Wachtl J, Töteberg-Harms M, Frimmel S, Kniestedt C
Augenklinik, UniversitätsSpital Zürich, Frauenklinikstr. 24, 8091, Zürich, Schweiz.
Talacker Augen Zentrum Zürich, TAZZ, Pelikanstr. 18, 8001, Zürich, Schweiz.
Ophthalmologe. 2017 Aug;114(8):716-721. doi: 10.1007/s00347-016-0409-3.
Accurate determination of intraocular pressure (IOP) is essential for correct management of glaucoma. Goldmann applanation tonometry (GAT) is the gold standard for measuring IOP despite its limitations due to its dependence on corneal properties. With the aim of improving the accuracy of GAT readings, several correction formulas have been developed.
The aim of this study was to investigate the accuracy and clinical relevance of five correction equations for GAT.
Prospective study of 112 glaucoma patients at the University Hospital and Talacker Eye Center, Zurich, Switzerland. The IOP was measured with GAT and dynamic contour tonometry (DCT) in randomized order. The GAT readings were adjusted with five correction equations. The primary study endpoint was the degree of concordance between corrected GAT and DCT readings. A discordance of ≥2 mm Hg was defined as significant. The association between discordant IOP measurements and central corneal thickness (CCT) was the secondary study endpoint.
The mean patient age was 66 ± 13 years (60% females and 56% left eyes). The mean IOP was 17.0 mm Hg for GAT and 20.3 mm Hg for DCT, with a discordance of 3.3 mm Hg between GAT und DCT. The discordances between DCT and the corrected values ranged from 2.7 to 5.4 mm Hg. Spearman's rank testing showed a positive correlation between CCT and the discordances of all correction equations and a negative correlation between CCT and the discordance of DCT and GAT.
The use of GAT correction formulas involves the risk of creating significant error. The correction equations examined showed extensive scatter and resulted in mean IOP values that were lower than the IOP initially measured by GAT. Thus the use of any correction equation may delay diagnosis of glaucoma and should be avoided.
准确测定眼压(IOP)对于青光眼的正确管理至关重要。尽管Goldmann压平眼压计(GAT)因依赖角膜特性存在局限性,但仍是测量眼压的金标准。为提高GAT读数的准确性,已开发了几种校正公式。
本研究旨在探讨GAT的五种校正方程的准确性和临床相关性。
对瑞士苏黎世大学医院和Talacker眼科中心的112例青光眼患者进行前瞻性研究。以随机顺序用GAT和动态轮廓眼压计(DCT)测量眼压。用五种校正方程调整GAT读数。主要研究终点是校正后的GAT与DCT读数之间的一致性程度。≥2 mmHg的差异被定义为显著差异。眼压测量不一致与中央角膜厚度(CCT)之间的关联是次要研究终点。
患者平均年龄为66 ± 13岁(60%为女性,56%为左眼)。GAT测量的平均眼压为17.0 mmHg,DCT测量的平均眼压为20.3 mmHg,GAT与DCT之间的差异为3.3 mmHg。DCT与校正值之间的差异范围为2.7至5.4 mmHg。Spearman秩检验显示CCT与所有校正方程的差异呈正相关,CCT与DCT和GAT的差异呈负相关。
使用GAT校正公式存在产生显著误差的风险。所检查的校正方程显示出广泛的离散性,导致平均眼压值低于最初用GAT测量的眼压值。因此,使用任何校正方程都可能延迟青光眼的诊断,应避免使用。
