In a variety of brain injury models, both reactive axonal change and microvascular abnormalities occur. Development of a stretch injury model in the guinea pig optic nerve has allowed for the characterization of the early axonal response to injury. In this same model, we have now attempted to characterize those morphologic changes occurring in the visual system microvasculature after injury. Thirty adult guinea pigs were subjected to axonal stretch injury and killed at posttraumatic survival periods ranging from 10 minutes to 14 days. Twenty animals were examined by scanning electron microscopy (SEM) for the detection of posttraumatic changes in the surface morphology of the microvasculature, and 10 animals were processed for transmission electron microscopy (TEM) analysis. Through this approach, increased pit vesicle activity and formation of endothelial microvilli were recognized within 10 minutes of injury. Pit vesicle activity returned to control levels by 2 hours. The formation of endothelial microvilli was widespread, affecting the microvessels in both the stretched and unstretched optic nerves and in the chiasm. The greatest response developed most slowly in the stretched nerve, and it was faster but less marked in the unstretched nerve and chiasm. Microvilli were more numerous in larger vessels. Related astrocytic swelling/lucency was not apparent until 6 hours after injury. The astrocyte response was less marked than that documented after brain injury. The results of this investigation demonstrate a widespread microvascular response to stretch injury of the guinea pig optic nerve. Comparison with the documented responses to traumatic brain injury indicates different rates of response to different types of insult.