Optokinetic testing is a noninvasive technique, widely used for visual functional evaluation in rodents. The modulatory influence of optokinetic stimulus parameters such as contrast level and grating speed on head-tracking response in normal and retinal degenerate (RD) mice (rd10) and rats (S334ter-line-3) was evaluated using a computer-based testing apparatus. In normal (non-RD) mice and rats, specific stripe width and grating speed was found to evoke maximum optokinetic head-tracking response. In line-3 RD rats, the contrast sensitivity loss was slow and remained close to the baseline (normal control) level until very late in the disease, whereas, in rd10 mice the progression of the contrast sensitivity loss was more rapid. Observed differences between rd10 mice and line-3 RD rats in the progression of contrast sensitivity loss may not be directly related to the degree of photoreceptor loss. In young RD mice, the modulatory influence of stimulus parameters on optokinetic head-tracking response was similar to normal control animals. During later stages, slower grating speed was required to evoke the maximum optokinetic response. Grating speed had lesser apparent influence on the response properties of line-3 RD rats. Discrepancies between the two RD models in the modulatory influence of optokinetic stimulus parameters can be the manifestation of fundamental species differences and/or differences in the degeneration pattern. This study highlights the importance of careful selection of appropriate stimulus parameters for testing optokinetic head-tracking response in RD animals.