Which description correctly characterizes the inner plexiform layer?

• A. Interface between ganglion and bipolar cells
• B. Contains photoreceptor outer segments
• C. Location where the retina attaches to the choroid
• D. Area where the optic nerve exits the eyeball

Answer: (A)

The inner plexiform layer is the synaptic zone in the inner retina where the signal flows from bipolar cells to the next neurons, namely ganglion cells (with amacrine cells also involved). It sits between the inner nuclear layer and the ganglion cell layer, and within it bipolar cell terminals form synapses with ganglion cell dendrites. That makes it the interface where the transmission from the bipolar cells to the ganglion cells occurs, which is exactly what the option describes.

The other statements describe parts outside this layer: photoreceptor outer segments are in the outer retina, not the inner plexiform layer; the retina’s attachment to the choroid pertains to a different anatomical context; and the optic nerve exits the eye at the optic disc, not within the inner plexiform layer.