Sub-threshold Photocoagulation of Diabetic Macular Oedema

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

WITHDRAWN

Clinical Phase

NA

Study Classification

INTERVENTIONAL

Study Start Date

2012-10-31

Study Completion Date

2015-12-31

Brief Summary

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

Topcon's Endpoint Management (EM) is a new software from the Pascal® laser which allows us to decrease the intensity of the burns (invisible burns) showing some landmarks with normal intensity so the investigators can see the area which has been treated. The Pascal® system with EM utilizes 577nm laser wavelength compared to the 532nm laser wavelength which was utilized in previous Pascal® laser studies.

This study aims to demonstrate that 577nm Pascal® with EM has the same efficacy and effectiveness as 532nm Pascal® in the treatment of diabetic macular oedema.

Related Clinical Trials

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

Non-damaging Retinal Laser Therapy With PASCAL Laser for Macular Diseases

NCT01975103

Diabetic Macular Edema Branch Retinal Vein Occlusion Chronic Central Serous Retinopathy +1 more

UNKNOWN PHASE2

Topcon Endpoint Management

NCT01732614

Diabetic Macular Edema

COMPLETED NA

Non-Damaging Photothermal Therapy of Non-exudative Age Related Macular Degeneration

NCT02569892

Macular Degeneration Retinal Drusen

COMPLETED NA

Transfoveal Micropulse Laser for Center Involving Diabetic Macular Edema

NCT04359771

Diabetic Retinopathy Macula Edema

COMPLETED PHASE4

Panretinal Photo-stimulation in Proliferative Diabetic Retinopathy

NCT02309502

Severe Non-proliferative Diabetic Retinopathy

WITHDRAWN NA

Detailed Description

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

Diabetic macular oedema (DMO) remains the most common cause of visual loss in diabetic patients and affects around 29% of diabetic patients with 20 or more years of disease. The Early Treatment Diabetic Retinopathy Study (ETDRS) demonstrated a significant benefit of laser photocoagulation for the treatment of clinically significant macular oedema, reducing the incidence of vision loss by approximately 50% at 3 years' follow-up.

The original ETDRS photocoagulation technique was adopted throughout the world and gradually modified through the years. Despite the great improvements, loss of central vision, paracentral scotoma and decreased color vision are some adverse events that can still occur, mostly caused by the progressive enlargement of the laser scars consequent to the visible burn of conventional laser photocoagulation.

New strategies have been developed for laser treatments that minimize the chorioretinal damage while maintaining at least similar treatment efficacy.

And numerous clinical studies have been conducted with subvisible laser treatments. However, the lack of a visible endpoint makes it difficult for the treating physician to know which retinal areas have been treated in order to avoid retreatment and also to be confident that the desired target tissue had been treated.

Topcon's Endpoint Management (EM) is a new software from the Pascal® laser which allows us to decrease the intensity of the burns (invisible burns) showing some landmarks with normal intensity so the investigators can see the area which has been treated.

The Pascal® system with EM utilizes 577nm laser wavelength compared to the 532nm laser wavelength which was utilized in previous Pascal® laser studies.

This study aims to demonstrate that 577nm Pascal® with EM has the same efficacy and effectiveness as 532nm Pascal®.

Conditions

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

Diabetic Macular Oedema

Study Design

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

Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

TREATMENT

Blinding Strategy

NONE

Study Groups

Review each arm or cohort in the study, along with the interventions and objectives associated with them.

PASCAL Laser, Green Laser 0.75

Barely Visible Pascal laser grid using 532nm "green" wavelength, 0.75 burn-widths-apart. Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, Green Laser 0.75

Intervention Type DEVICE

Barely Visible Pascal laser grid using 532nm "green" wavelength, 0.75 burn-widths-apart. Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

PASCAL Laser, Green Laser 1 burn

Barely Visible Pascal laser grid using 532nm "green" wavelength, 1 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 1 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, Green Laser 1

Intervention Type DEVICE

Barely Visible Pascal laser grid using 532nm "green" wavelength, 1 burn-widths-apart. Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

PASCAL Laser, 70% Yellow Laser 0.75

Pascal EM at 70% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, 70% Yellow Laser 0.75

Intervention Type DEVICE

Pascal EM at 70% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

PASCAL Laser, 70% Yellow Laser 1

Pascal EM at 70% 577nm "yellow", 1 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 1 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, 70% Yellow Laser 1

Intervention Type DEVICE

Pascal EM at 70% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 1 burn-widths-apart Distribution: Grid

PASCAL Laser, 40% Yellow Laser 0.75

Pascal EM at 40% 577nm "yellow", 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 40% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, 40% Yellow Laser 0.75

Intervention Type DEVICE

Pascal EM at 40% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 740% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

PASCAL Laser, 40% Yellow Laser 1

Pascal EM at 40% 577nm "yellow" laser grid, 1 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 40% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 1 burn-widths-apart Distribution: Grid

Group Type EXPERIMENTAL

PASCAL Laser, 40% Yellow Laser 1

Intervention Type DEVICE

Pascal EM at 40% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 740% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Interventions

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

PASCAL Laser, Green Laser 0.75

Barely Visible Pascal laser grid using 532nm "green" wavelength, 0.75 burn-widths-apart. Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

PASCAL Laser, Green Laser 1

Barely Visible Pascal laser grid using 532nm "green" wavelength, 1 burn-widths-apart. Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: barely visible burn Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

PASCAL Laser, 70% Yellow Laser 0.75

Pascal EM at 70% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

PASCAL Laser, 70% Yellow Laser 1

Pascal EM at 70% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 70% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 1 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

PASCAL Laser, 40% Yellow Laser 0.75

Pascal EM at 40% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 740% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

PASCAL Laser, 40% Yellow Laser 1

Pascal EM at 40% 577nm "yellow" laser grid, 0.75 burn-widths-apart Intervention: macular laser grid Number of burns: Full grid 112 burns Spot size: 100micron Duration: 10 ms Exposure: A barely visible burn will be aimed at for the "Landmark" burn and EndPoint Management will be set at 740% to achieve non-visible burns Average power: 100 to 1000 mW Spot spacing: 0.75 burn-widths-apart Distribution: Grid

Intervention Type DEVICE

Eligibility Criteria

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

Inclusion Criteria

Patient-eligibility

1. Older than 18 years of age
2. Male or female patients with diabetes mellitus type I or type 2 who meet the WHO or ADA criteria for diabetes
3. Able to give informed consent

Study Eye eligibility

1. ETDRS visual acuity equivalent to 35 letters or better (Snellen equivalent 20/200 or better)
2. The patient must have non-proliferative diabetic retinopathy (NPDR) with diffuse macular oedema
3. Mean average central retinal thickness at least 300 microns as measured by Deep Range Imaging Optical Coherence Tomography (DRI -OCT) scans
4. Adequate pupil dilatation and clear media to perform wide-field colour, red-free imaging and fundus fluorescein angiography (WF-FFA), wide-field fundus autofluorescence imaging (WF-AF) and DRI-OCT
5. Ability to perform accurate Humphmrey visual field test

Exclusion Criteria

Patient-eligibility

1. History of chronic renal failure or renal transplant for diabetic nephropathy
2. Recent (last 6 months) or on-going poor glycaemic control. H1Ac greater than 10.0mg/dL
3. Creatinine greater than 1.2 mg/dL
4. HDL equal to or greater than 40 mg/dL
5. Uncontrolled hypertension. Blood pressure greater or equal to 180/110 mmHg
6. Patient is unavailable for follow-up visits
7. Pregnant women or breast-feeding females

Study Eye eligibility

1. Lens opacity that could influence vision and results
2. Proliferative Diabetic Retinopathy.
3. Any surgical or non-retinal laser treatment to the study eye within 2 months
4. Narrow drainage angles with raised intraocular pressure and angle closure glaucoma.
5. Planned YAG peripheral iridotomy
6. Previous retinal laser photocoagulation, intraocular drug therapy, or macular laser treatment to treatment eye in last year
7. Vitreomacular traction determined clinically and / or OCT, which in the opinion of the investigator, contributes to macular edema (associated or cause a detachment of the fovea) and prevents the improvement with treatment.
8. Atrophy / scar / fibrosis involving the center of the macula, including evidence of atrophy treated with laser within 200 microns of the FAZ.
9. Any previous ocular condition that may be associated with a risk of macular edema
10. Important known allergies to sodium fluorescein dye used in angiography.

12\. Active lid or adnexal infection 13. Planned intra-ocular surgery within one year

Minimum Eligible Age

18 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No