使用光学相干断层扫描技术对角膜和巩膜中分析物扩散进行无损定量分析。

Nondestructive quantification of analyte diffusion in cornea and sclera using optical coherence tomography.

作者信息

Ghosn Mohamad G, Tuchin Valery V, Larin Kirill V

机构信息

Biomedical Engineering Program, University of Houston, Houston, Texas 77204, USA.

出版信息

Invest Ophthalmol Vis Sci. 2007 Jun;48(6):2726-33. doi: 10.1167/iovs.06-1331.

DOI:10.1167/iovs.06-1331

PMID:17525205

Abstract

PURPOSE

Noninvasive functional imaging, monitoring, and quantification of analytes transport in epithelial ocular tissues are extremely important for therapy and diagnostics of many eye diseases. In this study the authors investigated the capability of optical coherence tomography (OCT) for noninvasive monitoring and quantification of diffusion of different analytes in sclera and cornea of rabbit eyes.

METHODS

A portable time-domain OCT system with wavelength of 1310 +/- 15 nm, output power of 3.5 mW, and resolution of 25 mum was used in this study. Diffusion of different analytes was monitored and quantified in rabbit cornea and sclera of whole eyeballs. Diffusion of water, metronidazole (0.5%), dexamethasone (0.2%), ciprofloxacin (0.3%), mannitol (20%), and glucose solution (20%) were examined, and their permeability coefficients were calculated by using OCT signal slope and depth-resolved amplitude methods.

RESULTS

Permeability coefficients were calculated as a function of time and tissue depth. For instance, mannitol was found to have a permeability coefficient of (8.99 +/- 1.43) x 10(-6) cm/s in cornea and (6.18 +/- 1.08) x 10(-6) cm/s in sclera. The permeability coefficient of drugs with small concentrations (where water was the major solvent) was found to be in the range of that of water in the same tissue type, whereas permeability coefficients of higher concentrated solutions varied significantly.

CONCLUSIONS

Results suggest that the OCT technique might be a powerful tool for noninvasive diffusion studies of different analytes in ocular tissues. However, additional methods of OCT signal acquisition and processing are required to study the diffusion of agents of small concentrations.

摘要

目的

上皮性眼组织中分析物转运的无创功能成像、监测和定量对于许多眼部疾病的治疗和诊断极为重要。在本研究中，作者研究了光学相干断层扫描（OCT）对兔眼巩膜和角膜中不同分析物扩散进行无创监测和定量的能力。

方法

本研究使用了一台便携式时域OCT系统，其波长为1310±15nm，输出功率为3.5mW，分辨率为25μm。在兔全眼球的角膜和巩膜中监测和定量不同分析物的扩散。检测了水、甲硝唑（0.5%）、地塞米松（0.2%）、环丙沙星（0.3%）、甘露醇（20%）和葡萄糖溶液（20%）的扩散情况，并使用OCT信号斜率和深度分辨振幅法计算它们的渗透系数。

结果

渗透系数作为时间和组织深度的函数进行计算。例如，发现甘露醇在角膜中的渗透系数为（8.99±1.43）×10⁻⁶cm/s，在巩膜中的渗透系数为（6.18±1.08）×10⁻⁶cm/s。发现低浓度药物（以水为主要溶剂）的渗透系数与同一组织类型中水的渗透系数范围相同，而高浓度溶液的渗透系数差异显著。

结论

结果表明，OCT技术可能是用于眼部组织中不同分析物无创扩散研究的有力工具。然而，需要额外的OCT信号采集和处理方法来研究低浓度药物的扩散。

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使用光学相干断层扫描技术对角膜和巩膜中分析物扩散进行无损定量分析。

Nondestructive quantification of analyte diffusion in cornea and sclera using optical coherence tomography.

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