Multimodal Retinal Imaging in the Detection and Follow-up of Alzheimer's Disease

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

RECRUITING

Total Enrollment

320 participants

Study Classification

OBSERVATIONAL

Study Start Date

2018-03-01

Study Completion Date

2025-12-31

Brief Summary

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Because of a shared ontogenic origin, the retina displays similarities to the brain and spinal cord in terms of anatomy, functionality, response to insult, and immunology. Hence, the retina can be approached as an integral part of the central nervous system. The occurence of ocular manifestations in several neurodegenerative pathologies, such as Alzheimer's disease and Parkinson's disease, accentuates the strong relationship between eye and brain. Particularly retinal changes can present a substrate for cerebral changes in these disorders. Offering a 'window to the brain', the transparent eye enables non-invasive imaging of these changes in retinal structure and vasculature. In this project, the potential of retinal biomarkers for e.g. Alzheimer's will be explored with the aim to overcome some of the hurdles in the current management of these pathologies, mainly the lack of techniques for patient screening and early diagnosis. The aim of this clinical trial is to correlate the retinal biomarkers for Alzheimer's with neuro-imaging, and cognitive function. Integrating the results will yield non-invasive retinal biomarkers for clinical research, screening, and follow-up of disease progression in various neurodegenerative disorders.

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Detailed Description

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Alzheimer's disease (AD) is the most common neurodegenerative disorder and the leading cause of dementia worldwide. A growing number of people are surviving into their 80s-90s and the number of AD patients projected to nearly triple in the next three decades, affecting 80-90 million people worldwide by 2040. As such, AD will become the third cause of death for older people, just behind cardiovascular disease and cancer. In contrast to the latter, AD cannot be prevented, slowed or cured. AD represents an enormous socio-economic burden and has become a trillion dollar disease. Despite decades of intensive research, diagnosis and treatment remain challenging for AD. A string of recent failures in clinical trials for AD drugs has pointed out that our understanding of the disease is still far from complete. More in detail, three major reasons underlying this treatment gap have been identified:

i. The lack of techniques for patient screening and early diagnosis. ii. The incomplete understanding of the complex interplay of pathological processes that underlie AD.

iii. The many hurdles between drug discovery and approval.

With this study, the investigators propose a novel way to address these needs, by using the retina as a model organ to study the central nervous system (CNS). Many of the hallmark cerebral pathophysiological processes of AD have also been observed in the retina. Unlike the rest of the CNS, the retina can be visualized directly, with an imaging resolution up to 100x higher than PET and MRI scans. Using these high-resolution imaging tools such as Optical Coherence Tomography (OCT), studies have demonstrated microvascular changes and neuro-retinal thinning in AD patients. Pilot data show that retinal Aβ can be visualized non-invasively solely based on the intrinsic hyperspectral signature of aggregated amyloid deposits. Non-invasive retinal imaging (e.g., fundus photography, OCT, hyperspectral imaging (HSI)) - which are all available at affordable cost -, could therefore represent novel means for identifying patients at risk, for longitudinal follow-up of disease progression in AD patients, and for research in a quest for more effective treatments.

This is an open-label longitudinal biomarker study without investigational medicinal product in subjects in different stages of the AD spectrum.

The data that we will collect consist of amyloid imaging, MRI, blood, genetic, general health and cognitive data, as well as visual acuity, ocular biomicroscopy and funduscopy, fundus photographs, hyperspectral retinal images, Optical Coherence Tomography (OCT) retinal images and OCT angiography (OCT-A) retinal images. Subjects will be followed longitudinally. In the current study the investigators will primarily investigate the potential of non-invasive, multimodal retinal imaging for the early detection of Alzheimer's disease and for the evaluation of disease progression. This will be done in comparison with amyloid imaging and neuropsychological evaluations.

The investigators will build a longitudinal database of ocular, systemic, neuro-psychiatric, MRI and PET imaging parameters of Aβ-positive and Aβ-negative patients with different stages of cognitive impairment. This database will be used to provide proof-of-concept that retinal biomarkers provide an early, accurate and non-invasive tool for AD detection and follow-up. All data will be collected in a database for statistical analysis.

Conditions

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Alzheimer Disease Alzheimer Dementia Mild Cognitive Impairment Dementia Glaucoma Age-Related Macular Degeneration Diabetic Retinopathy

Study Design

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Observational Model Type

COHORT

Study Time Perspective

PROSPECTIVE

Study Groups

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Ab+ AD patients

amyloid positive Alzheimer's Disease patients

\- Ocular examination Visual acuity, biomicroscopy, funduscopy Fundus pictures, including hyperspectral imaging OCT + angio-OCT (Non-invasive, multimodal retinal imaging), Dynamic Vessel Analyzer (DVA)