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Literature DB >> 29552407

Fixational eye movement: a negligible source of dynamic aberration.

Pedro Mecê^1,2, Jessica Jarosz^1,2, Jean-Marc Conan¹, Cyril Petit¹, Kate Grieve^3,4, Michel Paques^3,4, Serge Meimon¹.

Abstract

To evaluate the contribution of fixational eye movements to dynamic aberration, 50 healthy eyes were examined with an original custom-built Shack-Hartmann aberrometer, running at a temporal frequency of 236Hz, with 22 lenslets across a 5mm pupil, synchronized with a 236Hz pupil tracker. A comparison of the dynamic behavior of the first 21 Zernike modes (starting from defocus) with and without digital pupil stabilization, on a 3.4s sequence between blinks, showed that the contribution of fixational eye movements to dynamic aberration is negligible. Therefore we highlighted the fact that a pupil tracker coupled to an Adaptive Optics Ophthalmoscope is not essential to achieve diffraction-limited resolution.

Keywords: (010.7350) Wave-front sensing; (110.1080) Active or adaptive optics; (170.4460) Ophthalmic optics and devices; (170.4470) Ophthalmology; (330.2210) Vision - eye movements

Year: 2018 PMID： 29552407 PMCID： PMC5854073 DOI： 10.1364/BOE.9.000717

Source DB: PubMed Journal: Biomed Opt Express ISSN： 2156-7085 Impact factor: 3.732

22 in total

1. Changes in aberrations and retinal image quality due to tear film dynamics.

Authors: Kaccie Y Li; Geunyoung Yoon
Journal: Opt Express Date: 2006-12-11 Impact factor: 3.894

2. Temporal dynamics and statistical characteristics of the microfluctuations of accommodation: dependence on the mean accommodative effort.

Authors: C Leahy; C Leroux; C Dainty; L Diaz-Santana
Journal: Opt Express Date: 2010-02-01 Impact factor: 3.894

2. Characterization and Analysis of Retinal Axial Motion at High Spatiotemporal Resolution and Its Implication for Real-Time Correction in Human Retinal Imaging.

Authors: Yao Cai; Kate Grieve; Pedro Mecê
Journal: Front Med (Lausanne) Date: 2022-07-12

2 in total

Fixational eye movement: a negligible source of dynamic aberration.

1. Changes in aberrations and retinal image quality due to tear film dynamics.

2. Temporal dynamics and statistical characteristics of the microfluctuations of accommodation: dependence on the mean accommodative effort.

3. A geometric basis for measurement of three-dimensional eye position using image processing.

4. The pathways of light measured in fundus reflectometry.

5. Supernormal vision and high-resolution retinal imaging through adaptive optics.

6. High temporal resolution aberrometry in a 50-eye population and implications for adaptive optics error budget.

7. Recurrence relations for the Cartesian derivatives of the Zernike polynomials.

8. Dynamic changes in the tear film in dry eyes.

9. Adaptive optics with pupil tracking for high resolution retinal imaging.

10. Lens oscillations in the human eye. Implications for post-saccadic suppression of vision.

1. High-resolution in-vivo human retinal imaging using full-field OCT with optical stabilization of axial motion.

2. Characterization and Analysis of Retinal Axial Motion at High Spatiotemporal Resolution and Its Implication for Real-Time Correction in Human Retinal Imaging.