Abstract: An apparatus and method for collecting medical data which envisages: acquiring medical data by means of a medical data collecting apparatus (10); storing a copy of said medical data in a remote device (16), separate from the apparatus (10); assessing the methods of use of the apparatus (10) by means of a predefined algorithm comparing the medical data comprised in the last copy stored and the medical data comprised in the penultimate copy stored of the medical data; limiting or blocking functioning of the apparatus (10) if the methods of use assessed correspond with predefined prohibited methods of use.

Abstract: Ocular fundus inspection apparatus (10) having a frame (11) provided with references for the positioning of at least one of the patient's eyes in an inspection position, and an inspection unit (100) fixed to the frame (11) and comprising: a first optical unit (12) having an optical axis incident in correspondence of the inspection position references; an image detecting device (13); a second optical unit (14), for the focusing, having an optical axis incident on the detecting device (13), in said inspection unit (100) being defined an optical path between the first optical unit (12) and the detecting device (13); a first lighting unit (15) for projecting a focusing pattern, for focusing the ocular fundus on said detecting device (13), the focusing pattern being formed by an infrared radiation. The first lighting unit (15) emits the focusing pattern from a first emission position.

Abstract: Lighting device (10) having a support (11), a plurality of emitting elements (12) adapted to emit light, fixed to the support (11) and each having an emission direction (A) radial to a predefined optical axis (B). The lighting device (10) is provided with a reflection surface (13) facing the emitting elements (12) and configured to reflect the light emitted in use by the latters in a direction parallel to the optical axis (B).

Abstract: Ophthalmoscopic apparatus (10) having a frame (11) provided with references for the positioning of at least one of the user's eyes in an inspection position; a first optical unit (12) fixed to the frame (11) and faced to the inspection position references; a second optical unit (13) associated to the frame (11) and presenting an optical axis coincident with the optical axis of the first optical unit (12) and defining a main optical axis (A) incident in correspondence of the inspection position references; an image detecting device (14) fixed to the frame (11); a support (15) fixed to the frame (11) between the first optical unit (12) and the second optical unit (13), and having an operating part (B) permeable to the luminous radiation and intersected by the main optical axis (A); and a lighting means (16) associated to the support (15).