Bondy Stephen C, Campbell Arezoo
Department of Community and Environmental Medicine, Center for Occupational and Environmental Health, University of California, Irvine, Irvine, California 92967-1820, USA.
J Neurosci Res. 2005 Sep 1;81(5):605-12. doi: 10.1002/jnr.20589.
The developing brain has a distinctive set of characteristics that make it unusually sensitive to damage by toxic agents. Mechanistic understanding of the vulnerability of the immature nervous system to various chemicals is important from a preventive perspective but has also frequently given us new insights into maturation of neural circuitry. This review examines some of the developmental consequences of contact with various exogenous agents, including metals, solvents, pharmaceuticals, and natural products. This review emphasizes how subtle suboptimal brain function rather than acute toxicity can be a consequence of chemical exposures occurring during ontogenesis. The rate of brain aging may be influenced by events taking place in embryogenesis, following a prolonged asymptomatic period. The potential for appearance of adverse effects after prolonged latent periods is underscored.
发育中的大脑具有一系列独特的特征,使其对有毒物质造成的损害异常敏感。从预防的角度来看,对未成熟神经系统易受各种化学物质影响的机制性理解很重要,但它也经常为我们提供有关神经回路成熟的新见解。本综述探讨了接触各种外源性物质(包括金属、溶剂、药物和天然产物)的一些发育后果。本综述强调,在个体发育过程中发生的化学物质暴露可能导致微妙的脑功能次优,而非急性毒性。在经历一段较长的无症状期后,胚胎发育过程中发生的事件可能会影响大脑衰老的速度。强调了在长时间潜伏期后出现不良反应的可能性。