Author(s): Jack Hsiang and Elva D?az
The desirable characteristics of lead - a malleable heavy metal resistant to corrosion - have resulted in its extensive use, especially in building construction, for the past several millen-nia. There is no known physiological relevant role for lead in the body; however, its harmful effects are numerous. Lead interferes with a variety of body processes and it is toxic to many organs and tissues. Like mercury, another heavy metal, lead is a potent neurotoxin that damages the nervous system and causes brain disorders. Although current lead usage has been minimized, lead exposure is still a risk because environmental lead is stable and no safe threshold for lead exposure has been established. Here, we review the current understand-ing of the effects of lead on the developing nervous system at the physiological, cellular, and molecular level. The effects of lead are particularly damaging to the developing nervous sys-tem, causing potentially irreversible learning and behavior deficits in children. Increased understanding of the deleterious effects of lead on the developing nervous system is vital to inform the safety guidelines associated with lead exposure.