To explore an effective diagnostic tool of glaucoma through the dynamic analysis of computerized pupillary light reflex assessment device (CPLRAD) pupillography based on iris recognition techniques and investigate its feasibility in glaucoma screening.
Glaucoma is the leading cause of irreversible blindness worldwide, which is characterized by progressive loss of retinal ganglion cells (RGCs) and their optic nerve axons. Early diagnosis and treatment can effectively prevent the progression of the disease and avoid blindness. The damage of RGCs appears in the early stage of glaucoma, and the asymmetry of the eyes has also been observed clinically. CPLRAD may serve as an effective screening tool for glaucomatous optic neuropathy, since they can dynamically detect abnormal pupillary responses from a novel sequence of light stimuli and functionally-shaped stimuli. The current theoretical evidence of relative afferent pupillary defect/pupillary light reflex (RAPD/PLR) as a functional test for predicting nerve damage is insufficient, and pupil detection technology is not yet mature. Therefore, the investigators want to complete these tasks: 1) collect the clinical examination data and objectively measure the pupil dynamic parameters monocularly and/or binocularly as indicators from the retina and optic nerve in glaucoma patients 2) design RAPD/PLR detection technology and develop dynamic analysis system; 3) verify the feasibility of RAPD/PLR applied to early glaucoma screening through clinical trials. The pupil image dynamic analysis and iris recognition system will provide a simple, inexpensive and non-invasive screen tool, and is highly reliable and cost-effective.
Study Type
OBSERVATIONAL
Enrollment
100
CPLRAD may serve as an effective screening tool for glaucomatous optic neuropathy, since they can dynamically detect abnormal pupillary responses from a novel sequence of light stimuli and functionally-shaped stimuli. CPLRAD can collect the clinical examination data and objectively measure the pupil dynamic parameters monocularly and/or binocularly as indicators from the retina and optic nerve in glaucoma patients.
Peking University Third Hosipital
Beijing, Beijing Municipality, China
RECRUITINGMaximum Constriction Velocity in One Eye in Different Groups
The maximum constriction velocity will be calculated by the software
Time frame: The test of each participant will complete the all procedures within 1 hour.
Maximum Dilation Velocity in One Eye in Different Groups
The maximum dilation velocity will be calculated by the software.
Time frame: The test of each participant will complete the all procedures within 1 hour.
Pupil Constriction Amplitude(ratio) in One Eye in Different Groups
The pupil constriction amplitude(ratio) will be calculated by the software.
Time frame: The test of each participant will complete the all procedures within 1 hour.
Baseline Pupil Size in One Eye in Different Groups
The baseline pupil size is measured before the stimulus on.
Time frame: The test of each participant will complete the all procedures within 1 hour.
Baseline Pupil Size(BPZ) Asymmetry between Two Eyes in Different Groups
Asymmetry is calculated by a formula: RAPD score of BPZ= 10 \* log10 (baseline pupil size in right eye/baseline pupil size in left eye)
Time frame: The test of each participant will complete the all procedures within 1 hour.
Maximum Constriction Velocity(MCV) Asymmetry between Two Eyes in Different Groups
Asymmetry is calculated by a formula: RAPD score of MCV= 10 \* log10 (maximum constriction velocity in right eye/maximum constriction velocity in left eye)
Time frame: The test of each participant will complete the all procedures within 1 hour.
Maximum Dilation Velocity(MDV) Asymmetry between Two Eyes in Different Groups
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Asymmetry is calculated by a formula: RAPD score of MDV = 10 \* log10 (maximum dilation velocity in right eye/maximum dilation velocity in left eye)
Time frame: The test of each participant will complete the all procedures within 1 hour.
Pupil Constriction Amplitude(ratio) Asymmetry between Two Eyes in Different Groups
Amplitude(ratio) is calculated by: (DIAMETER resting-DIAMETER constricted) / DIAMETER resting Asymmetry was calculated by a formula: RAPD score of Amplitude = 10 \* log10 (pupil constriction amplitude in right eye/pupil constriction amplitude in left eye)
Time frame: The test of each participant will complete the all procedures within 1 hour.