The experiment was performed to determine the effects of microwave and cell phone radiation on ocular development and lens opacity in Xenopus laevis tadpoles. Our model system for these studies is the amphibian developing retina, a derivative of the diencephalon of the forebrain. In order to examine the tadpoles, MS-222 was used as an anesthetic. To induce amplexus, we injected 500 IU of chorionic gonadotropin into the dorsal lymph sacs of both male and female Xenopus laevis. Embryos were exposed to microwave and cell phone radiation during all stages of embryonic development. Morphological changes in the developing eye were monitored photographically and a qualitative assay was used to assess lens opacity. Results from the experiments have been inconclusive. Deaths of tadpoles were experienced but were tied to outside circumstances.