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1.  In vivo two-photon imaging of the mouse retina 
Biomedical Optics Express  2013;4(8):1285-1293.
Though in vivo two-photon imaging has been demonstrated in non-human primates, improvements in the signal-to-noise ratio (SNR) would greatly improve its scientific utility. In this study, extrinsic fluorophores, expressed in otherwise transparent retinal ganglion cells, were imaged in the living mouse eye using a two-photon fluorescence adaptive optics scanning laser ophthalmoscope. We recorded two orders of magnitude greater signal levels from extrinsically labeled cells relative to previous work done in two-photon autofluorescence imaging of primates. Features as small as single dendrites in various layers of the retina could be resolved and predictions are made about the feasibility of measuring functional response from cells. In the future, two-photon imaging in the intact eye may allow us to monitor the function of retinal cell classes with infrared light that minimally excites the visual response.
doi:10.1364/BOE.4.001285
PMCID: PMC3756587  PMID: 24009992
(330.4460) Ophthalmic optics and devices; (180.4315) Nonlinear microscopy; (170.0110) Imaging systems
2.  Images of photoreceptors in living primate eyes using adaptive optics two-photon ophthalmoscopy 
Biomedical Optics Express  2010;2(1):139-148.
In vivo two-photon imaging through the pupil of the primate eye has the potential to become a useful tool for functional imaging of the retina. Two-photon excited fluorescence images of the macaque cone mosaic were obtained using a fluorescence adaptive optics scanning laser ophthalmoscope, overcoming the challenges of a low numerical aperture, imperfect optics of the eye, high required light levels, and eye motion. Although the specific fluorophores are as yet unknown, strong in vivo intrinsic fluorescence allowed images of the cone mosaic. Imaging intact ex vivo retina revealed that the strongest two-photon excited fluorescence signal comes from the cone inner segments. The fluorescence response increased following light stimulation, which could provide a functional measure of the effects of light on photoreceptors.
doi:10.1364/BOE.2.000139
PMCID: PMC3028489  PMID: 21326644
(010.1080) adaptive optics; (330.4460) Ophthalmic optics and devices; (330.5310) Vision – photoreceptors; (330.7327) Visual optics, ophthalmic instrumentation

Results 1-2 (2)