The retina as well as other tissues needs iron to survive, but modifications in iron metabolism have also been suggested to contribute to cerebral neurodegenerative diseases. Our study was intended to investigate iron distribution in the retina of normal rats and Royal College of Surgeons rats (RCS rats) affected by hereditary degeneration of the photoreceptors at different developmental stages (35, 45 and 55 days after birth). Iron (Fe) distribution was determined by PIXE (Proton Induced X-ray Emission) microanalysis on retinal sections and compared to other tissues (cornea, liver, spleen) and to other elements (Cu, Zn, Ca). Elemental concentrations were determined in different retinal layers especially the photoreceptors, which are progressively altered and disappear in the RCS rats. Iron is unevenly distributed throughout the rat retina. The highest concentration is observed in the choroid and the retinal pigmented epithelium and in the inner segments of photoreceptors. Iron content is lower in the outer segments but still significant. It increases during both the development and the disease at the level of the segments. This last localised iron increase can result in an overproduction of free radicals and be correlated with the photoreceptor cell loss. The distributions of other elements (Cu, Zn, Ca) revealed interesting temporal progressions.