Apoptosis in the ganglion cell (GCL) and inner nuclear (INL) layers of human fetal retinae aged 14-35 weeks of gestation (WG) was investigated in relation to synaptogenesis and foveal depression formation. Terminal transferase dUTP-biotin nick end labeling (TUNEL) was used to identify apoptosis, and synapse development was demonstrated by synaptophysin immunoreactivity (-IR). The distribution of apoptotic cells and synaptophysin-IR was studied as a function of eccentricity. Between 14 and 23-24 WG in the GCL, rates of apoptosis were relatively low in central retina. A shallow fovea was detected at 23-24 WG. In the central GCL, the rate of apoptosis was 0.21% of viable cells compared with a higher incidence of 0.79-1.64% peripherally. Apoptosis in the INL was 2-8 times greater than that in the GCL. At 14-15 WG, peak death occurred at the incipient fovea; however, by 20 WG the distribution was bimodal, with peaks at more eccentric locations on either side of the incipient fovea with increasing age. Approximately 90% of INL apoptotic cells were in the middle and outer regions, suggesting that bipolar cells formed the majority of dying neurons. Synaptophysin-IR was present in cones, bipolar cells, and processes in the inner and outer plexiform layers at the incipient fovea at 14 WG and spread peripherally with increasing age. The peripheral margin of synaptophysin-IR coincided with areas of peak INL apoptosis. This pattern suggests that bipolar cell elimination is associated with the onset of synaptogenesis. Apoptosis in the GCL and INL is not a significant factor in foveal depression morphogenesis.