Homogeneous light stimulation of melanopsin and cones with a Maxwellian view device for the human eye

We designed and tested a device to stimulate specifically one photoreceptor type, or a combination of some of them, of the human eye by using up to six primaries. The device produces a homogeneous light field over 40 degrees which is projected onto the retina through a Maxwellian view optical system. It avoids the use of an artificial pupil, does not need pupil dilation and retinal illumination can be easily controlled. We successfully tested it with four primaries for melanopsin and S-cone stimulation while maintaining other photoreceptors at a fixed level in photopic regime.

Homogeneous light stimulation of melanopsin and cones with a Maxwellian view device for the human eye

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Neuroprotection in the Retina: From Preventing Inflammatory Cell Death to Promoting Vascular Stability in the Central Nervous System

Neuronal migration prevents spatial competition in retinal morphogenesis

Discomfort glare from daylight: Influence of transmitted color and the eye's macular pigment

Neuroprotection in the Retina: From Preventing Inflammatory Cell Death to Promoting Vascular Stability in the Central Nervous System

Neuronal migration prevents spatial competition in retinal morphogenesis

Discomfort glare from daylight: Influence of transmitted color and the eye's macular pigment