人眼眼轴长度和脉络膜厚度对近视性和远视性离焦连续及交替变化的反应。

The human axial length and choroidal thickness responses to continuous and alternating episodes of myopic and hyperopic blur.

机构信息

Queensland University of Technology (QUT), Centre for Vision and Eye Research, School of Optometry and Vision Science, Institute of Health and Biomedical Innovation, Kelvin Grove, Queensland, Australia.

出版信息

PLoS One. 2020 Dec 2;15(12):e0243076. doi: 10.1371/journal.pone.0243076. eCollection 2020.

DOI:10.1371/journal.pone.0243076

PMID:33264356

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7710071/

Abstract

PURPOSE

To investigate the change in axial length (AxL) and choroidal thickness (ChT) in response to continuous and alternating episodes of monocular myopic and hyperopic defocus.

METHODS

The right eye of sixteen young adults was exposed to 60 minute episodes of either continuous or alternating myopic and hyperopic defocus (+3 DS & -3 DS) over six separate days, with the left eye optimally corrected for distance. During alternating defocus conditions, the eye was exposed to either 30 or 15 minute cycles of myopic and hyperopic defocus, with the order of defocus reversed in separate sessions. The AxL and ChT of the right eye were measured before, during and after each defocus condition.

RESULTS

Significant changes in AxL were observed over time, dependent upon the defocus condition (p < 0.0001). In general, AxL exhibited a greater magnitude of change during continuous than alternating defocus conditions. The maximum AxL elongation was +7 ± 7 μm (p = 0.010) in response to continuous hyperopic defocus and the maximum AxL reduction was -8 ± 10 μm of (p = 0.046) in response to continuous myopic defocus. During both 30 and 15 minute cycles of alternating myopic and hyperopic defocus of equal duration, the effect of opposing blur sessions cancelled each other and the AxL was near baseline levels following the final defocus session (mean change from baseline across all alternating defocus conditions was +2 ± 10 μm, p > 0.05). Similar, but smaller magnitude, changes were observed for ChT.

CONCLUSIONS

The human eye appears capable of temporal averaging of visual cues from alternating myopic and hyperopic defocus. In the short term, this integration appears to be a cancellation of the effects of the preceding defocus condition of opposite sign.

摘要

目的

研究连续和交替的单眼远视离焦与近视离焦对眼轴长度（AxL）和脉络膜厚度（ChT）的影响变化。

方法

16 名年轻人的右眼在 6 天内分别接受 60 分钟的连续或交替远视离焦和近视离焦（+3 DS 和-3 DS）暴露，左眼则用最佳远距矫正。在交替离焦条件下，眼睛分别接受 30 分钟或 15 分钟的近视离焦和远视离焦周期，在不同的实验中，离焦顺序相反。右眼的 AxL 和 ChT 在每次离焦条件前、中、后进行测量。

结果

随时间推移，AxL 发生显著变化，这取决于离焦条件（p<0.0001）。一般来说，连续离焦条件下的 AxL 变化幅度大于交替离焦条件。连续远视离焦时，AxL 最大伸长量为+7±7μm（p=0.010）；连续近视离焦时，AxL 最大缩短量为-8±10μm（p=0.046）。在持续时间相等的 30 分钟和 15 分钟的交替近视离焦和远视离焦周期中，相反模糊期的效果相互抵消，最后一次离焦后，AxL 接近基线水平（所有交替离焦条件下的平均基线变化为+2±10μm，p>0.05）。ChT 也观察到类似但幅度较小的变化。

结论

人眼似乎能够对交替的远视离焦和近视离焦的视觉线索进行时间平均。在短期内，这种整合似乎是对先前相反符号离焦条件的效果的抵消。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/27a7/7710071/f8de400e46c4/pone.0243076.g001.jpg

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人眼眼轴长度和脉络膜厚度对近视性和远视性离焦连续及交替变化的反应。

The human axial length and choroidal thickness responses to continuous and alternating episodes of myopic and hyperopic blur.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

结论

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