Cajal’s fascination with the retina is well documented – his publications on retinal neurons and organization in various species span 45 years, the length of his career. While many of Cajal’s representations of the retina focus on the visual pathway and the directionality of signal flow, this figure depicting a cross section of the mammalian retina showcases the wide variety of cell types therein, particularly amacrine cells (f-n). While the direction of information flow was clear in photoreceptors (ñ and s), bipolar cells (not pictured here) and ganglion cells (o), amacrine cells and horizontal cells (a,b) seemed to defy his law of dynamic polarization. Cajal imagined that the retina transmitted visual information like a complete photograph up into the visual cortex. We now know that the retina actually transmits many photographs in parallel, each depicting specific qualities of the visual world. Horizontal and amacrine cells shape the spatial and temporal characteristics of these parallel images, enabling ganglion cells to encode complex information about color, contrast, motion and other visual features.

3D model created by Jeremy Swan based on an original illustration by Santiago Ramon y Cajal