用于改善不同黄斑病变导致的中心凹功能丧失患者的离焦视觉的生物反馈固定训练方法。

Biofeedback fixation training method for improving eccentric vision in patients with loss of foveal function secondary to different maculopathies.

机构信息

Academic Ophthalmology, Division of Clinical Neurosciences, Queen's Medical Centre, University of Nottingham, Nottingham, NG7 2UH, UK.

Department of Optometry, University of Leicester, Leicester Royal Infirmary, Leicester, UK.

出版信息

Int Ophthalmol. 2020 Feb;40(2):305-312. doi: 10.1007/s10792-019-01180-y. Epub 2019 Oct 3.

DOI:10.1007/s10792-019-01180-y

PMID:31583549

Abstract

PURPOSE

Fixation stability (FS) of the preferred retinal locus (PRL) may be improved by biofeedback fixation training (BFT) with microperimetry. Such training can be done on the patient's PRL or in different retinal loci with better functional characteristics. We studied both options and compared the outcomes.

METHODS

Sixty-seven consecutive patients with bilateral central vision loss, poor FS and visual acuity (VA) lower than 0.3 LogMAR were recruited for BFT with microperimeter. Patients were assigned into 2 groups. In group A, BFT was performed on the patient's spontaneous PRL. In group B, PRL was located between 2 adjacent loci with the highest light sensitivity and the lowest distance from the fovea. Two sets of 12 weekly BFT sessions were performed. Primary outcomes were: FS, VA and reading speed.

RESULTS

Outcomes were statistically significantly better in group B. Mean percentage of FS at therapy end improved from 32 to 35% for group A and from 40 to 55% in group B. Mean VA improved from 1 to 0.86 in group A and from 1 to 0.84 in group B. Reading speed (wpm) improved from 56 to 58 in group A and from 63 to 89 in group B.

CONCLUSIONS

This study describes a reliable methodology of improving eccentric fixation stability using BFT in microperimetry, when the fixation training locus is individualized as the retinal area with best functional characteristics. Further studies are needed to validate its value in a larger scale of patients, at different stages of the disease, and its persistence over time.

摘要

目的

通过微视野生物反馈固视训练（BFT）可以提高优势固视点（PRL）的固视稳定性（FS）。这种训练可以在患者的 PRL 上进行，也可以在功能特征更好的不同视网膜位置上进行。我们研究了这两种选择，并比较了结果。

方法

我们招募了 67 名双侧中心视力丧失、FS 差和视力（VA）低于 0.3 LogMAR 的患者进行微视野 BFT。患者被分为 2 组。在 A 组中，BFT 在患者的自发 PRL 上进行。在 B 组中，PRL 位于两个具有最高光敏感度和距黄斑最近的相邻位置之间。进行了两组 12 周的 BFT 治疗。主要结局为 FS、VA 和阅读速度。

结果

B 组的结果在统计学上明显更好。A 组治疗结束时 FS 的平均百分比从 32%提高到 35%，B 组从 40%提高到 55%。A 组的平均 VA 从 1 提高到 0.86，B 组从 1 提高到 0.84。A 组的阅读速度（wpm）从 56 提高到 58，B 组从 63 提高到 89。

结论

本研究描述了一种使用微视野 BFT 改善偏心固视稳定性的可靠方法，当固视训练位置个体化为具有最佳功能特征的视网膜区域时。需要进一步的研究来验证其在更大规模患者、疾病不同阶段以及随时间推移的持久性中的价值。

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用于改善不同黄斑病变导致的中心凹功能丧失患者的离焦视觉的生物反馈固定训练方法。

Biofeedback fixation training method for improving eccentric vision in patients with loss of foveal function secondary to different maculopathies.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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