Karim El-Koussy, René Höhn, Mariana B L Falcão, Bruno Hauser, Avantika Naidu, Mathias Abegg
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引用次数: 0
Abstract
Background: Current standard methods in monitoring glaucoma progression, like optical coherence tomography (OCT) and standard automated perimetry (SAP), have limitations in certain cases. Automated relative afferent pupillary defect (RAPD) and pupillary light reflex (PLR) testing may offer more objective alternatives. This pilot study aimed to evaluate whether RAPD could sufficiently distinguish between the two eyes in asymmetrical glaucoma, and thus could lay the foundation for using the PLR of a single eye to monitor progression longitudinally.
Methods: Twenty-one patients underwent quantitative PLR measurements using a virtual reality headset. RAPD was calculated by subtracting the amplitude of PLRs between eyes. Both RAPD and relative SAP (measured using the mean defect or MD) results were correlated to the thickness of the peripapillary retinal nerve fiber layer (RNFL), as measured by OCT.
Results: Data from 18 patients was analyzed after exclusions. RAPD significantly correlated with differences between the two eyes as measured by RNFL thickness (Pearson r = 0.79, p = 0.05). MD differences correlated slightly better with RNFL differences (Pearson r = 0.87, p < 0.05). RAPD and MD combined yielded an improved prediction of RNFL differences by 5% compared to using MD only.
Conclusions: RAPD measurements reliably detected asymmetries in optic nerve damage in glaucoma patients. SAP measurements correlated better with OCT results than RAPD results. However, SAP and RAPD combined led to an improved prediction of RNFL thickness. This could possibly allow us to use PLR only over longer periods of time to monitor glaucomatous optic nerve damage in a single eye in the future.
背景:目前监测青光眼进展的标准方法,如光学相干断层扫描(OCT)和标准自动视距测量(SAP),在某些情况下存在局限性。自动相对传入瞳孔缺陷(RAPD)和瞳孔光反射(PLR)测试可能提供更客观的选择。本前期研究旨在评价RAPD是否能够充分区分不对称型青光眼的双眼,从而为单眼PLR纵向监测青光眼进展奠定基础。方法:21例患者使用虚拟现实耳机进行定量PLR测量。RAPD通过减去眼间plr的振幅来计算。RAPD和相对SAP(使用平均缺损或MD测量)结果与oct测量的乳头周围视网膜神经纤维层(RNFL)厚度相关。结果:排除18例患者的数据后进行分析。RAPD与两眼间RNFL厚度差异显著相关(Pearson r = 0.79, p = 0.05)。MD差异与RNFL差异的相关性稍好(Pearson r = 0.87, p)。结论:RAPD测量可靠地检测青光眼患者视神经损伤的不对称性。SAP测量结果与OCT结果的相关性优于RAPD结果。然而,SAP和RAPD联合使用可以改善RNFL厚度的预测。这可能使我们在未来仅在较长时间内使用PLR来监测单眼青光眼视神经损伤。
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