Interferometric Optical Online Dosimetry for Selective Retina Treatment (SRT)
Autor: | Ralf Brinkmann, Andreas Fritz, Lars Ptaszynski, Hardo Stoehr |
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Rok vydání: | 2007 |
Předmět: |
Retina
Optical fiber Materials science Slit lamp Retinal pigment epithelium Laser diode business.industry Retinal medicine.disease Laser eye diseases law.invention Interferometry chemistry.chemical_compound Optics medicine.anatomical_structure chemistry law medicine Microbubbles Dosimetry sense organs business Cell damage Biomedical engineering |
Zdroj: | Therapeutic Laser Applications and Laser-Tissue Interactions III. |
DOI: | 10.1364/ecbo.2007.6632_29 |
Popis: | Selective retina treatment (SRT) is a new laser based method to treat retinal diseases associated with disorders of the retinal pigment epithelium (RPE). Applying microsecond laser pulses tissue damage spatially confined to the retinal pigment epithelium (RPE) is achieved. The RPE cell damage is caused by transient microbubbles emerging at the strongly absorbing melanin granules inside the RPE cells. Due to the spatial confinement to the RPE the photoreceptors can be spared and vision can be maintained in the treated retinal areas. A drawback for effective clinical SRT is that the laser induced lesions are ophthalmoscopically invisible. Therefore, a real-time feedback system for dosimetry is necessary in order to avoid undertreatment or unwanted collateral damage to the adjacent tissue. We develop a dosimetry system which uses optical interferometry for the detection of the transient microbubbles. The system is based on an optical fiber interferometer operated with a laser diode at 830nm. We present current results obtained with a laser slit lamp using porcine RPE explants in vitro and complete porcine eye globes ex vivo. The RPE cell damage is determined by Calcein fluorescence viability assays. With a threshold criterium for RPE cell death derived from the measured interferometric signal transients good agreement with the results of the viability assays is achieved. |
Databáze: | OpenAIRE |
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