Manual Versus Automated Choroidal Thickness Measurements Using Swept-source Anterior Segment OCT

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

Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.

Recruitment Status

COMPLETED

Total Enrollment

80 participants

Study Classification

OBSERVATIONAL

Study Start Date

2021-10-01

Study Completion Date

2022-01-01

Brief Summary

Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.

The choroid, which is located between the retina and the sclera, is a connective tissue layer that is densely packed with blood vessels and is responsible for supplying oxygen and nutrients to the retina's periphery. One of the primary functions of the choroid is to support the metabolism of the retinal pigment epithelium (RPE). It is implicated in the pathogenesis of a variety of retinal disorders, including age-related macular degeneration, polypoidal choroidal vasculopathy, central serous chorioretinopathy, and high myopia-associated chorio retinal atrophies. Because choroidal alteration has a fundamental role in the development and progression of these diseases, choroidal thickness provides comprehensive information to physicians.

For the study of the choroid, researchers have used ultrasound, magnetic resonance imaging MRI, and Doppler laser, but these methods have limited utility due to a lack of resolution. Contrary to this, indocyanine green (ICG) angiography provides valuable clinical information but does not provide cross-sectional images of the choroid for in vivo research studies.

Optical coherence tomography (OCT) has gained in popularity in clinical and experimental ophthalmology over the last decade as a way to acquire detailed, three-dimensional images of the retina . Imaging the entire choroid, on the other hand, has proven to be more difficult due to the significant decline in signal strength beyond the RPE prompted by the pigment in the RPE and choroid and light scattering in the vasculature. The development of improved depth imaging (EDI) by Spaide et al. opened the door to quantitative choroid assessment. Choroid imaging is currently possible using one of two optical coherence tomography (OCT) techniques: (1) spectral-domain (SD) OCT utilizing standard light sources using EDI, and (2) swept-source (SS) OCT using a long wavelength light .A 1 m-band light source is used in SS-OCT, which penetrates deeper into the retino choroidal tissues and so optimizes the resolution. To better visualize retinal and choroidal changes, SS-OCT can concurrently display a focused image of both the retina and the choroid. This renders it an accurate technology for assessing choroidal thickness.

Such findings of choroidal thickness changes revealed that the choroid and choroidal thickness may be important attributes in the evaluation of ocular pathology. To properly understand the scientific value of these potential choroidal thickness variations, it would appear that comprehensive and systematic normative values for choroidal thickness are fundamental.

Related Clinical Trials

Explore similar clinical trials based on study characteristics and research focus.

Measuring Choroidal Thickness Using Optical Coherence Tomography

NCT06272851

Choroid Disease Diabetes Mellitus

NOT_YET_RECRUITING

Choroidal Thickness in Myopes by SSOCT

NCT03542448

ESRD

COMPLETED

Study of the Choroidal and Retinal Thickness in Relation to Axial Length.

NCT03377075

Healthy

COMPLETED

Evaluation of the Retina of Subjects Without Diabetes Mellitus and Subjects With Diabetes Mellitus Without Diabetic Retinopathy Using Optical Coherence Tomography

NCT01946997

Diabetic Retinopathy

COMPLETED

Objective Choroidal Thickness Measurements in Uveitis

NCT03889860

Uveitis

ACTIVE_NOT_RECRUITING

Detailed Description

Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.

Conditions

See the medical conditions and disease areas that this research is targeting or investigating.

Eye Diseases

Study Design

Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.

Observational Model Type

CASE_ONLY

Study Time Perspective

PROSPECTIVE

Interventions

Learn about the drugs, procedures, or behavioral strategies being tested and how they are applied within this trial.

Optical Coherence Tomography imaging of choroid

A single expert retinal specialists used a Topcon DRI-1 SS-OCT to do the Choroidal Thickness measurements. A 12, 9-mm radial line scan procedure was performed. Each radial line was automatically scanned 32 times in the same spot, followed by the creation of 12 high-resolution average B-scan images. Each scan was double-checked to confirm that it was centred on the fovea. Only scans of good quality were included. The perpendicular distance between the outer border of the RPE and the junction of the choroid and sclera was used to calculate CT. It was calculated automatically using the mapping software incorporated into the device and displayed as a colourful topographic map with nine subfields defined by the Early Treatment Diabetic Retinopathy Study (ETDRS) style grid.

Intervention Type OTHER

Eligibility Criteria

Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.

Inclusion Criteria

* Normal adult volunteers

Exclusion Criteria

* Eyes with chorioretinal or vitreoretinal diseases
* History of intraocular surgery
* Glaucoma.
* Systemic diseases or conditions that could affect retinal or choroidal thickness,
* Pregnant women

Minimum Eligible Age

18 Years

Maximum Eligible Age

45 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No