Literature DB >> 19174719

Association of the extent of diabetic macular edema as assessed by optical coherence tomography with visual acuity and retinal outcome variables.

David J Browning1, Rajendra S Apte, Susan B Bressler, Kakarla V Chalam, Ronald P Danis, Matthew D Davis, Craig Kollman, Haijing Qin, Srinivas Sadda, Ingrid U Scott.   

Abstract

PURPOSE: To determine whether the extensiveness of diabetic macular edema using a 10-step scale based on optical coherence tomography explains pretreatment variation in visual acuity and predicts change in macular thickness or visual acuity after laser photocoagulation.
METHODS: Three hundred twenty-three eyes from a randomized clinical trial of two methods of laser photocoagulation for diabetic macular edema were studied. Baseline number of thickened optical coherence tomography subfields was used to characterize diabetic macular edema on a 10-step scale from 0 to 9. Associations were explored between baseline number of thickened subfields and baseline fundus photographic variables, visual acuity, central subfield mean thickness (CSMT), and total macular volume. Associations were also examined between baseline number of thickened subfields and changes in visual acuity, CSMT, and total macular volume at 3.5 and 12 months after laser photocoagulation.
RESULTS: For baseline visual acuity, the number of thickened subfields explained no more variation than did CSMT, age and fluorescein leakage. A greater number of thickened subfields was associated with a greater baseline CSMT, total macular volume, area of retinal thickening, and degree of thickening at the center of the macula (r = 0.64, 0.77, 0.61-0.63, and 0.45, respectively) and with a lower baseline visual acuity (r = 0.38). Baseline number of thickened subfields showed no association with change in visual acuity (r < or = 0.01-0.08) and weak associations with change in CSMT and total macular volume (r from 0.11 to 0.35).
CONCLUSION: This optical coherence tomography based assessment of the extensiveness of diabetic macular edema did not explain additional variation in baseline visual acuity above that explained by other known important variables nor predict changes in macular thickness or visual acuity after laser photocoagulation.

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Year:  2009        PMID: 19174719      PMCID: PMC2657814          DOI: 10.1097/IAE.0b013e318194995d

Source DB:  PubMed          Journal:  Retina        ISSN: 0275-004X            Impact factor:   4.256


  17 in total

1.  The correlation between fluorescein angiographic and optical coherence tomographic features in clinically significant diabetic macular edema.

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Authors:  Lars Loumann Knudsen
Journal:  Retina       Date:  2004-12       Impact factor: 4.256

3.  The National Diabetic Retinopathy Laser Treatment Audit. III. Clinical outcomes.

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4.  Grid photocoagulation for diffuse macular edema.

Authors:  H R McDonald; H Schatz
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5.  Posterior sub-Tenon's capsule triamcinolone injection combined with focal laser photocoagulation for diabetic macular edema.

Authors:  Murat Tunc; Halil Ibrahim Onder; Murat Kaya
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8.  Focal photocoagulation treatment of diabetic macular edema. Relationship of treatment effect to fluorescein angiographic and other retinal characteristics at baseline: ETDRS report no. 19. Early Treatment Diabetic Retinopathy Study Research Group.

Authors: 
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Review 9.  Diabetic macular edema: what is focal and what is diffuse?

Authors:  David J Browning; Michael M Altaweel; Neil M Bressler; Susan B Bressler; Ingrid U Scott
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10.  Modified grid laser photocoagulation for diffuse diabetic macular edema. Long-term visual results.

Authors:  C M Lee; R J Olk
Journal:  Ophthalmology       Date:  1991-10       Impact factor: 12.079
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5.  Imaging of diabetic retinopathy and diabetic macular edema.

Authors:  Ronald P Danis; Larry D Hubbard
Journal:  Curr Diab Rep       Date:  2011-08       Impact factor: 4.810

6.  Association of fluorescein angiographic features with visual acuity and with optical coherence tomographic and stereoscopic color fundus photographic features of diabetic macular edema in a randomized clinical trial.

Authors:  Ronald P Danis; Ingrid U Scott; Haijing Qin; Michael M Altaweel; Neil M Bressler; Susan B Bressler; David J Browning; Craig Kollman
Journal:  Retina       Date:  2010 Nov-Dec       Impact factor: 4.256

7.  Zone-wise examination of optical coherence tomography features and their correspondence to multifocal electroretinography in eyes with nonproliferative diabetic retinopathy.

Authors:  Sangeetha Srinivasan; Sobha Sivaprasad; Girija Munusamy; Ramachandran Rajalakshmi; Ranjit Mohan Anjana; Rayaz A Malik; Vaitheeswaran Kulothungan; Rajiv Raman; Muna Bhende
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8.  Infliximab for diabetic macular edema refractory to laser photocoagulation: a randomized, double-blind, placebo-controlled, crossover, 32-week study.

Authors:  Petros P Sfikakis; Vlassis Grigoropoulos; Ioannis Emfietzoglou; George Theodossiadis; Nicholas Tentolouris; Evi Delicha; Christina Katsiari; Kleopatra Alexiadou; Erifili Hatziagelaki; Panayiotis G Theodossiadis
Journal:  Diabetes Care       Date:  2010-04-22       Impact factor: 17.152

9.  Monotherapy laser photocoagulation for diabetic macular oedema.

Authors:  Eliane C Jorge; Edson N Jorge; Mayra Botelho; Joyce G Farat; Gianni Virgili; Regina El Dib
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  9 in total

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