

作者信息

Bekesi Nandor, Gallego-Muñoz Patricia, Ibarés-Frías Lucía, Perez-Merino Pablo, Martinez-Garcia M Carmen, Kochevar Irene E, Marcos Susana

机构信息

Instituto de Optica, Consejo Superior de Investigaciones Cientificas, Madrid, Spain.

Departamento de Biología Celular, Histología y Farmacología, GIR de Técnicas Ópticas para el Diagnóstico, Universidad de Valladolid, Valladolid, Spain.

出版信息

Invest Ophthalmol Vis Sci. 2017 Mar 1;58(3):1612-1620. doi: 10.1167/iovs.17-21475.

DOI:10.1167/iovs.17-21475

PMID:28297026

Abstract

PURPOSE

To compare corneal biomechanical properties after in vivo and ex vivo cross-linking (CXL) using rose bengal-green light (RGX) or riboflavin-UVA (UVX).

METHODS

Corneas of 30 rabbits were treated in vivo by the two CXL modalities monolaterally (Group 1) or bilaterally (Group 2). Rabbits in Group 1 were euthanized 1 month after treatments and in Group 2 two months after treatment. Ex vivo CXL was also performed. Eyes were measured by Scheimpflug air puff corneal deformation imaging (Corvis ST) under constant IOP. Corneal deformation parameters were assessed. Inherent corneal biomechanical properties were estimated using inverse finite element modeling.

RESULTS

Peak to peak distance decreased 16% 2 months after RGX, and 4% and 20% 1 and 2 months after UVX, respectively. The equivalent Young's modulus (Eeq) increased relative to the control during the post treatment period for both RGX and UVX. The Eeq increased by factors of 3.4 (RGX) and 1.7 (UVX) 1 month and by factors of 10.7 (RGX) and 7.3 (UVX) 2 months after treatment. However, the Eeq values for ex vivo CXL were much greater than produced in vivo. The ex vivo Eeq was greater than the 1-month in vivo values by factors of 8.1 (RGX) and 9.1 (UVX) and compared with 2 month by factors of 2.5 (RGX) and 2.1 (UVX).

CONCLUSIONS

These results indicate that corneal stiffness increases after CXL, and further increases as a function of time after both RGX and UVX. Also, while biomechanical properties determined after ex vivo CXL are indicative of corneal stiffening, they may not provide entirely accurate information about the responses to CXL in vivo.

摘要

目的

比较使用孟加拉玫瑰红-绿光（RGX）或核黄素-紫外线A（UVX）进行体内和体外交联（CXL）后角膜的生物力学特性。

方法

30只兔子的角膜通过两种CXL方式进行单侧（第1组）或双侧（第2组）体内治疗。第1组兔子在治疗后1个月安乐死，第2组兔子在治疗后2个月安乐死。还进行了体外CXL。在恒定眼压下，通过Scheimpflug吹气式角膜变形成像（Corvis ST）测量眼睛。评估角膜变形参数。使用反向有限元建模估计角膜固有生物力学特性。

结果

RGX治疗2个月后峰峰值距离减少16%，UVX治疗1个月和2个月后分别减少4%和20%。在治疗后的时期内，RGX和UVX的等效杨氏模量（Eeq）相对于对照均增加。治疗后1个月，Eeq分别增加3.4倍（RGX）和1.7倍（UVX），治疗后2个月分别增加10.7倍（RGX）和7.3倍（UVX）。然而，体外CXL的Eeq值远高于体内产生的值。体外Eeq比体内1个月的值大8.1倍（RGX）和9.1倍（UVX），与2个月的值相比大2.5倍（RGX）和2.1倍（UVX）。

结论

这些结果表明，CXL后角膜硬度增加，并且在RGX和UVX后均随时间进一步增加。此外，虽然体外CXL后确定的生物力学特性表明角膜变硬，但它们可能无法提供关于体内对CXL反应的完全准确信息。

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体内使用孟加拉玫瑰红-绿光和核黄素-紫外线A进行胶原交联后的生物力学变化

Biomechanical Changes After In Vivo Collagen Cross-Linking With Rose Bengal-Green Light and Riboflavin-UVA.

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