{"title":"FreiBurger:基于 P300 的敏锐度估计的新光学模型。","authors":"Céline Z Duval, Saskia B Kaczan, Sven P Heinrich","doi":"10.1007/s10633-024-09982-x","DOIUrl":null,"url":null,"abstract":"<p><strong>Purpose: </strong>Accurate objective assessment of visual acuity is crucial, particularly in cases of suspected malingering, or when the patient's inability to cooperate makes standard psychophysical acuity tests unreliable. The P300 component of the event-related potentials offers a potential solution and even allows for the use of standard optotypes like the Landolt C. However, low-vision patients with large eccentric visual field defects often struggle to locate the Landolt C gap quickly enough for a P300 to be reliably produced.</p><p><strong>Methods: </strong>Addressing this challenge, we introduce a novel optotype (the \"FreiBurger\") with a critical detail that extends through the optotype's center. Two experiments, with 16 and 12 participants, respectively, were conducted. In the first, psychophysical acuity estimates were obtained with both the FreiBurger and the Landolt C. In the second, we tested the performance of the FreiBurger, relative to the Landolt C, in eliciting a P300 with undegraded vision, simulated low vision, and in a simulated combination of low vision and visual field constriction.</p><p><strong>Results: </strong>Comparable psychophysical acuity values (average difference 0.03 logMAR) were obtained for both optotypes. In the P300 recordings, both optotypes produced similar P300 responses under conditions of undegraded vision and low vision. However, with the combination of low vision and constricted visual field, the P300 could only be reliably obtained with the FreiBurger, while the amplitude was drastically reduced with the Landolt C (9.1 µV vs. 2.2 µV; p < 0.0005).</p><p><strong>Conclusion: </strong>The new optotype extends the applicability of P300-based acuity estimation to the frequently encountered combination of low vision and constricted visual field, where Landolt C optotypes fail. Although impairments were simulated in the present study, we assume that the advantages of the new optotype will also manifest in patients with such impairments. We furthermore expect the advantages to apply to time-sensitive psychophysical examinations as well.</p>","PeriodicalId":11207,"journal":{"name":"Documenta Ophthalmologica","volume":" ","pages":"87-98"},"PeriodicalIF":2.6000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11442534/pdf/","citationCount":"0","resultStr":"{\"title\":\"The FreiBurger: a new optotype for P300-based acuity estimation.\",\"authors\":\"Céline Z Duval, Saskia B Kaczan, Sven P Heinrich\",\"doi\":\"10.1007/s10633-024-09982-x\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>Accurate objective assessment of visual acuity is crucial, particularly in cases of suspected malingering, or when the patient's inability to cooperate makes standard psychophysical acuity tests unreliable. The P300 component of the event-related potentials offers a potential solution and even allows for the use of standard optotypes like the Landolt C. However, low-vision patients with large eccentric visual field defects often struggle to locate the Landolt C gap quickly enough for a P300 to be reliably produced.</p><p><strong>Methods: </strong>Addressing this challenge, we introduce a novel optotype (the \\\"FreiBurger\\\") with a critical detail that extends through the optotype's center. Two experiments, with 16 and 12 participants, respectively, were conducted. In the first, psychophysical acuity estimates were obtained with both the FreiBurger and the Landolt C. In the second, we tested the performance of the FreiBurger, relative to the Landolt C, in eliciting a P300 with undegraded vision, simulated low vision, and in a simulated combination of low vision and visual field constriction.</p><p><strong>Results: </strong>Comparable psychophysical acuity values (average difference 0.03 logMAR) were obtained for both optotypes. In the P300 recordings, both optotypes produced similar P300 responses under conditions of undegraded vision and low vision. However, with the combination of low vision and constricted visual field, the P300 could only be reliably obtained with the FreiBurger, while the amplitude was drastically reduced with the Landolt C (9.1 µV vs. 2.2 µV; p < 0.0005).</p><p><strong>Conclusion: </strong>The new optotype extends the applicability of P300-based acuity estimation to the frequently encountered combination of low vision and constricted visual field, where Landolt C optotypes fail. Although impairments were simulated in the present study, we assume that the advantages of the new optotype will also manifest in patients with such impairments. 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引用次数: 0
摘要
目的:对视力进行准确的客观评估至关重要,尤其是在怀疑患者装病,或患者无法配合而导致标准心理物理视力测试不可靠的情况下。事件相关电位的 P300 分量提供了一个潜在的解决方案,甚至允许使用标准视图(如 Landolt C)。然而,具有大偏心视野缺陷的低视力患者往往难以快速定位 Landolt C 间隙,从而无法可靠地产生 P300:方法:为了应对这一挑战,我们引入了一种新型视模("FreiBurger"),其关键细节延伸至视模中心。我们分别对 16 名和 12 名参与者进行了两次实验。在第一项实验中,我们使用 FreiBurger 和 Landolt C 获得了心理物理敏锐度估计值。在第二项实验中,我们测试了 FreiBurger 相对于 Landolt C 在未退化视力、模拟低视力以及模拟低视力和视野收缩组合情况下引起 P300 的性能:两种光学型的心理物理敏锐度值相当(平均相差 0.03 logMAR)。在 P300 记录中,在视力未退化和低视力的条件下,两种视型产生了相似的 P300 反应。然而,在低视力和视野受限的情况下,只有使用 FreiBurger 才能可靠地获得 P300,而使用 Landolt C 则会大幅降低振幅(9.1 µV vs. 2.2 µV; p 结论:新的光学模式扩大了 FreiBurger 和 Landolt C 的应用范围:新的光学模型将基于 P300 的敏锐度估计的适用范围扩展到了经常遇到的低视力和视野受限的组合,而 Landolt C 光学模型在这种情况下是失效的。虽然在本研究中模拟了患者的视力障碍,但我们认为新视力模式的优势也将体现在有此类障碍的患者身上。此外,我们还希望这种优势也能适用于对时间敏感的心理物理检查。
The FreiBurger: a new optotype for P300-based acuity estimation.
Purpose: Accurate objective assessment of visual acuity is crucial, particularly in cases of suspected malingering, or when the patient's inability to cooperate makes standard psychophysical acuity tests unreliable. The P300 component of the event-related potentials offers a potential solution and even allows for the use of standard optotypes like the Landolt C. However, low-vision patients with large eccentric visual field defects often struggle to locate the Landolt C gap quickly enough for a P300 to be reliably produced.
Methods: Addressing this challenge, we introduce a novel optotype (the "FreiBurger") with a critical detail that extends through the optotype's center. Two experiments, with 16 and 12 participants, respectively, were conducted. In the first, psychophysical acuity estimates were obtained with both the FreiBurger and the Landolt C. In the second, we tested the performance of the FreiBurger, relative to the Landolt C, in eliciting a P300 with undegraded vision, simulated low vision, and in a simulated combination of low vision and visual field constriction.
Results: Comparable psychophysical acuity values (average difference 0.03 logMAR) were obtained for both optotypes. In the P300 recordings, both optotypes produced similar P300 responses under conditions of undegraded vision and low vision. However, with the combination of low vision and constricted visual field, the P300 could only be reliably obtained with the FreiBurger, while the amplitude was drastically reduced with the Landolt C (9.1 µV vs. 2.2 µV; p < 0.0005).
Conclusion: The new optotype extends the applicability of P300-based acuity estimation to the frequently encountered combination of low vision and constricted visual field, where Landolt C optotypes fail. Although impairments were simulated in the present study, we assume that the advantages of the new optotype will also manifest in patients with such impairments. We furthermore expect the advantages to apply to time-sensitive psychophysical examinations as well.
期刊介绍:
Documenta Ophthalmologica is an official publication of the International Society for Clinical Electrophysiology of Vision. The purpose of the journal is to promote the understanding and application of clinical electrophysiology of vision. Documenta Ophthalmologica will publish reviews, research articles, technical notes, brief reports and case studies which inform the readers about basic and clinical sciences related to visual electrodiagnosis and means to improve diagnosis and clinical management of patients using visual electrophysiology. Studies may involve animals or humans. In either case appropriate care must be taken to follow the Declaration of Helsinki for human subject or appropriate humane standards of animal care (e.g., the ARVO standards on Animal Care and Use).