Abstract
Selective Retina Therapy (SRT) targets the Retinal Pigment Epithelium (RPE) without effecting neighboring layers as the photoreceptors or the choroid. SRT related RPE defects are ophthalmoscopically invisible. Owing to this invisibility and the variation of the threshold radiant exposure for RPE damage the treating physician does not know whether the treatment was successful or not. Thus measurement techniques enabling a correct dosing are a demanded element in SRT devices. The acquired signal can be used for monitoring or automatic irradiation control. Existing monitoring techniques are based on the detection of micro-bubbles. These bubbles are the origin of RPE cell damage for pulse durations in the ns and µs time regime 5µs. The detection can be performed by optical or acoustical approaches. Monitoring based on an acoustical approach has already been used to study the beneficial effects of SRT on diabetic macula edema and central serous retinopathy. We have developed a first real time feedback technique able to detect micro-bubble induced characteristics in the backscattered laser light fast enough to cease the laser irradiation within a burst. Therefore the laser energy within a burst of at most 30 pulses is increased linearly with every pulse. The laser irradiation is ceased as soon as micro-bubbles are detected. With this automatic approach it was possible to observe invisible lesions, an intact photoreceptor layer and a reconstruction of the RPE within one week.
© 2013 SPIE
PDF ArticleMore Like This
Hardo Stoehr, Lars Ptaszynski, Andreas Fritz, and Ralf Brinkmann
6632_29 European Conference on Biomedical Optics (ECBO) 2007
Ralf Brinkmann, Dirk Theisen-Kunde, Jörg Neumann, Hanno Elsner, Erk Pörksen, Peter Hamilton, Johann Roider, and Reginald Birngruber
SuB5 European Conference on Biomedical Optics (ECBO) 2005
Andreas Fritz, Lars Ptaszynski, Hardo Stoehr, and Ralf Brinkmann
6632_68 European Conference on Biomedical Optics (ECBO) 2007