The Course of Response to Focal Photocoagulation for DME

Completed

• Conditions: Diabetic Retinopathy; Diabetic Macular Edema
• Interventions: Procedure: Laser photocoagulation

• Registration Number: NCT00442156
• Lead Sponsor: Jaeb Center for Health Research

Brief Summary

The study objective is to determine the course of changes in OCT measured macular thickness and visual acuity following a single session of focal photocoagulation for center-involved DME. The response will be evaluated separately in eyes with and without prior focal photocoagulation for DME. The purpose is to determine the proportion of eyes that continue to improve at least 5 letters in visual acuity or at least 10% in central retinal thickness after a session of focal photocoagulation. In addition, the study will explore whether any baseline factors can be identified that are predictive of the response.

All subjects will have follow-up visits 8 weeks and 16 weeks post treatment. At the 16-week visit, study eyes are evaluated for change in retinal thickness and visual acuity from baseline.

* Treatment is to be deferred and follow up continued if visual acuity letter score has improved by \>5 or OCT central subfield thickness has decreased by \>10% compared with baseline.

* If visual acuity letter score has not improved by at least 5 and OCT central subfield thickness has not decreased by at least 10%, then the eye is classified as 'not improved' and the investigator may provide additional treatment. Follow up ends for eyes that receive additional treatment at this visit. However, if the investigator and participant elect to defer additional treatment (even if deferral criteria are not met), then follow up will continue until the study eye receives additional treatment for DME.

* Eyes continuing in follow up have visits every 8 weeks (+1week) as long as there has been continued improvement in visual acuity (letter score improved \>5 ) or retinal thickness (central subfield thickness decreased by \>10%) compared with the visit 16 weeks earlier. The longest follow-up time will be 48 weeks.

By providing information on the length of time during which clinically meaningful improvement occurs following focal photocoagulation, clinicians will be better able to determine when further photocoagulation or other treatments should be considered for persistent DME. Depending on the results of this study, a future randomized clinical trial will be considered comparing the more aggressive retreatment photocoagulation regimen currently serving as the standard DRCR Network approach to focal photocoagulation for macular edema with the less aggressive regimen evaluated in this protocol.

Detailed Description

Focal photocoagulation is the only treatment that has been demonstrated to be beneficial for diabetic macular edema. In the ETDRS, focal photocoagulation of eyes with macular edema reduced the risk of moderate visual loss (decrease of 15 or more letters) by approximately 50% (from 24% to 12%, three years after initiation of treatment). For eyes with center-involved DME and visual acuity worse than 20/40 that were treated with focal photocoagulation, the 15-letter improvement rate at 1 year was 11% and at 3 years was 16%.

In the ETDRS, focal photocoagulation treatment for diabetic macular edema involved direct treatment to discrete lesions between 500 microns and 3000 microns from the center of the macula that were thought to be causing retinal thickening or hard exudates with or without "grid" treatment to other macular areas of retinal thickening or non-perfusion. The lesions treated directly included microaneurysms, identified on fluorescein angiography, that either filled or leaked, intraretinal microvascular abnormalities (IRMA), or pruned capillaries that leaked fluorescein. Grid treatment was applied in the ETDRS to areas of thickened retina that showed diffuse fluorescein leakage or areas of non-perfusion identified as capillary dropout on fluorescein angiography. Areas of non-perfusion in the macula could be treated with grid at the discretion of the treating ophthalmologist. Areas that had both discrete lesions and diffuse leakage or capillary dropout would receive a combination of direct and grid treatment. Re-treatment was applied at four month intervals if clinically significant macular edema persisted, one or more treatable lesions were identified, and the investigator believed these lesions were responsible for the edema. The median number of focal laser treatments applied in the ETDRS was 3.8.

The mechanism of action of focal photocoagulation is not fully understood; however, it is clear that the retinal pigment epithelium (RPE) absorbs the majority of the laser energy and thermal injury occurs at the level of the RPE. Studies have shown that photocoagulation can eventually result in retinal and apparent RPE atrophy 200-300% larger than the original laser spot size. These areas of expanded atrophy can lead to loss of central vision, central scotomata, and decreased color vision. Consequently, many retinal specialists today tend to treat with lighter, less intense laser burns than originally specified in the ETDRS.

In addition to the concern regarding the spread of intense laser burns, there are a number of other reasons that retinal specialists today have modified the treatment procedures originally specified in the ETDRS protocol. These reasons include the advent of new lasers and the clinical observation that different techniques, such as focal photocoagulation with lighter burns or grid treatment alone, may be similar in beneficial effect as the original ETDRS treatment protocol. A modified ETDRS focal photocoagulation protocol adapted from the original ETDRS approach, has been adopted as the standard laser technique for DME used in DRCRnet studies.

There are limited data on the course of visual acuity and central retinal thickness after a single focal photocoagulation session for DME. In prior DRCRnet DME treatment protocols that included a laser arm, according to the re-treatment protocol eyes received a second focal photocoagulation session at 3.5- 4 months (which was the first follow-up visit) unless there was substantial improvement defined as at least a 50% decrease in retinal thickening of the central subfield measurement on OCT. As a result, it is unknown what proportion of eyes with lesser degrees of improvement would have continued to improve and the time course for further improvement following the initial photocoagulation session given additional time. In one study conducted by DRCRnet of eyes that had not been previously treated for DME, among 113 eyes in the modified ETDRS laser treatment group with baseline OCT central subfield \>250 microns, a 50% or more reduction in OCT central subfield thickening was present at 3.5 months in only 28 (25%). The table below categorizes the 85 eyes that did not meet this measure of improvement at 3.5 months with regard to improvement in visual acuity of at least 5 letters and/or reduction in central subfield thickness of at least 10%. The 5 letter reduction was selected based on the 95% confidence interval for change determined in a study that evaluated the validity and reliability of the electronic ETDRS visual acuity testing procedure that is used in DRCRnet protocols. The 10% threshold was selected based on the DRCRnet OCT reproducibility study which found that a 10% change in central subfield thickness was likely to be real. Forty-seven (42%) eyes that met the protocol requirement for repeat photocoagulation at the first follow-up visit had an improvement in either visual acuity (of at least 5 letters), central subfield (of at least a 10% reduction), or both at this follow-up visit.

Other DRCRnet protocols provide data on the course following a single photocoagulation session through 4 months of follow up. In a pilot study designed to evaluate peribulbar corticosteroids for mild DME (OCT central subfield thickness = 250 microns and visual acuity 20/40 or better at baseline), modified ETDRS focal photocoagulation was the treatment given to the control group. Follow-up visits occurred after 1, 2, and 4 months before the eye was eligible to be retreated. Twenty-one of the 37 eyes in the laser group had not been previously treated with focal photocoagulation for DME and 17 eyes had been previously treated with focal photocoagulation. A 50% or more reduction in OCT central subfield thickening occurred in 11 (30%) of the 37 eyes at 17 weeks. Fourteen (38%) eyes that would have met the criteria for re-treatment had an improvement in either visual acuity (of at least 5 letters), central subfield (of at least 10%), or both at 17 weeks.

In another pilot study evaluating intravitreal bevacizumab for DME (OCT central subfield thickness = 275 microns and visual acuity 20/32 or worse at baseline), modified ETDRS focal photocoagulation was the treatment given to the control group. Follow-up visits occurred after 3, 6, 9, and 12 weeks before the eye was eligible to be retreated. There were 7 eyes in the laser group that had not been previously treated with focal photocoagulation for DME and 12 eyes that had been previously treated with focal photocoagulation. Among these 19 eyes, a 50% or more reduction in OCT central subfield thickening occurred in 3 (16%) at 12 weeks. Ten (53%) eyes that would have met criteria for re-treatment had an improvement in either visual acuity (of at least 5 letters), central subfield (of at least 10%), or both at 12 weeks.

The data from these three protocols indicate that a substantial number of eyes receiving focal photocoagulation (either an initial course or repeat application) will show improvement in central retinal thickness after 3-4 months that is at least 10% but is less than 50% of the baseline thickening. It is for these eyes that further knowledge of the course of retinal thickening and visual acuity without additional interventions is needed to assess whether the present requirements for re-treatment are more aggressive than they need to be.

Study Timeline

• Study Start: 2007-01
• Study First Submitted: 2007-02-27
• Study First Submitted QC: 2007-02-28
• Study First Posted: 2007-03-01
• Primary Completion: 2008-06
• Study Completion: 2008-06
• Status Verified: 2016-08
• Last Update Submitted: 2016-08-25
• Last Update Posted: 2016-08-26

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 122

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
Laser	Laser photocoagulation	People with diabetic macular edema involving the center of the macula (OCT central subfield thickness \>250 microns), who were already intended to receive focal photocoagulation

Primary Outcome Measures

Name	Time	Method
OCT-measured retinal thickness and visual acuity	16 weeks

Trial Locations

Locations (31)

Southeast Retina Center, P.C.; 🇺🇸 Augusta, Georgia, United States

Elman Retina Group, P.A.; 🇺🇸 Baltimore, Maryland, United States

Retina and Vitreous of Texas; 🇺🇸 Houston, Texas, United States

Southern California Desert Retina Consultants, MC; 🇺🇸 Palm Springs, California, United States

Retina Consultants of Southwest Florida; 🇺🇸 Fort Myers, Florida, United States

Retina Associates of Hawaii, Inc.; 🇺🇸 Honolulu, Hawaii, United States

Retina Vitreous Consultants; 🇺🇸 Ft. Lauderdale, Florida, United States

Central Florida Retina Institute; 🇺🇸 Lakeland, Florida, United States

Retina and Vitreous Associates of Kentucky; 🇺🇸 Lexington, Kentucky, United States

Paducah Retinal Center; 🇺🇸 Paducah, Kentucky, United States

American Eye Institute; 🇺🇸 New Albany, Indiana, United States

Maine Vitreoretinal Consultants; 🇺🇸 Bangor, Maine, United States

Ophthalmic Consultants of Boston; 🇺🇸 Boston, Massachusetts, United States

Southern New England Retina Associates; 🇺🇸 Attleboro, Massachusetts, United States

Joslin Diabetes Center; 🇺🇸 Boston, Massachusetts, United States

Vitreo-Retinal Associates; 🇺🇸 Grand Rapids, Michigan, United States

Associated Retina Consultants; 🇺🇸 Williamsburg, Michigan, United States

Delaware Valley Retina Associates; 🇺🇸 Lawrenceville, New Jersey, United States

University of North Carolina, Dept. of Ophthalmology; 🇺🇸 Chapel Hill, North Carolina, United States

University of Rochester; 🇺🇸 Rochester, New York, United States

Retina-Vitreous Surgeons of Central New York, PC; 🇺🇸 Syracuse, New York, United States

Retina Associates of Cleveland, Inc.; 🇺🇸 Beachwood, Ohio, United States

Charlotte Eye, Ear, Nose and Throat Assoc., PA; 🇺🇸 Charlotte, North Carolina, United States

Retina Research Center; 🇺🇸 Austin, Texas, United States

Palmetto Retina Center; 🇺🇸 Columbia, South Carolina, United States

Carolina Retina Center; 🇺🇸 Columbia, South Carolina, United States

Texas Retina Associates; 🇺🇸 Lubbock, Texas, United States

Charles A. Garcia, PA & Associates; 🇺🇸 Houston, Texas, United States

University of Wisconsin-Madison, Dept. of Ophthalmology; 🇺🇸 Madison, Wisconsin, United States

Raj K. Maturi, M.D., P.C.; 🇺🇸 Indianapolis, Indiana, United States

Casey Eye Institute; 🇺🇸 Portland, Oregon, United States