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Adaptive optics eyes micro-vision defect evaluation system

A technology of adaptive optics and visual field defect, applied in the field of optical instruments, can solve problems such as the inability to monitor human eye aberration fluctuations, and achieve the effect of reducing stimulus redundancy and flexible design

Inactive Publication Date: 2009-01-07
INST OF OPTICS & ELECTRONICS - CHINESE ACAD OF SCI
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Problems solved by technology

[0008] Second, the position of the stimulus visual target used by Makous et al. is fixed, which is essentially a static visual field inspection method, which can only inspect a limited area;
[0009] Third, when Makous et al. measured the visual frequency curve of the test subject, in order to eliminate the influence of the aberration detection beacon light on the test, their adaptive optics system was in a latched state, so they could not monitor the human visual frequency curve during the test. Fluctuation of eye aberrations

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Embodiment Construction

[0025] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0026]As shown in Figure 1, the present invention consists of a near-infrared beacon 1, a collimating mirror 2, a first reflector 3, a first beam splitter 4, a human eye 5, a beam matching telescope 6, a wavefront corrector 7, and a beam matching telescope 8. The second reflection mirror 9, the second beam splitter 10, the Hartmann wavefront sensor 11, the computer 12, the high-voltage amplifier 13, the third reflection mirror 14, the imaging optical system 15 and the stimulus visual mark display device 16 are composed, wherein the near The infrared beacon 1 can be a laser laser, a semiconductor laser diode and a super luminescent diode-SLD; the wavefront corrector 7 can be a deformable mirror, a liquid crystal wavefront corrector liquid crystal device, a micromechanical deformable mirror micro-machined deformable mirror and double piezoelect...

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Abstract

The invention relates to a self-adapting optical human micro-visual field defect evaluation system. The light emitted by a beacon penetrates a collimating mirror, a first reflecting mirror and a first beam-splitting mirror and then enters the pupilla of human eyes. The reflected light from the ocular fundus penetrates the first beam-splitter mirror and a first beam-matching telescope, is reflected by a wavefront corrector, penetrates a second beam-matching telescope, a second reflecting mirror and a second beam-splitting mirror and enters a Hartman wavefront sensor. A computer calculates and controls the voltage according to the detected aberration and drives the wavefront corrector to correct the human eye aberration after the high-voltage amplification. After the aberrational correction is completed, the computer software generates a stimulating visual sign and the stimulating visual sign is displayed on a stimulating visual sign display device. A subject observes the stimulating visual sign via the system and makes the determination. The determination of the subject is recorded for the evaluation of the human visual field defect. Based on the self-adapting optical techniques, the self-adapting optical human micro-visual field defect evaluation system greatly reduces the visual field examination stimulus redundancy caused by the human eye aberration, realizes the early diagnosis of early-stage tiny visual field defect caused by diseases, and provides a powerful tool for the human micro-visual field evaluation and the early diagnosis of the related diseases.

Description

technical field [0001] The invention relates to an adaptive optical human eye micro visual field defect evaluation system, which is an optical instrument used for finely evaluating early micro visual field defect of the human eye. Background technique [0002] Vision (Visual Field) has a major impact on people's working life just like vision. The World Health Organization stipulates that those with visual field less than 100, even if the central vision is normal, also belong to blindness. Visual field examination provides important information for ophthalmologists to diagnose and follow up the major blinding eye diseases. Undoubtedly, visual field examination is the basic method for diagnosing and monitoring glaucoma and some other visual and optic nerve diseases. Advanced visual field examination provides the possibility for early diagnosis and condition monitoring of related diseases, and at the same time creates conditions for successful treatment. However, early subtle...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B3/024
Inventor 戴云张雨东王海英饶学军
Owner INST OF OPTICS & ELECTRONICS - CHINESE ACAD OF SCI
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