通过Reichert眼反应分析仪、Goldmann压平眼压计和动态轮廓眼压计测量健康个体眼压的评估。
Assessment of intraocular pressure measured by Reichert Ocular Response Analyzer, Goldmann Applanation Tonometry, and Dynamic Contour Tonometry in healthy individuals.
作者信息
Ouyang Ping-Bo, Li Cong-Yi, Zhu Xiao-Hua, Duan Xuan-Chu
机构信息
Department of Ophthalmology, the Second Xiangya Hospital of Central South University, Changsha 410011, Hunan Province, China.
出版信息
Int J Ophthalmol. 2012;5(1):102-7. doi: 10.3980/j.issn.2222-3959.2012.01.21. Epub 2012 Feb 18.
AIM
To investigate the accuracy of intraocular pressure (IOP) as measured by a Reichert Ocular Response Analyzer (ORA), as well as the relationship between central corneal thickness (CCT) and IOP as measured by ORA, Goldmann applanation tonometry (GAT), and dynamic contour tonometry (DCT).
METHODS
A total of 158 healthy individuals (296 eyes) were chosen randomly for measurement of IOP. After CCT was measured using A-ultrasound (A-US), IOP was measured by ORA, GAT, and DCT devices in a randomized order. The IOP values acquired using each of the three tonometries were compared, and the relationship between CCT and IOP values were analyzed separately. Two IOP values, Goldmann-correlated IOP value (IOPg) and corneal-compensated intraocular pressure (IOPcc), were got using ORA. Three groups were defined according to CCT: 1) thin cornea (CCT<520µm); 2) normal-thickness cornea (CCT: 520-580µm); and 3) thick cornea (CCT>580µm) groups.
RESULTS
In normal subjects, IOP measurements were 14.95±2.99mmHg with ORA (IOPg), 15.21±2.77mmHg with ORA (IOPcc), 15.22±2.77mmHg with GAT, and 15.49±2.56mmHg with DCT. Mean differences were 0.01±2.29mmHg between IOPcc and GAT (P>0.05) and 0.28±2.20mmHg between IOPcc and DCT (P>0.05). There was a greater correlation between IOPcc and DCT (r=0.946, P=0.000) than that between IOPcc and GAT (r=0.845, P=0.000). DCT had a significant correlation with GAT (r=0.854, P=0.000). GAT was moderately correlated with CCT (r=0.296, P<0.001), while IOPcc showed a weak but significant correlation with CCT (r=-0.155, P=0.007). There was a strong negative correlation between CCT and the difference between IOPcc and GAT(r=-0.803, P=0.000), with every 10µm increase in CCT resulting in an increase in this difference of 0.35mmHg. The thick cornea group (CCT>580µm) showed the least significant correlation between IOPcc and GAT (r=0.859, P=0.000); while the thin cornea group (CCT<520µm) had the most significant correlation between IOPcc and GAT (r=0.926, P=0.000). The correlated differences between IOPcc and DCT were not significant in any of the three groups (P>0.05).
CONCLUSION
Measurement of IOP by ORA has high repeatability and is largely consistent with GAT measurements. Moreover, the ORA measurements are affected only to a small extent by CCT, and are likely to be much closer to the real IOP value than GAT.
目的
研究瑞特眼反应分析仪(ORA)测量眼压(IOP)的准确性,以及中央角膜厚度(CCT)与通过ORA、Goldmann压平眼压计(GAT)和动态轮廓眼压计(DCT)测量的IOP之间的关系。
方法
随机选取158名健康个体(296只眼)测量IOP。使用A超(A-US)测量CCT后,以随机顺序通过ORA、GAT和DCT设备测量IOP。比较使用三种眼压计获得的IOP值,并分别分析CCT与IOP值之间的关系。使用ORA获得两个IOP值,即Goldmann相关眼压值(IOPg)和角膜补偿眼压(IOPcc)。根据CCT定义三组:1)薄角膜(CCT<520µm);2)正常厚度角膜(CCT:520 - 580µm);3)厚角膜(CCT>580µm)组。
结果
在正常受试者中,ORA测量的IOP(IOPg)为14.95±2.99mmHg,ORA测量的IOP(IOPcc)为15.21±2.77mmHg,GAT测量的IOP为15.22±2.77mmHg,DCT测量的IOP为来15.49±2.56mmHg。IOPcc与GAT之间的平均差异为0.01±2.29mmHg(P>0.05),IOPcc与DCT之间的平均差异为0.28±2.20mmHg(P>0.05)。IOPcc与DCT之间的相关性(r = 0.946,P = 0.000)高于IOPcc与GAT之间的相关性(r = 0.845,P = 0.000)。DCT与GAT有显著相关性(r = 0.8富54,P = 0.000)。GAT与CCT中度相关(r = 0.296,P<0.001),而IOPcc与CCT呈弱但显著的相关性(r = -0.155,P = 0.007)。CCT与IOPcc和GAT之间的差异呈强负相关(r = -0.803,P = 0.000),CCT每增加10µm,该差异增加0.35mmHg。厚角膜组(CCT>富580µm)中IOPcc与GAT之间的相关性最不显著(r = 0.859,P = 0.000);而薄角膜组(CCT<520µm)中IOPcc与GAT之间的相关性最显著(r = 0.926,P = 0.000)。IOPcc与DCT之间的相关差异在三组中均不显著(P>0.05)。
结论
ORA测量IOP具有高重复性,且与GAT测量结果基本一致。此外,ORA测量受CCT影响较小,可能比GAT更接近真实的IOP值。
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