Defining Retinal Structures Using Hyperspectral Retinal Imaging
Center for Eye Research Australia
1,000 participants
Jan 1, 2025
INTERVENTIONAL
Conditions
Summary
This study evaluates hyperspectral retinal imaging as a novel, non-invasive imaging technique to characterise retinal and optic nerve structures in healthy individuals and patients with eye disease. Hyperspectral imaging captures retinal data across multiple wavelengths to generate detailed spectral information that may reveal features not visible with conventional retinal photography. Approximately 1000 participants will undergo multi-modal ophthalmic imaging in Melbourne, Australia, including hyperspectral imaging, OCT, fundus photography, and related tests. The study aims to compare hyperspectral imaging with standard imaging methods and assess its ability to identify retinal biomarkers associated with diseases such as diabetic retinopathy, glaucoma, and age-related macular degeneration.
Eligibility
Inclusion Criteria5
- Adults aged 18 years and older
- Able to provide informed consent
- Willing and able to attend a study visit at the Centre for Eye Research Australia
- Participants with diagnosed retinal or optic nerve disease (e.g., diabetic retinopathy, glaucoma, age-related macular degeneration)
- Age- and sex-matched healthy control participants without known retinal or optic nerve disease
Exclusion Criteria5
- Inability to provide informed consent
- Ocular conditions preventing adequate retinal imaging (e.g., dense cataract, severe corneal opacity, vitreous haemorrhage)
- Known contraindication to pharmacological pupil dilation
- History of narrow anterior chamber angle or risk of angle closure glaucoma where dilation is considered unsafe
- Any condition that, in the investigator's opinion, would compromise participant safety or image quality
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Interventions
Hyperspectral imaging is performed with the Metabolic Hyperspectral Retinal Camera (Optina Diagnostic, Montreal, Canada) and a prototype camera developed by researchers at the Centre for Eye Research Australia (CERA). The Metabolic Hyperspectral Retinal Camera is similar to a typical fundus imager but it incorporates a tunable light source which is able to transmit safe light levels within a wavelength range covering the visible to near infrared with a narrow bandwidth (\< 3nm). This instrument is capable of imaging a 26° field-of-view of retina at 90 wavelengths in less than a second, thus minimizing discomfort and limiting the influence of eye movements. The hyperspectral camera developed by CERA researchers is a non-mydriatic fundus camera that uses light emitting diodes (LEDs) and an optical variable bandpass filter to tune the illumination wavelengths.
Locations(1)
View Full Details on ClinicalTrials.gov
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NCT07555574