Abstract
Purpose. To correlate the long-term clinical effect of photocoagulation lesions after 6 months, as measured by their retinal damage size, to exposure parameters. We used optical coherence tomographic (OCT)-based lesion classes in order to detect and assess clinically invisible and mild lesions. Methods. In this prospective study, 488 photocoagulation lesions were imaged in 20 patients. We varied irradiation diameters (100/300 µm), exposure-times (20–200 ms), and power. Intensities were classified in OCT images after one hour, and we evaluated OCT and infrared (IR) images over six months after exposure. Results. For six consecutive OCT-based lesion classes, the following parameters increased with the class: ophthalmoscopic, OCT and IR visibility rate, fundus and OCT diameter, and IR area, but not irradiation power. OCT diameters correlated with exposure-time, irradiation diameter, and OCT class. OCT classes discriminated the largest bandwidth of OCT diameters. Conclusion. OCT classes represent objective and valid endpoints of photocoagulation intensity even for “subthreshold” intensities. They are suitable to calculate the treated retinal area. As the area is critical for treatment efficacy, OCT classes are useful to define treatment intensity, calculate necessary lesion numbers, and universally categorize lesions in clinical studies.
Highlights
Retinal photocoagulation is inexpensive and easy-to-administer, and the treatment requires only limited repetition and follow-up
Previous studies have used a variety of criteria to define lesion intensity, such as ophthalmoscopic invisibility [16], fluorescein angiographic (FLA) leakage [6, 11], optoacoustics [17], power titration according to reference lesions [18,19,20], long-term autofluorescence (AF) imaging [16], and others
Class two is barely visible in the outer nuclear layer (ONL) after one hour, and class three is clearly visible with an inner segment (IS)—outer segment (OS) junction line interruption after one hour
Summary
Retinal photocoagulation is inexpensive and easy-to-administer, and the treatment requires only limited repetition and follow-up. It remains the basic therapy for peripheral retinal ischemia and an adjunctive therapy for diabetic macular edema [1]. Much effort has been undertaken to reduce lesion intensities [5,6,7,8,9], and pilot studies have collected evidence that “subthreshold” laser treatment can be effective [10,11,12,13,14,15]. An OCTbased classifier may discern two to three subvisible lesion
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