Swept Source Enhanced Depth Imaging Optical Coherence Tomography

Not Applicable

• Conditions: Retina, Choroid, Sclera
• Interventions: Device: DRI-1 Swept source OCT, Atlantis, Topcon

• Registration Number: NCT02443129
• Lead Sponsor: Shaare Zedek Medical Center

Brief Summary

The investigators would be interested in applying the enhanced depth imaging technique to swept source optical coherence tomography, by modifying the acquisition protocol. Doing so, the investigators hope to improve the visualization of the choroid and perhaps even of the sclera.

Detailed Description

A structurally and functionally normal choroidal vasculature is essential for retinal function. The status of the choroid appears to be a crucial determinant in the pathogenesis of diseases such as age-related choroidal atrophy, myopic chorioretinal atrophy, central serous chorioretinopathy, chorioretinal inflammatory diseases, and tumors.

The in vivo structure of the choroid in health and disease is incompletely visualized with traditional imaging modalities, including indocyanine green angiography and ultrasonography.

Optical coherence tomography (OCT) is an established medical imaging technique that uses light to capture micrometer-resolution, three-dimensional images from within optical scattering media. OCT is based on low-coherence interferometry. Nowadays, it is essential for managing retinal conditions.

Unfortunately, standard spectral domain optic coherence tomography (SD-OCT) is of limited use in imaging choroidal morphology.

A modification to the standard technique, termed enhanced depth imaging optical coherence tomography (EDI-OCT), is able to image the choroid with better clarity using commercial SD-OCTs.

With the advent of enhanced depth imaging optical coherence tomography (EDI-OCT), detailed visualisation of the choroid in vivo has been made possible possible. Measurements of choroidal thickness (CT) have also enabled new directions in research to study normal and pathological processes within the choroid.

However, EDI-OCT has its own limitations: the outer choroidal border cannot always be visualized and choroidal details sometime lack clarity.

A new generation of OCTs has been made available, based on swept-source technology.

Swept source OCT (SS-OCT) has been shown to be more precise than spectral domain EDI-OCT in measuring choroidal thickness.

Our department is now using two OCTs, one is a SD- OCT (Canon HS-100), the other one a SS- OCT (Topcon DRI Atlantis).

The investigators would be interested in applying the EDI technique to SS- OCT, by modifying the acquisition protocol. Doing so, the investigators hope to improve the visualization of the choroid and perhaps even of the sclera.

This modification is based on the technique described by Spaide for SD-OCT.

From the patient's perspective, it only involves spending more time fixing the green stimulus (about 4 minutes instead of 2, in order to follow the swept-source EDI protocol in addition to standard swept source).

Study Timeline

• Study First Submitted: 2015-03-01
• Study First Submitted QC: 2015-05-10
• Study First Posted: 2015-05-13
• Status Verified: 2015-11
• Last Update Submitted: 2015-11-23
• Last Update Posted: 2015-11-24
• Study Start: 2016-05
• Primary Completion: 2017-07
• Study Completion: 2019-08

Recruitment & Eligibility

• Status: UNKNOWN
• Sex: All
• Target Recruitment: 120

Inclusion Criteria

• Ability to sit for OCT

Exclusion Criteria

• Media opacities precluding fundus view

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
mydramide only	DRI-1 Swept source OCT, Atlantis, Topcon	Patients in the clinics undergoing pupil dilation Intervention: Tropicamide instillation to both eyes DRI-1 Swept source OCT, Atlantis, Topcon
All patients presenting with RD	DRI-1 Swept source OCT, Atlantis, Topcon	Patients with retinal detachment Intervention: RD surgery DRI-1 Swept source OCT, Atlantis, Topcon
Impact of previous grid treatment	DRI-1 Swept source OCT, Atlantis, Topcon	Patients after grid laser Intervention: DRI-1 Swept source OCT, Atlantis, Topcon
Effect of glaucoma medications	DRI-1 Swept source OCT, Atlantis, Topcon	Patients requiring new intraocular presssur (IOP)-lowering treatment Patients with long-term IOP-lowering treatment Intervention: If needed, start of new IOP-lowering treatment DRI-1 Swept source OCT, Atlantis, Topcon
NVAMD poorly responsive to Rx	DRI-1 Swept source OCT, Atlantis, Topcon	Patients with neovascular age-related macular degeneration and epiretinal membreane/vitreomacular traction who do not respond to first course of Avastin Intervention: DRI-1 Swept source OCT, Atlantis, Topcon
Retrospective analysis	DRI-1 Swept source OCT, Atlantis, Topcon	All patients pictured with DRI-OCT Intervention: DRI-1 Swept source OCT, Atlantis, Topcon
mydramide and ephrine 10%	DRI-1 Swept source OCT, Atlantis, Topcon	Patients in the clinics undergoing pupil dilation Intervention: Tropicamide and ephrine 10% instillation to both eyes DRI-1 Swept source OCT, Atlantis, Topcon
Effect of arteritic/non-arteritic AION	DRI-1 Swept source OCT, Atlantis, Topcon	About 180 living patients diagnosed at ShaareZedek with anterior ischemic optic neuropathy (AION). Longitudinal arm with newly diagnosed patients for 2 years follow-up Intervention: DRI-1 Swept source OCT, Atlantis, Topcon
control group	DRI-1 Swept source OCT, Atlantis, Topcon	18-99 year old male + female Intervention: DRI-1 Swept source OCT, Atlantis, Topcon

Primary Outcome Measures

Name	Time	Method
Difference in chorio-retinal depth and morphology between healthy and diseased subjects	2 years