首页期刊信息编委及顾问期刊发行联系方式使用帮助常见问题ENGLISH
位置:首页 >> 正文
蛇纹石石棉纤维表面活性及生物持久性研究进展
作者:霍婷婷1 2 董发勤2 邓建军3 彭同江2 秦凯2 罗薇2 孙东平1 
单位:1. 南京理工大学化工学院 江苏 南京 210094  2. 西南科技大学 固体废物处理与资源化教育部重点实验室 四川 绵阳 621010  3. 绵阳四?四医院检验科 四川 绵阳 621000 
关键词:蛇纹石石棉 表面活性 生物持久性 安全性 
分类号:P578. 964
出版年,卷(期):页码:2016,44(5):763-768
DOI:10.14062/j.issn.0454-5648.2016.05.21
摘要:

蛇纹石石棉是重要的矿产资源,但其安全性问题一直制约其广泛应用。综述了蛇纹石石棉的流行病学和细胞毒性研究结果,蛇纹石石棉的理化性质与表面活性之间的联系及蛇纹石石棉纤维的生物持久性作用,并通过比较蛇纹石石棉浸蚀产物与SiO2颗粒的毒性作用效果,指出从矿物物理化学角度揭示石棉表面活性特性、持久性与生物安全性之间的本质联系对蛇纹石石棉的安全使用具有重要意义。

doxycycline doxycycline doxycycline

Chrysotile is an important mineral resource, however, its toxicity restricts its wide application. This review summarizes the epidemiology and cytotoxicity results of chrysotile asbestos. The relationship between physical and chemical properties of chrysotile, its surface activity as well as the bio-persistence of chrysotile were discussed. A comparative study on the toxic effect of chrysotile etching products and SiO2 indicates that the corresponding research on the relationship among surface active properties, durability and bio-persistence of chrysotile is of great importance for its safe applications.

cialis coupon cialis coupon cialis coupon
基金项目:
国家自然科学基金(41130746,41472046)资助项目
作者简介:
霍婷婷(1987—),女,博士研究生
sumatriptan side effects sumatriptan side effects sumatriptan side effects
cialis discount coupons coupons for cialis 2016 cialis 2015 coupon
参考文献:
[1] ÖZTÜRK B, ARSLAN F, ÖZTÜRK S. Effects of different kinds of fibers on mechanical and tribological properties of brake friction materials [J]. Tribol, 2013, 56(4): 536–545.
[2] BAYRAM M, BAKAN N D. Environmental exposure to asbestos: from geology to mesothelioma [J]. Curr Opin Pulm Med, 2014, 20(3): 301–307.
[3] MOITRA S, PURI R, PAUL D, et al. Global perspectives of emerging occupational and environmental lung diseases [J]. Curr Opin Pulm Med, 2015, 21(2): 114–120.  
[4] DARCEY D J, FELTNER C. Occupational and environ- mental exposure to asbestos [M]// OURY T D, ROGGLI V L, SPORN T A ed. Pathology of asbestos-associated diseases. Springer Berlin Heidelberg, 2014: 11–24.
[5] BERNSTEIN D M, HOSKINS J A. The health effects of chrysotile: current perspective based upon recent data [J]. Regul Toxicol Pharm, 2006, 45(3): 252–264.  
[6] BERNSTEIN D, DUNNIGAN J, HESTERBERG T, et al. Health risk of chrysotile revisited [J]. Crit Rev Toxicol, 2013, 43(2):154–183.  
[7] JULIE E G, MICHAEL K P, LISA A, et al. Electricians’ chrysotile asbestos exposure from electrical products and risks of mesothelioma and lung cancer [J]. Regul Toxicol Pharm, 2014, 68(1): 8–15.  
[8] JÄRVHOLM B, ÅSTRÖM E. The risk of lung cancer after cessation of asbestos exposure in construction workers using pleural malignant mesothelioma as a marker of exposure [J]. J Occup Environ Med, 2014, 56(12): 1297.  
[9] SHVEDOVA A A, YANAMALA N, KISIN E R, et al. Long-term effects of carbon containing engineered nanomaterials and asbestos in the lung: one year postexposure comparisons [J]. Am J Physiol-Lung C, 2014, 306(2): L170–L182.
[10] MARINACCIO A, MONTANARO F, MASTRANTONIO M, et al. Predictions of mortality from pleural mesothelioma in Italy: a model based on asbestos consumption figures supports results from age-period -cohort models [J]. Int J Cancer, 2005, 115: 142–147.
[11] SCHNEIDER F, SPORN T A. Cytopathology of Asbestos- Associated Diseases [M]// OURY T D, ROGGLI V L, SPORN T A ed. Pathology of asbestos-associated siseases. Berlin: Springer, 2014: 193–213.
[12] PASCOLO L, GIANONCELLI A, KAULICH B, et al. Synchrotron soft X-ray imaging and fluorescence microscopy reveal novel features of asbestos body morphology and composition in human lung tissues [J]. Part Fibre Toxicol, 2011(8): 1-11.
[13] PASCOLO L, BORELLI V, CANZONIERI V, et al. Differential protein folding and chemical changes in lung tissues exposed to asbestos or particulates [J]. Sci Rep-UK, 2015(5): 1–13.
[14] OFFERMANS N S M, VERMEULEN R, BURDORF A, et al. Occupational asbestos exposure and risk of pleural mesothelioma, lung cancer, and laryngeal cancer in the prospective Netherlands cohort study [J]. J Occup Environ Med, 2014, 56(1): 6–19.
[15] CORFIATI M, SCARSELLI A, BINAZZI A, et al. Epidemiological patterns of asbestos exposure and spatial clusters of incident cases of malignant mesothelioma from the Italian national registry [J]. BMC Cancer, 2015, 15(1): 1–14.
[16] WANG X R, YANO E, QIU H, et al. A 37-year observation of mortality in Chinese chrysotile asbestos workers [J]. Thorax, 2012, 67(2): 106–110.
[17] REID A, DE KLERK N H, MAGNANI C, et al. Mesothelioma risk after 40 years since first exposure to asbestos: a pooled analysis [J]. Thorax, 2014, 69(9): 1–8.  
[18] PEIPINS LA, LEWIN M, CAMPOLUCCI S, et al. Radiographic abnormalities and exposure to asbestos-contaminated vermiculite in the community of Libby, Montana, USA [J]. Environ Health Persp, 2003, 111: 1753–1759.
[19] VINIKOOR L C, LARSON T C, BATESON T F, et al. Exposure to asbestos-containing vermiculite ore and respiratory symptoms among individuals who were children while the mine was active in Libby, Montana [J]. Environ Health Persp, 2010, 118: 1033–1038.
[20] LARSON T C, MEYER C A, KAPIL V, et al. Workers with Libby amphibole exposure: retrospective identification and progression of radiographic changes [J]. Radiology, 2010, 255: 924–933.
[21] BERNSTEIN D M. The health risk of chrysotile asbestos [J]. Curr Opin Pulm Med, 2014, 20(4): 366–370.
[22] 甘四洋. 纤蛇纹石石棉及无机代用纤维生物耐久性和体外毒性研究 [D]. 四川: 西南科技大学, 2009. 
GAN Siyang. Research on biological resistance and in vitro toxicity of chrysotile and inorganic substitution fibers (in Chinese, dissertation). Sichuan: Southwest University of Science and Technology, 2006.
[23] HUANG S X L, PARTRIDGE M A, GHANDHI S A, et al. Mitochondria-derived reactive intermediate species mediate asbestos -induced genotoxicity and oxidative stress-responsive signaling pathways [J]. Environ Health Persp, 2012, 120(6): 840.
[24] RYAN A J, LARSON-CASEY J L, HE C, et al. Asbestos-induced disruption of calcium homeostasis induces endoplasmic reticulum stress in macrophages [J]. J Biol Chem, 2014, 289(48): 33391–33403.  
[25] RICARDI L R, REZENDE-TEIXEIRA P, SOUZA M M, et al. Morphological and molecular study of cell-chrysotile interaction in two different cell lines [J]. Cancer Res, 2014, 74(Suppl 19): 3189–3189.
[26] 樊晶光, 王起恩. 石棉表面改性对石棉诱导人胚肺细胞产生羟基自由基的影响[J]. 中国安全科学学报, 2007, 17(2): 134–138.
FAN Jingguang, WANG Qien. Chin Safety Sci J (in Chinese), 2007, 17(2): 134–138.
[27] IZUMI H, MORIMOTO Y. Physicochemical properties and factors that induce asbestos-related respiratory disease [J]. Kona Powder Part J, 2014, 31: 126–134.
[28] LIN Z, LIU T, KAMP D W, et al. AKT/mTOR and C-Jun N-terminal kinase signaling pathways are required for chrysotile asbestos-induced autophagy [J]. Free Radical Bio Med, 2014, 72: 296–307.
[29] 李学军, 王丽娟, 鲁安怀, 等. 天然蛇纹石活性机理初探[J]. 岩石矿物学杂志, 2003, 22(4): 386–390. 
LI Xuejun, WANG Lijuan, LU Anhuai, et al. Acta Petrolog Mineral (in Chinese), 2003, 22(4): 386–390.
[30] 邓建军, 董发勤, 蒲晓允, 等. 纤状蛇纹石石棉对兔肺泡巨噬细胞影响的体外研究[J]. 第三军医大学学报, 2000, 22(12): 1170–1172.
DENG Jianjun, DONG Faqin, PU Xiaoyun, et al. Acta Acdemiae Med Mil Tertiae (in Chinese), 2000, 22(12): 1170–1172.  
[31] 彭同江, 董发勤. 纤蛇纹石石棉的纳米效应与生物活性[J]. 岩石矿物学杂志, 2000, 19(3): 280–286. PENG Tongjiang, DONG Faqin. Acta Petrol Mineral (in Chinese), 2000, 19(3): 280–286.
[32] FUBINI B. Surface reactivity in the pathogenic response to particulates [J]. Environ Health Persp, 1997, 105(Suppl 5): 1013-1032.  
[33] TOYOKUNI S. Iron overload as a major targetable pathogenesis of asbestos–induced mesothelial carcino-genesis [J]. Redox Rep, 2014, 19(1): 1–7.
[34] BERNSTEIN D M, ROGERS R A, SEPULVEDA R, et al. Evaluation of the fate and pathological response in the lung and pleura of brake dust alone and in combination with added chrysotile compared to crocidolite asbestos following short-term inhalation exposure[J]. Toxicol Appl Pharm, 2015, 283(1): 20–34.
[35] PACELLA A, FANTAUZZI M, TURCI F, et al. Surface alteration mechanism and topochemistry of iron in tremolite asbestos: A step toward understanding the potential hazard of amphibole asbestos[J]. Chem Geol, 2015, 405: 28–38.
[36] BANKS D E, MORRIS M J, JINDAL S K. Asbestos Fibers: Mechanisms of Injury [M]// GANGULY N K, JINDAL S K, BISWAL S et al. ed. Studies on respiratory disorders. Springer New York, 2014: 203–224.  
[37] GORDON R E. Asbestos identification from human tissue [C]// 2014 GSA Annual meeting in Vancouver, Columbia, British, 2014.
[38] 李国武, 董发勤, 彭同江, 等. 多孔纤维矿物在氨基酸水溶液中的溶解性及其生物持久性研究[J]. 岩石矿物学杂志, 2000, 19(3): 220–225.
LI Guowu, DONG Faqin, PENG Tongjiang, et al. Acta Petrol Mineral (in Chinese), 2000, 19(3): 220–225.  
[39] DE MERINGO A, MORSCHEIDT C, THÉLOHAN S, et al. In vitro assessment of biodurability: acellular systems [J]. Environ Health Persp, 1994, 102(Suppl 5): 47-53.
[40] 董发勤, 万朴, 彭同江, 等. 纤维矿物粉体环境矿物学与环境医学研究的新进展[J]. 岩石矿物学杂志, 2000, 19(3): 191–198.  DONG Faqin, WAN Pu, PENG Tongjiang, et al. Acta Petrol Mineral (in Chinese), 2000, 19(3): 191–198.
[41] POTT F, ROLLER M, KAMINO K, et al. Significance of durability of mineral fibers for their toxicity and carcinogenic potency in the abdominal cavity of rats in comparison with the low sensitivity of inhalation studies [J]. Environ Health Persp, 1994, 102(Suppl 5): 145–150.
[42] OZE C. Biodurability of chrysotile and tremolite asbestos in simulated lung and gastric fluids [J]. Am Mineral, 2010, 95(5/6): 825–831.
[43] BALES R C, MORGAN J J. Surface charge and adsorption properties of chrysotile asbestos in natural waters [J]. Environ Sci Technol, 1985, 19(12): 1213–1219.
[44] LAVKULICH L M, SCHREIER H E, WILSON J E. Effects of natural acids on surface properties of asbestos minerals and kaolinite [J]. J Environ Sci Heal A, 2014, 49(6): 617–624.
[45] ROZALEN M, RAMOS M E, HUERTAS F J, et al. Dissolution kinetics and biodurability of tremolite particles in mimicked lung fluids: Effect of citrate and oxalate [J]. J Asian Earth Sci, 2013, 77: 318–326.  
[46] HOLMES E P, LAVKULICH L M. The effects of naturally occurring acids on the surface properties of chrysotile asbestos [J]. J Environ Sci Health A, 2014, 49(12): 1445–1452. [47] 彭同江, 万朴. 纤蛇纹石石棉纤维的界面相研究[J]. 西南工学院学报, 1995, 10(4): 31–36. PENG Tongjiang, WAN Pu.  J Southwest Instit Technol (in Chinese), 1995, 10(4): 31–36.  
[48] DUAN T, PENG T J. Preparation of nano-fibrous silica from natural chrysotile [J]. Non-Met Mines, 2008, 31(1): 25–27.
[49] 李国武, 董发勤. 矿物—氨基酸水溶液的表面离子化及溶解作用研究[J]. 矿物学报, 2001, 21(3): 330–334. 
LI Guowu, DONG Faqin. Acta Mineral Sin (in Chinese), 2001, 21(3): 330–334.
[50] 董发勤, 彭同江, 李国武, 等. 中国蛇纹石纤维的安全使用研究及进展[R]. 2006: 89.
[51] 刘琨, 冯其明, 杨艳霞, 等. 纤蛇纹石制备氧化硅纳米线[J]. 硅酸盐学报, 2007, 35(2): 164–169. 
LIU Kun, FENG Qiming, YANG Yanxia, et al. J Chin Ceram Soc, 2007, 35(2): 164–169.  
[52] WYPYCH F, ADAD L B, MATTOSO N, et al. Synthesis and characterization of disordered layered silica obtained by selective leaching of octahedral sheets from chrysotile and phlogopite structures [J]. J Colloid Interface Sci, 2005, 283(1): 107–112.
[53] SHVEDOVA A A, YANAMALA N, KISIN E R, et al. Long-term effects of carbon containing engineered nanomaterials and asbestos in the lung: one year postexposure comparisons [J]. Am J Physiol-Lung C, 2014, 306(2): L170–L182.
[54] BO F, LU Y, FENG Q, et al. Mechanisms of surface charge development of serpentine mineral [J]. T Nonferr Metal Soc, 2013, 23(4): 1123–1128.
[55] DONALDSON K, SEATON A. A short history of the toxicology of inhaled particles [J]. Part Fibre Toxicol, 2012, 9(1): 13–24.
[56] MOSSMAN B T, CHURG A. Mechanisms in the pathogenesis of asbestosis and silicosis [J]. Am J Resp Crit Care, 1998, 157(5): 1666–1680.
[57] HART G A, HESTERBERG T W. In vitro toxicity of respirable -size particles of diatomaceous earth and crystalline silica compared with asbestos and titanium dioxide [J]. J Occup Environ Med, 1998, 40(1): 29–42.
[58] PERKINS T N, PEETERS P M, SHUKLA A, et al. Indications for distinct pathogenic mechanisms of asbestos and silica through gene expression profiling of the response of lung epithelial cells [J]. Hum Mol Genet, 2015, 24(5): 1374–1389.
[59] MORGAN A, DAVIES P, WAGNER J C, et al. The biological effects of magnesium-leached chrysotile asbestos [J]. Brit J Exp Pathol, 1977, 58(5): 465–473.
[60] MONCHAUX G, BIGNON J, JAURAND M C, et al. Mesotheliomas in rats following inoculation with acid-leached chrysotile asbestos and other mineral fibres [J]. Carcinogenesis, 1981, 2(3): 229–236.  

 

printable coupons for cialis drug discount coupons coupon for free cialis
服务与反馈:
文章下载】【加入收藏
中国硅酸盐学会《硅酸盐学报》编辑室
京ICP备10016537号-2
京公网安备 11010802024188号
地址:北京市海淀区三里河路11号    邮政编码:100831
电话:010-57811253  57811254    
E-mail:jccs@ceramsoc.com