Diabetic Macular Edema Clinical Trial
— Protocol TOfficial title:
A Comparative Effectiveness Study of Intravitreal Aflibercept, Bevacizumab and Ranibizumab for Diabetic Macular Edema
| Verified date | July 2020 |
| Source | Jaeb Center for Health Research |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
Although multiple studies have suggested that treatment with ranibizumab is safe and
efficacious and superior to focal/grid laser alone for patients with center-involved diabetic
macular edema (DME), there may be barriers in place to widespread adoption of ranibizumab use
given its high cost per dose and the need for multiple treatments over time. Prioritizing
resources from a public health policy perspective could be easier if more precise estimates
regarding the risks and benefits of other anti-vascular endothelial growth factor (anti-VEGF)
therapies were available, especially when the difference in costs could be billions of
dollars over just a few years. Thus, there is a clear rationale at this time to explore
potential anti-VEGF alternatives to ranibizumab that might prove to be as or more
efficacious, might deliver equally lasting or longer-lasting treatment effects, and cost
substantially less. Of the potentially available alternative anti-VEGF agents for this trial,
bevacizumab and aflibercept are the best candidates for a direct comparison study.
Bevacizumab shares the most similar molecular structure, costs far less, and is widely
available. Furthermore, there is already preliminary evidence to suggest that it may be
efficacious in the treatment of DME and it is already being widely used for this indication.
Although aflibercept has a similar cost per unit dose to ranibizumab, it has the potential to
decrease treatment burden and associated cost. If results from a comparative trial
demonstrate improved efficacy or suggest similar efficacy of bevacizumab or aflibercept over
ranibizumab, this information might give clinicians scientific rationale to substitute either
one of these drugs for ranibizumab in the treatment of DME, and might thereby have
substantial implications for public policy in terms of future estimates of health care
dollars and possibly number of treatments necessary for anti-VEGF treatment of diabetic
macular disease.
Because of its availability and lower cost, bevacizumab is already currently in widespread
clinical use for treatment of DME despite the lack of FDA approval for this indication. Thus,
a clinical trial that suggested whether bevacizumab could be used as a safe and efficacious
alternative to ranibizumab could substantially impact nationwide practice patterns for
treatment of DME by either validating the current use of bevacizumab or by demonstrating
improved outcomes with ranibizumab or aflibercept treatment for DME.
Study Objective The primary objective of the proposed research is to compare the efficacy and
safety of (1) intravitreal aflibercept, (2) intravitreal bevacizumab, and (3) intravitreal
ranibizumab when given to treat central-involved DME in eyes with visual acuity of 20/32 to
20/320.
| Status | Completed |
| Enrollment | 660 |
| Est. completion date | April 18, 2019 |
| Est. primary completion date | October 2014 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility |
Inclusion Criteria: - Age = 18 years - Individuals <18 years old are not being included because DME is so rare in this age group that the diagnosis of DME may be questionable. - Diagnosis of diabetes mellitus (type 1 or type 2) - Any one of the following will be considered to be sufficient evidence that diabetes is present: - Current regular use of insulin for the treatment of diabetes - Current regular use of oral anti-hyperglycemia agents for the treatment of diabetes - Documented diabetes by American Diabetes Association and/or World Health Organization criteria (see Procedures Manual for definitions) - At least one eye meets the following study eye criteria: - Best corrected Electronic-Early Treatment Diabetic Retinopathy Study visual acuity letter score = 78 (i.e., 20/32 or worse) and = 24 (i.e., 20/320 or better) within eight days of randomization. - On clinical exam, definite retinal thickening due to diabetic macular edema involving the center of the macula. - Diabetic macular edema present on optical coherence tomography (OCT) (central subfield thickness on OCT >250 µm on Zeiss Stratus or the equivalent on spectral domain OCTs based on gender specific cutoffs), within eight days of randomization. - Investigator must verify accuracy of OCT scan by ensuring it is centered and of adequate quality (for Zeiss Stratus, standard deviation of center point thickness should be = 10% of the center point thickness and signal strength should be = 6) - Media clarity, pupillary dilation, and individual cooperation sufficient for adequate fundus photographs - Able and willing to provide informed consent. Exclusion Criteria: - Significant renal disease, defined as a history of chronic renal failure requiring dialysis or kidney transplant. - A condition that, in the opinion of the investigator, would preclude participation in the study (e.g., unstable medical status including blood pressure, cardiovascular disease, and glycemic control). •Individuals in poor glycemic control who, within the last four months, initiated intensive insulin treatment (a pump or multiple daily injections) or plan to do so in the next four months should not be enrolled. - Participation in an investigational trial within 30 days of randomization that involved treatment with any drug that has not received regulatory approval for the indication being studied at the time of study entry. • Note: study participants cannot receive another investigational drug while participating in the study. - Known allergy to any component of the study drug. - Blood pressure > 180/110 (systolic above 180 OR diastolic above 110). • If blood pressure is brought below 180/110 by anti-hypertensive treatment, individual can become eligible. - Myocardial infarction, other acute cardiac event requiring hospitalization, stroke, transient ischemic attack, or treatment for acute congestive heart failure within 4 months prior to randomization. - Systemic anti-VEGF or pro-VEGF treatment within four months prior to randomization or anticipated use during the study. • These drugs cannot be used during the study. - For women of child-bearing potential: pregnant or lactating or intending to become pregnant within the next 24 months. - Women who are potential study participants should be questioned about the potential for pregnancy. Investigator judgment is used to determine when a pregnancy test is needed. - Individual is expecting to move out of the area of the clinical center to an area not covered by another clinical center during the first 12 months of the study. The following exclusions apply to the study eye only (i.e., they may be present for the nonstudy eye): - Macular edema is considered to be due to a cause other than diabetic macular edema. - An eye should not be considered eligible if: (1) the macular edema is considered to be related to ocular surgery such as cataract extraction or (2) clinical exam and/or OCT suggest that vitreoretinal interface abnormalities (e.g., a taut posterior hyaloid or epiretinal membrane) are the primary cause of the macular edema. - An ocular condition is present such that, in the opinion of the investigator, visual acuity loss would not improve from resolution of macular edema (e.g., foveal atrophy, pigment abnormalities, dense subfoveal hard exudates, nonretinal condition). - An ocular condition is present (other than diabetes) that, in the opinion of the investigator, might affect macular edema or alter visual acuity during the course of the study (e.g., vein occlusion, uveitis or other ocular inflammatory disease, neovascular glaucoma, etc.). - Substantial cataract that, in the opinion of the investigator, is likely to be decreasing visual acuity by three lines or more (i.e., cataract would be reducing acuity to 20/40 or worse if eye was otherwise normal). - History of an anti-VEGF treatment for DME in the past 12 months or history of any other treatment for DME at any time in the past four months (such as focal/grid macular photocoagulation, intravitreal or peribulbar corticosteroids). - Enrollment will be limited to a maximum of 25% of the planned sample size with any history of anti-VEGF treatment for DME. Once this number of eyes has been enrolled, any history of anti-VEGF treatment for DME will be an exclusion criterion. - History of pan-retinal photocoagulation within four months prior to randomization or anticipated need for pan-retinal photocoagulation in the six months following randomization. - History of anti-VEGF treatment for a disease other than DME in the past 12 months. - History of major ocular surgery (including vitrectomy, cataract extraction, scleral buckle, any intraocular surgery, etc.) within prior four months or anticipated within the next six months following randomization. - History of YAG capsulotomy performed within two months prior to randomization. - Aphakia. - Exam evidence of external ocular infection, including conjunctivitis, chalazion, or significant blepharitis. |
| Country | Name | City | State |
|---|---|---|---|
| United States | Eye Associates of New Mexico | Albuquerque | New Mexico |
| United States | University of New Mexico Health Sciences Center | Albuquerque | New Mexico |
| United States | Southwest Retina Specialists | Amarillo | Texas |
| United States | Western Carolina Retinal Associates, PA | Asheville | North Carolina |
| United States | Emory Eye Center | Atlanta | Georgia |
| United States | Georgia Retina, P.C. | Atlanta | Georgia |
| United States | Thomas Eye Group | Atlanta | Georgia |
| United States | Southeast Retina Center, P.C. | Augusta | Georgia |
| United States | Austin Retina Associates | Austin | Texas |
| United States | Retina Research Center | Austin | Texas |
| United States | Elman Retina Group, P.A. | Baltimore | Maryland |
| United States | Wilmer Eye Institute at Johns Hopkins | Baltimore | Maryland |
| United States | Retina Associates of Cleveland, Inc. | Beachwood | Ohio |
| United States | Retina-Vitreous Associates Medical Group | Beverly Hills | California |
| United States | Joslin Diabetes Center | Boston | Massachusetts |
| United States | Ophthalmic Consultants of Boston | Boston | Massachusetts |
| United States | Montefiore Medical Center | Bronx | New York |
| United States | University of North Carolina | Chapel Hill | North Carolina |
| United States | Storm Eye Institute, Medical University of South Carolina | Charleston | South Carolina |
| United States | Charlotte Eye, Ear, Nose and Throat Assoc., PA | Charlotte | North Carolina |
| United States | Northwestern Medical Faculty Foundation | Chicago | Illinois |
| United States | University of Illinois at Chicago Medical Center | Chicago | Illinois |
| United States | Gulf Coast Retina Center | Clearwater | Florida |
| United States | Case Western Reserve University | Cleveland | Ohio |
| United States | Carolina Retina Center | Columbia | South Carolina |
| United States | Palmetto Retina Center | Columbia | South Carolina |
| United States | OSU Eye Physicians and Surgeons, LLC. | Columbus | Ohio |
| United States | Henry Ford Health System, Dept of Ophthalmology and Eye Care Services | Detroit | Michigan |
| United States | Medical Associates Clinic, P.C. | Dubuque | Iowa |
| United States | Retina Vitreous Center | Edmond | Oklahoma |
| United States | Retina Group of Florida | Fort Lauderdale | Florida |
| United States | National Ophthalmic Research Institute | Fort Myers | Florida |
| United States | NorthShore University HealthSystem | Glenview | Illinois |
| United States | Retina Vitrous Center | Grand Blanc | Michigan |
| United States | Retina Specialists of Michigan | Grand Rapids | Michigan |
| United States | Vitreo-Retinal Associates | Grand Rapids | Michigan |
| United States | Retina Consultants of Hawaii, Inc. | Honolulu | Hawaii |
| United States | Baylor Eye Physicians and Surgeons | Houston | Texas |
| United States | Retina and Vitreous of Texas | Houston | Texas |
| United States | Retina Consultants of Houston, PA | Houston | Texas |
| United States | Raj K. Maturi, M.D., P.C. | Indianapolis | Indiana |
| United States | Southeastern Retina Associates, PC | Kingsport | Tennessee |
| United States | Southeastern Retina Associates, P.C. | Knoxville | Tennessee |
| United States | Central Florida Retina Institute | Lakeland | Florida |
| United States | Family Eye Group | Lancaster | Pennsylvania |
| United States | Virginia Retina Center | Leesburg | Virginia |
| United States | Retina and Vitreous Associates of Kentucky | Lexington | Kentucky |
| United States | Loma Linda University Health Care, Dept. of Ophthalmology | Loma Linda | California |
| United States | Texas Retina Associates | Lubbock | Texas |
| United States | University of Wisconsin-Madison, Dept of Ophthalmology/Retina Service | Madison | Wisconsin |
| United States | Valley Retina Institute | McAllen | Texas |
| United States | Medical College of Wiconsin | Milwaukee | Wisconsin |
| United States | Retina Center, PA | Minneapolis | Minnesota |
| United States | John-Kenyon American Eye Institute | New Albany | Indiana |
| United States | MaculaCare | New York | New York |
| United States | Mount Sinai School of Medicine, Dept. of Ophthalmology | New York | New York |
| United States | The New York Eye and Ear Infirmary/Faculty Eye Practice | New York | New York |
| United States | The Institute of Ophthalmology and Visual Science (IOVS) | Newark | New Jersey |
| United States | New England Retina Associates | Norwich | Connecticut |
| United States | Ocala Eye Retina Consultants | Ocala | Florida |
| United States | Dean A. McGee Eye Institute | Oklahoma City | Oklahoma |
| United States | Magruder Eye Institute | Orlando | Florida |
| United States | Paducah Retinal Center | Paducah | Kentucky |
| United States | Southern California Desert Retina Consultants, MC | Palm Desert | California |
| United States | University of Pennsylvania Scheie Eye Institute | Philadelphia | Pennsylvania |
| United States | Retina Vitrous Consultants | Pittsburgh | Pennsylvania |
| United States | Fort Lauderdale Eye Institute | Plantation | Florida |
| United States | Casey Eye Institute | Portland | Oregon |
| United States | Retina Northwest, PC | Portland | Oregon |
| United States | Eyesight Ophthalmic Services, PA | Portsmouth | New Hampshire |
| United States | Retina Institute of Virginia | Richmond | Virginia |
| United States | Mayo Clinic Department of Ophthalmology | Rochester | Minnesota |
| United States | Retina Associates of Western New York | Rochester | New York |
| United States | University of Rochester | Rochester | New York |
| United States | Barnes Retina Institute | Saint Louis | Missouri |
| United States | Retina Associates of Utah, P.C. | Salt Lake City | Utah |
| United States | Retinal Consultants of San Antonio | San Antonio | Texas |
| United States | California Retina Consultants | Santa Barbara | California |
| United States | Sarasota Retina Institute | Sarasota | Florida |
| United States | University of Washington Medical Center | Seattle | Washington |
| United States | Retina Associates, P.A. | Shawnee Mission | Kansas |
| United States | Spokane Eye Clinic | Spokane | Washington |
| United States | Retina-Vitreous Surgeons of Central New York, PC | Syracuse | New York |
| United States | Retina Associates of Florida, P.A. | Tampa | Florida |
| United States | Retina Associates | Tucson | Arizona |
| United States | Bay Area Retina Associates | Walnut Creek | California |
| United States | Wolfe Eye Clinic | West Des Moines | Iowa |
| United States | Retinal Consultants of Southern California Medical Group, Inc. | Westlake Village | California |
| United States | Wake Forest University Eye Center | Winston-Salem | North Carolina |
| United States | Vitreo-Retinal Associates, PC | Worcester | Massachusetts |
| Lead Sponsor | Collaborator |
|---|---|
| Jaeb Center for Health Research | Genentech, Inc., National Eye Institute (NEI), Regeneron Pharmaceuticals |
United States,
Bressler NM, Beaulieu WT, Glassman AR, Blinder KJ, Bressler SB, Jampol LM, Melia M, Wells JA 3rd; Diabetic Retinopathy Clinical Research Network. Persistent Macular Thickening Following Intravitreous Aflibercept, Bevacizumab, or Ranibizumab for Central-Involved Diabetic Macular Edema With Vision Impairment: A Secondary Analysis of a Randomized Clinical Trial. JAMA Ophthalmol. 2018 Mar 1;136(3):257-269. doi: 10.1001/jamaophthalmol.2017.6565. Erratum in: JAMA Ophthalmol. 2018 May 1;136(5):601. — View Citation
Bressler NM, Beaulieu WT, Maguire MG, Glassman AR, Blinder KJ, Bressler SB, Gonzalez VH, Jampol LM, Melia M, Sun JK, Wells JA 3rd; Diabetic Retinopathy Clinical Research Network. Early Response to Anti-Vascular Endothelial Growth Factor and Two-Year Outcomes Among Eyes With Diabetic Macular Edema in Protocol T. Am J Ophthalmol. 2018 Nov;195:93-100. doi: 10.1016/j.ajo.2018.07.030. Epub 2018 Aug 2. — View Citation
Bressler NM, Glassman AR, Hutton DW. Controversies in Using Off-Label Intravitreous Bevacizumab for Patients With Diabetic Macular Edema-Reply. JAMA Ophthalmol. 2017 Mar 1;135(3):291-292. doi: 10.1001/jamaophthalmol.2016.5686. — View Citation
Bressler NM, Odia I, Maguire M, Glassman AR, Jampol LM, MacCumber MW, Shah C, Rosberger D, Sun JK; DRCR Retina Network. Association Between Change in Visual Acuity and Change in Central Subfield Thickness During Treatment of Diabetic Macular Edema in Participants Randomized to Aflibercept, Bevacizumab, or Ranibizumab: A Post Hoc Analysis of the Protocol T Randomized Clinical Trial. JAMA Ophthalmol. 2019 Jun 27. doi: 10.1001/jamaophthalmol.2019.1963. [Epub ahead of print] — View Citation
Bressler SB, Liu D, Glassman AR, Blodi BA, Castellarin AA, Jampol LM, Kaufman PL, Melia M, Singh H, Wells JA; Diabetic Retinopathy Clinical Research Network. Change in Diabetic Retinopathy Through 2 Years: Secondary Analysis of a Randomized Clinical Trial Comparing Aflibercept, Bevacizumab, and Ranibizumab. JAMA Ophthalmol. 2017 Jun 1;135(6):558-568. doi: 10.1001/jamaophthalmol.2017.0821. — View Citation
Bressler SB, Odia I, Maguire MG, Dhoot DS, Glassman AR, Jampol LM, Marcus DM, Solomon SD, Sun JK; Diabetic Retinopathy Clinical Research Network. Factors Associated With Visual Acuity and Central Subfield Thickness Changes When Treating Diabetic Macular Edema With Anti-Vascular Endothelial Growth Factor Therapy: An Exploratory Analysis of the Protocol T Randomized Clinical Trial. JAMA Ophthalmol. 2019 Apr 1;137(4):382-389. doi: 10.1001/jamaophthalmol.2018.6786. — View Citation
Diabetic Retinopathy Clinical Research Network, Wells JA, Glassman AR, Ayala AR, Jampol LM, Aiello LP, Antoszyk AN, Arnold-Bush B, Baker CW, Bressler NM, Browning DJ, Elman MJ, Ferris FL, Friedman SM, Melia M, Pieramici DJ, Sun JK, Beck RW. Aflibercept, b — View Citation
Glassman AR, Duh EJ, Liu D, Jampol LM. Reply. Ophthalmology. 2018 Nov;125(11):e82. doi: 10.1016/j.ophtha.2018.05.004. — View Citation
Glassman AR, Liu D, Jampol LM, Sun JK; Diabetic Retinopathy Clinical Research Network. Changes in Blood Pressure and Urine Albumin-Creatinine Ratio in a Randomized Clinical Trial Comparing Aflibercept, Bevacizumab, and Ranibizumab for Diabetic Macular Edema. Invest Ophthalmol Vis Sci. 2018 Mar 1;59(3):1199-1205. doi: 10.1167/iovs.17-22853. — View Citation
Jampol LM, Glassman AR, Bressler NM, Wells JA, Ayala AR; Diabetic Retinopathy Clinical Research Network. Anti-Vascular Endothelial Growth Factor Comparative Effectiveness Trial for Diabetic Macular Edema: Additional Efficacy Post Hoc Analyses of a Randomized Clinical Trial. JAMA Ophthalmol. 2016 Dec 1;134(12). doi: 10.1001/jamaophthalmol.2016.3698. — View Citation
Jampol LM, Glassman AR, Bressler NM. Comparative Effectiveness Trial for Diabetic Macular Edema: Three Comparisons for the Price of 1 Study From the Diabetic Retinopathy Clinical Research Network. JAMA Ophthalmol. 2015 Sep;133(9):983-4. doi: 10.1001/jamaophthalmol.2015.1880. — View Citation
Jampol LM, Glassman AR, Liu D, Aiello LP, Bressler NM, Duh EJ, Quaggin S, Wells JA, Wykoff CC; Diabetic Retinopathy Clinical Research Network. Plasma Vascular Endothelial Growth Factor Concentrations after Intravitreous Anti-Vascular Endothelial Growth Factor Therapy for Diabetic Macular Edema. Ophthalmology. 2018 Jul;125(7):1054-1063. doi: 10.1016/j.ophtha.2018.01.019. Epub 2018 Mar 7. — View Citation
Ross EL, Hutton DW, Stein JD, Bressler NM, Jampol LM, Glassman AR; Diabetic Retinopathy Clinical Research Network. Cost-effectiveness of Aflibercept, Bevacizumab, and Ranibizumab for Diabetic Macular Edema Treatment: Analysis From the Diabetic Retinopathy Clinical Research Network Comparative Effectiveness Trial. JAMA Ophthalmol. 2016 Aug 1;134(8):888-96. doi: 10.1001/jamaophthalmol.2016.1669. — View Citation
Wells JA 3rd, Glassman AR, Jampol LM. Targeting the Effect of VEGF in Diabetic Macular Edema. N Engl J Med. 2015 Jul 30;373(5):481-2. doi: 10.1056/NEJMc1505684. — View Citation
Wells JA, Glassman AR, Ayala AR, Jampol LM, Bressler NM, Bressler SB, Brucker AJ, Ferris FL, Hampton GR, Jhaveri C, Melia M, Beck RW; Diabetic Retinopathy Clinical Research Network. Aflibercept, Bevacizumab, or Ranibizumab for Diabetic Macular Edema: Two-Year Results from a Comparative Effectiveness Randomized Clinical Trial. Ophthalmology. 2016 Jun;123(6):1351-9. doi: 10.1016/j.ophtha.2016.02.022. Epub 2016 Feb 27. — View Citation
Wells JA, Glassman AR, Ayala AR, Jampol LM. Reply. Ophthalmology. 2017 Jan;124(1):e5-e6. doi: 10.1016/j.ophtha.2016.04.032. — View Citation
Wells JA, Glassman AR, Bressler NM, Ayala AR, Jampol LM. Reply. Ophthalmology. 2017 Apr;124(4):e38-e39. doi: 10.1016/j.ophtha.2016.08.032. — View Citation
Wells JA, Glassman AR, Jampol LM, Aiello LP, Antoszyk AN, Baker CW, Bressler NM, Browning DJ, Connor CG, Elman MJ, Ferris FL, Friedman SM, Melia M, Pieramici DJ, Sun JK, Beck RW; Diabetic Retinopathy Clinical Research Network. Association of Baseline Visual Acuity and Retinal Thickness With 1-Year Efficacy of Aflibercept, Bevacizumab, and Ranibizumab for Diabetic Macular Edema. JAMA Ophthalmol. 2016 Feb;134(2):127-34. doi: 10.1001/jamaophthalmol.2015.4599. Erratum in: JAMA Ophthalmol. 2016 Apr;134(4):469. — View Citation
Wells JA, Glassman AR, Jampol LM, Ayala A, Bressler NM. Reply. Ophthalmology. 2017 Mar;124(3):e26-e27. doi: 10.1016/j.ophtha.2016.07.001. — View Citation
* Note: There are 19 references in all — Click here to view all references
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Overall Change in Electronic Early Treatment Diabetic Retinopathy Study Visual Acuity Letter Score From Baseline to 1-year | Visual Acuity was measured with the Electronic Early Treatment Study (E-ETDRS) visual acuity test. Unit of measure is based on the E-ETDRS letter score scale, 0-97, where 0 = worst and 97 = best. | Baseline to 1-year | |
| Primary | Change in Electronic Early Treatment Diabetic Retinopathy Study Visual Acuity Letter Score From Baseline to 1-year: Baseline Visual Acuity Letter Score <69 | Visual Acuity was measured with the Electronic Early Treatment Study (E-ETDRS) visual acuity test. Unit of measure is based on the E-ETDRS letter score scale, 0-97, where 0 = worst and 97 = best. | Baseline to 1-year | |
| Primary | Change in Electronic Early Treatment Diabetic Retinopathy Study Visual Acuity Letter Score From Baseline to 1-year: Baseline Visual Acuity Letter Score 78-69 | Visual Acuity was measured with the Electronic Early Treatment Study (E-ETDRS) visual acuity test. Unit of measure is based on the E-ETDRS letter score scale, 0-97, where 0 = worst and 97 = best. | Baseline to 1-year | |
| Secondary | Overall Change in Optical Coherence Tomography Central Subfield Thickness | All baseline and 1-year optical coherence tomography (OCT) scans were graded by Duke Reading Center. In addition, a random sample of OCT images from other visits and images for which the investigator believed central grading was needed also were graded by Duke Reading Center. Baseline CSF values were converted from the thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 583 scans. One-year CSF values were converted from a thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 604 scans. When calculating change in CSF thickness, measurements taken on the same machine at both visits were not converted, since the conversion equation slope is nearly 1 and the constant difference does not affect the change calculation. Therefore, change in CSF thickness was calculated after converting either the baseline and/or follow-up thickness value from Spectralis or Cirrus to a Stratus equivalent value in 26 eyes. |
baseline to 1-year | |
| Secondary | Change in Optical Coherence Tomography Central Subfield Thickness: Baseline Visual Acuity Letter Score <69 | All baseline and 1-year optical coherence tomography (OCT) scans were graded by Duke Reading Center. In addition, a random sample of OCT images from other visits and images for which the investigator believed central grading was needed also were graded by Duke Reading Center. Baseline CSF values were converted from the thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 583 scans. One-year CSF values were converted from a thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 604 scans. When calculating change in CSF thickness, measurements taken on the same machine at both visits were not converted, since the conversion equation slope is nearly 1 and the constant difference does not affect the change calculation. Therefore, change in CSF thickness was calculated after converting either the baseline and/or follow-up thickness value from Spectralis or Cirrus to a Stratus equivalent value in 26 eyes. |
baseline to 1-year | |
| Secondary | Change in Optical Coherence Tomography Central Subfield Thickness: Baseline Visual Acuity Letter Score 78-69 | All baseline and 1-year optical coherence tomography (OCT) scans were graded by Duke Reading Center. In addition, a random sample of OCT images from other visits and images for which the investigator believed central grading was needed also were graded by Duke Reading Center. Baseline CSF values were converted from the thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 583 scans. One-year CSF values were converted from a thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 604 scans. When calculating change in CSF thickness, measurements taken on the same machine at both visits were not converted, since the conversion equation slope is nearly 1 and the constant difference does not affect the change calculation. Therefore, change in CSF thickness was calculated after converting either the baseline and/or follow-up thickness value from Spectralis or Cirrus to a Stratus equivalent value in 26 eyes. |
baseline to 1-year | |
| Secondary | Overall Change in Retinal Volume | Baseline volume values were converted from the thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 459 scans. One-year volume values were converted from a thickness value measured on a Spectralis or Cirrus OCT machine to a Stratus equivalent value for 472 scans. When calculating change in volume, measurements taken on the same machine at both visits were not converted, because the conversion equation slope is nearly 1 and the constant difference does not affect the change calculation. Therefore, change in volume was calculated after converting either the baseline and/or follow-up value from Spectralis or Cirrus to a Stratus equivalent value in 17 eyes. | Baseline to 1-year | |
| Secondary | Total Number of Injections Prior to 1 Year | Only includes participants that completed the 1 year visit | Baseline to 1-year | |
| Secondary | Total Number of Laser Treatments | Only includes participants that completed the 1 year visit. | between 24 weeks and 1 year | |
| Secondary | Eyes Receiving 1 or More Alternative Treatments for DME Other Than Laser | Baseline to 1-year |
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Phase 2 | |
| Completed |
NCT00683176 -
Effect of Choline Fenofibrate (SLV348) on Macular Edema
|
Phase 2 |