Thomas Karluss, Sayre Philip
ILSI Health and Environmental Sciences Institute, Washington, District of Columbia 20005, USA.
Toxicol Sci. 2005 Oct;87(2):316-21. doi: 10.1093/toxsci/kfi270. Epub 2005 Jul 27.
Nanotechnology has the potential to dramatically improve the effectiveness of a number of existing consumer and industrial products and could have a substantial impact on the development of new products ranging from disease diagnosis and treatment to environmental remediation. The broad range of possible nanotechnology applications could lead to substantive changes in industrial productivity, economic growth, and international trade. A continuing evaluation of the human health implications of exposure to nanoscale materials will be essential before the commercial benefits of these materials can be fully realized. The purpose of this article is to review the human health implications of exposure to nanoscale materials in the context of a toxicological risk evaluation, the current scope of U.S. Federal research on nanoscale materials, and selected toxicological studies associated with nanoscale materials to note emerging research in this area.
纳米技术有可能显著提高许多现有消费产品和工业产品的效能,并可能对从疾病诊断与治疗到环境整治等新产品的开发产生重大影响。纳米技术广泛的潜在应用可能会给工业生产力、经济增长和国际贸易带来实质性变化。在充分实现这些材料的商业利益之前,持续评估接触纳米级材料对人类健康的影响至关重要。本文旨在结合毒理学风险评估、美国联邦政府目前对纳米级材料的研究范围以及与纳米级材料相关的部分毒理学研究,回顾接触纳米级材料对人类健康的影响,以关注该领域正在兴起的研究。