袭著革;林治卿;

• 1:军事医学科学院卫生学环境医学研究所
• 2:军事医学科学院卫生学环境医学研究所 天津300050
• 3:天津300050

摘要(Abstract)：

纳米科技与产业化已列入国家科技中长期发展规划,将为我国经济和社会的可持续发展做出重大贡献。在发展纳米科技的同时,要密切关注其对生态环境和人群健康的潜在危害,探讨纳米技术正反两个方面的效应,真正地推动纳米科技的进步,促进纳米技术产业化健康、有序发展.为此,以自然环境存在的和人工合成的纳米尺度物质为综述对象,探讨了其对生态环境和人群健康的潜在影响,综述了纳米尺度物质生物安全性、危险度评估技术、对健康影响的作用机制以及潜在危害的防控措施等方面的研究进展,在此基础上,对纳米技术对生态环境影响研究和生物安全性研究的发展方向进行了展望.

关键词(KeyWords)： 纳米技术;纳米材料;超细颗粒物;生态毒理;生物安全

Abstract:

Keywords:

基金项目(Foundation): 国家自然科学基金项目(No.90406024;No.30500399)

作者(Author): 袭著革;林治卿;

Email:

参考文献(References)：

• Barlow P G, Clouter- Baker A, Donaldson K. 2005. Carbon blacknanoparticles induce type Ⅱ epithelial cells to release chemotaxinsfor alveolar macrophages[ J] . Particle and Fibre Toxicology, 2: 11
• Cross T G, Scheel-Toellner D, Henriquez N V, Deacon E, SalmonM, Lord J M. 2000. Serine/threonine protein kinases andapoptosia [ J] . Exp Cell Res, 256: 34- 41
• Derfus A M, Chan W C W, Bhatia S N. 2004. Probing thecytotoxicity of semiconductor quantum dots [ J] . Nanometer etter,4( 1) : 11- 18
• Donaldson K, Tran L, Jimenez L J. 2005. Combustion - derivednanoparticles: A review of their toxicology following inhalationexposure[ J] . Particle and Fibre Toxicology, 2: 10
• Dreher K L. 2000. Particulate matter physicochemistry andtoxicology: In search of causality—A critical perspective [ J] .Inhalation Toxicology, 12 ( Suppl. 3) : 45- 57
• Dreher K L. 2004. Toxicological highlight: Health and environmentalimpact of nanotechnology: Toxicological assessment of manufacturednanoparticles [ J] . Toxicological Sciences, 77: 3- 5
• Elder A C P, Gelein R, Azadniv M, Frampton M, Finkelstein J,Oberd!rster G. 2004. Systemic effects of inhaled ultrafineparticles in two compromised, aged rat strains [ J] . InhalationToxicology, 16( 6/7) : 461- 471
• EPA. 2004. Impact of manufacyured nanomaterials on humanhealth [ OL] . http://alpha.ddm.uci.edu/zotmail/archive/2004
• Geoff B. 2003. A little known knowledge [ J] . Nature, 2424:246
• Gerlofs- Nijland M E, Boere A J F, Leseman D L, Dormans J AM A, Sandstr!m T, Salonen R O, van Bree L, Cassee F R.2005. Effects of particulate matter on the pulmonary and vascularsystem: Time course in spontaneously hypertensive rats [ J] .Particle and Fibre Toxicology, 2: 2
• Ghio A J, Devlin R B. 2001. Inflammatory lung injury afterbronchial instillation of air pollution particles [ J] . AmericanJournal of Respiratory and Critical Care Medicine, 164: 704- 708
• Giles J. 2004. Nanoparticles in the brain [ J] . Nature, Jan 9( Internet edition)
• Henneberger A, Zareba W, Ibald- Mulli A, Rückerl R, Cyrys J,Couderc J P, Mykins B, Woelke G, Wichmann H E. 2005.Repolarization changes induced by air pollution in ischemic heartdisease patients[ J] . Environmental Health Perspective, 113: 440-446
• Kagan V E, Bayir H, Shvedova A A. 2005. Nanomedicine andnanotoxicology: Two sides of the same coin [ J] . Nanomedicine, 1( 4) : 313- 316
• Keith M. 2002. Tiny air particles may get into the blood [ J] .Circulation, 105: 411- 414
• Lecoanet H, Bottero J, Wiesner M. 2004. Laboratory assessmentof the mobility of nanomaterials in porous media [ J] .Environmental Science & Technology, 38: 5164- 5169
• Li N, Sioutas C, Cho A, Schmitz D, Misra C, Sempf J, WangM, Oberley T, Froines J, Nel A. 2003. Ultrafine particulatepollutants induce oxidative stress and mitochondrial damage [ J] .Environmental Health Perspective, 111: 455- 460
• Masciangioli T M, Zhang W X. 2003. Environmental technologiesat the nanoscale: Potential & pitfalls [ J] . Environmental Science& Technology, 37: 102A- 108A
• Oberd!rster E. 2004. Manufactured nanomaterials ( fullerenes,C60) induce oxidative stress in the brain of juvenile largemouthbass[ J] . Environmental Health Perspective, 112( 10) : 1058- 1062
• Oberd!rster G, Oberd!rster E, Oberd!rster J. 2005a. Nanotoxicology:An emerging discipline evolving from studies of ultrafine particles[ J] . Environmental Health Perspective, 1131( 7) : 823- 839
• Oberd!rster G, Oberd!rster E, Oberd!rster J. 2005b. Nanotoxicology:An emerging discipline evolving from studies of ultrafine particles[ OL] . http://ehp.niehs.nih.gov/members/2005/7339/supplemental.pdf
• Pope C A, Burnett R T, Thun M J, Calle E E, Krewski D, ItoK, Thurston G D. 2002. Lung cancer, cardiopulmonary mortalityand long-term exposure to fine particulate air pollution [ J] . JAMA,287( 9) : 1132
• Renwick L C, Brown D, Clouter A, Donaldson K. 2004.Increased inflammation and altered macrophage chemotacticresponse caused by two ultrafine particle types [ J] . Occupationaland Environmental Medicine, 61( 5) : 442- 447
• Rice R F. 2003. Nanomaterials signs of toxicity [ J] . Science,300: 243
• Rodoslav S, Laibin L, Eisenberg A, Dusica M. 2003. Micellarnanocontainers distribute to defined cytoplasmic organelles [ J] .Science, 300: 615- 618
• Shi J P, Evans D E, Khan A A, Harrison R M. 2001. Sourcesand concentration of nanoparticles( <10nm diameter) in the urbanatmosphere [ J] . Atmospheric Environment, 35: 1193- 1202
• Utsunomiya S, Jensen K, Ewing R C. 2004. Direct identificationof trace metals in fine and ultrafine particles in the Detroit urbanatmosphere [ J] . Environmental Science & Technology, 38( 8) :2289- 2297
• Von Klot S, Wolke G, Tuch T, Heinrich J, Dockery D W,Schwartz J, Kreyling W G, Wichmann H E, Peters A. 2002.Increased asthma medication use in association with ambient fineand ultrafine particles [ J] . Eur Respir J, 20: 691- 702
• Yamakoshi Y, Umezawa N, Ryu A, Arakane K, Miyata N, GodaY, Masumizu T, Nagano T. 2003. Active oxygen speciesgenerated from photoexcited fullerene( C60) as potential medicines[ J] . J Am Chem Soc, 125: 12803- 12809 ◆