Intravitreal injection worsens outcomes in a mouse model of indirect traumatic optic neuropathy from closed globe injury

Abstract

It is well established that an intravitreal needle poke or injection of buffer is protective to the retina in models of photoreceptor degeneration due to release of endogenous neurotrophic factors. Here we assess the effect of intravitreal injection of buffer in a model of closed globe trauma that causes air-blast induced indirect traumatic optic neuropathy (bITON). We injected animals 1-day after the last bITON or sham procedure and performed assessments 1-month later. Surprisingly, we detected a lower electroretinogram (ERG), greater optic nerve damage, and increased levels of pro-inflammatory cytokines in animals given an intravitreal injection. The effect was sometimes independent of bITON and sometimes exacerbated by the injury. Retina histology appeared normal, however the total number of axons in the optic nerve was lower even in uninjured animals that were injected. The number of degenerative axons was further increased in injured animals that were injected. In contrast, we detected a decrease in the ERG a wave and b wave amplitudes, but no effect on the visual evoked potential. Levels of the pro-inflammatory cytokines, IL-1α and IL-1β were elevated in the mice that received an intravitreal injection. This increase was even greater in animals that also had a bITON. This suggests that intravitreal injections may be injurious to the optic nerve particularly during the acute stage of optic nerve injury. In addition, the data suggests a role for IL-1α and IL-1β in this response.