According to one aspect, a retinal imaging device comprising at least one emission source (LS, LS) of a light beam for illumination of the retina of an eye (10) of a subject, an imaging pathway of the retina comprising a detection device (12) with a detection plane (121) and an imaging optical system (L1, L5, L6), an analysis path comprising a device (15) measuring optical defects with an analysis plane (151) for receiving a set of light rays backscattered by the retina and means for optical conjugation of said analysis plane with a predetermined plane in the input space of said system imaging device, a correction device (14) common to said analysis and imaging channels, comprising a correction plane (141) and intended to correct in said correction plane the light rays originating from said source of emission and backscattered by the retina as a function of optical defects measured by the device for measuring optical defects. It further comprises a light occultation system (20) positioned in a plane adjacent to or coincident with said correction plane or in an image plane of said correction plane situated on a common optical path of the analysis and transmission channels. imaging, and dimensioned to at least partially obscure the reflections by the corneal diopter light rays from said source of emission.L'invention concerne selon un aspect un dispositif d'imagerie rétinienne comprenant au moins une source d'émission (LS , LS ) d'un faisceau lumineux pour l'illumination de la rétine d'un œil (10) d'un sujet, une voie d'imagerie de la rétine comprenant un dispositif (12) de détection avec un plan de détection (121) et un système optique (L1, L5, L6) d'imagerie, une voie d'analyse comprenant un dispositif (15) de mesure de défauts optiques avec un plan d'analyse (151) destiné à recevoir un ensemble de rayons lumineux rétrodiffusés par la rétine et des moyens de conjugaison optique dudit plan d'analyse avec un plan prédéterminé dans l'espace d'entrée dudit système d'ima
