Safety assessment in macaques of light exposures for functional two-photon ophthalmoscopy in humans

C Schwarz, R Sharma, WS Fischer, M Chung… - Biomedical optics …, 2016 - opg.optica.org
C Schwarz, R Sharma, WS Fischer, M Chung, G Palczewska, K Palczewski, DR Williams…
Biomedical optics express, 2016opg.optica.org
Two-photon ophthalmoscopy has potential for in vivo assessment of function of normal and
diseased retina. However, light safety of the sub-100 fs laser typically used is a major
concern and safety standards are not well established. To test the feasibility of safe in vivo
two-photon excitation fluorescence (TPEF) imaging of photoreceptors in humans, we
examined the effects of ultrashort pulsed light and the required light levels with a variety of
clinical and high resolution imaging methods in macaques. The only measure that revealed …
Two-photon ophthalmoscopy has potential for in vivo assessment of function of normal and diseased retina. However, light safety of the sub-100 fs laser typically used is a major concern and safety standards are not well established. To test the feasibility of safe in vivo two-photon excitation fluorescence (TPEF) imaging of photoreceptors in humans, we examined the effects of ultrashort pulsed light and the required light levels with a variety of clinical and high resolution imaging methods in macaques. The only measure that revealed a significant effect due to exposure to pulsed light within existing safety standards was infrared autofluorescence (IRAF) intensity. No other structural or functional alterations were detected by other imaging techniques for any of the exposures. Photoreceptors and retinal pigment epithelium appeared normal in adaptive optics images. No effect of repeated exposures on TPEF time course was detected, suggesting that visual cycle function was maintained. If IRAF reduction is hazardous, it is the only hurdle to applying two-photon retinal imaging in humans. To date, no harmful effects of IRAF reduction have been detected.
opg.optica.org