2016 RECORDS FOUND
| INDEX | TITLE | AUTHORS | PUBLICATION | ABSTRACT |
|---|---|---|---|---|
| 23/52 | Quantitative evaluation of released nanomaterials from carbon nanotube epoxy nanocomposites during environmental exposure and mechanical treatment. | Zhao,Y.; Goodwin,D.G.J.; Sung,L.; Ramakrishnan,G.; Wu,Q.; Cen,J.; Petersen,E.J.; Orlov, A. | NanoImpact, 32: 100486. | abstract |
| 23/51 | Impaired autophagy-accelerated senescence of alveolar type II epithelial cells drives pulmonary fibrosis induced by single-walled carbon nanotubes. | Zhang,X.; Hu,X.; Zhang,Y.; Liu,B.; Pan,H.; Liu,Z.; Yao,Z.; Zhu,Q.; Wu,C.; Shen, T. | Journal of Nanobiotechnology, 21(1). | paper |
| 23/50 | Carbon nanotubes alter metabolomics pathways leading to broad ecological toxicity. | Yonis,N; Alshammari, E.; Yang, Z. | Impact of Engineered Nanomaterials in Genomics and Epigenomics: 319-329. | abstract |
| 23/49 | Dimensions of elongate mineral particles and cancer: A review. | Wylie,A.G.; Korchevskiy,A.A | Environmental Research, 230: 114688. | abstract |
| 23/48 | Pleural inflammatory response, mesothelin content and DNA damage in mice at one-year after intra-pleural carbon nanotube administration. | Wils,R.S.; Jacobsen,N.R.; Vogel,U.; Roursgaard,M.; Jensen,A; Møller, P. | Toxicology, 499. | paper |
| 23/47 | Natural mineral fibers: conducting inhalation toxicology studies - part A: Libby Amphibole aerosol generation and characterization method development. | Wang,A.; Gupta,A.; Grimm,M.D.; Pressburger,D.T.; Sparrow,B.R.; Richey,J.S.; Shaw,J.R.; Elsass,K.E.; Roberts,G.K.; Yao, P.L. | Inhalation Toxicology, 35(7-8): 201-213. | paper |
| 23/46 | Natural mineral fibers: conducting inhalation toxicology studies-part B: development of a nose-only exposure system for repeat-exposure in vivo study of Libby amphibole aerosol. | Wang,A.; Gupta,A.; Grimm,M.D.; Pressburger,D.T.; Sparrow,B.R.; Richey,J.S.; Shaw,J.R.; Elsass,K.E.; Roberts,G.K.; Yao, P.L. | Inhalation toxicology, 35(7-8): 214-229. | paper |
| 23/45 | In vitro comparative cytotoxic assessment of pristine and carboxylic functionalized multiwalled carbon nanotubes on LN18 cells. | Vijayalakshmi,V.; Sadanandan B.; Anjanapura, R.V. | Journal of Biochemical and Molecular Toxicology, 37(3). | paper |
| 23/44 | Occupational characterization of workers exposed to asbestos: an integrative review. | Vicari,K.; Ribeiro,I.M.; Aguiar,B.F.; Brey, C.; Boller, S.; Miranda,F.M.D. | Revista Brasileira De Medicina do Trabalho, 20(4): 650-658. | paper |
| 23/43 | Characterization of the Emissions and Crystalline Silica Content of Airborne Dust Generated from Grinding Natural and Engineered Stones. | Thompson,D.; Qi, C. | Annals of Work Exposures and Health, 67(2): 266-280. | paper |
| 23/42 | Systematic review of epidemiological studies evaluating the association between exposure to man-made vitreous fibers and non-malignant respiratory diseases. | Suder Egnot,N.; Allen,H.; Hazan,R.; Vater,M.F.; Denic-Roberts,H.; LeClaire,R.; Marsh, G.M. | Regulatory Toxicology and Pharmacology, 139. | paper |
| 23/41 | Investigation of the occurrence of binder material on airborne respirable mineral wool fibers. | Solvang,M.; Okhrimenko,D.V.; Koch, C. | Journal of Occupational and Environmental Hygiene, 20(5-6): 240-253. | paper |
| 23/40 | An updated review of diffuse mesothelioma of the pleura - A sentinel health event of potential elongate mineral particle pathogenicity. | Smith,S.R. | Environmental Research, 230: 115608. | abstract |
| 23/39 | Difference in carcinogenicities of two different vapor grown carbon fibers with different physicochemical characteristics induced by intratracheal instillation in rats. | Sato,K.; Fukui,H.; Hagiwara,Y.; Ogawa,R.; Nishioka,A.; Numano,T.; Sugiyama,T.; Kawabe,M.; Mera,Y.; Yoneda, T. | Particle and Fibre Toxicology, 20(1). | paper |
| 23/38 | Predicting the in vitro dissolution rate constant of mineral wool fibers from fiber composition. | Potter,R.M.; Hoffman,J.W.; Hadley, J.G. | Inhalation Toxicology, 35(1-2): 40-47. | paper |
| 23/37 | Pleural Plaques and the Role of Exposure to Mineral Particles in the Asbestos Post-exposure Survey. | Paris,C.; Thaon,I.; Laurent,F.; Saade,A.; Andujar,P.; Brochard,P.; Benoist,J.; Clin,B.; Ferretti,G.; Gislard,A.; Gramond,C.; Wild,P.; Lacourt,A.; Delva,F.; Pairon, J. | Chest, 164(1): 149-158. | paper |
| 23/36 | An alternative in vitro model considering cell-cell interactions in fiber-induced pulmonary fibrosis. | Pantzke,J.; Offer,S.; Zimmermann,E.J.; Kuhn,E.; Streibel,T.; Oeder,S.; Di Bucchianico,S.; Zimmermann, R. | Toxicology Mechanisms and Methods, 33(5): 411-426. | abstract |
| 23/35 | Carbon nanotube pathogenicity conforms to a unified theory for mesothelioma causation by elongate materials and fibers. | Nel,A. | Environmental Research, 230: 114580. | paper |
| 23/34 | Potential issues specific to cytotoxicity tests of cellulose nanofibrils. | Moriyama,A.; Ogura,I.; Fujita, K. | Journal of Applied Toxicology, 43(1): 195-207. | paper |
| 23/33 | Exposure to insulating materials and risk of coronary artery diseases: a cross-sectional study. | Moitra,S.; Tabrizi,A.F.; Khadour,F.; Henderson,L.; Melenka,L.; Lacy, P | Frontiers in Public Health, 11: 1235189. | paper |
| 23/32 | Effects of inhalation of multi-walled carbon nanotube (MWCNT) on respiratory syncytial virus (RSV) infection in mice. | Miyauchi,A.; Akashi,T.; Yokota,S.; Taquahashi,Y.; Hirose,A.; Hojo,M.; Yoshida,H.; Kurokawa,M.; Watanabe, W. | The Journal of Toxicological Sciences, 48(7): 411-420. | paper |
| 23/31 | Biomimetic Human Lung Alveolar Interstitium Chip with Extended Longevity. | Man,K.; Liu,J.; Liang,C.; Corona,C.; Story,M.D.; Meckes,B.; Yang, Y. | ACS Applied Materials & Interfaces, 15(30): 36888-36898. | paper |
| 23/30 | Preclinical evaluation of PEG-Multiwalled carbon nanotubes: Radiolabeling, biodistribution and toxicity in mice. | Lemos,J.D.A.; Soares,D.C.F.; Pereira,N.C.; Gomides,L.S.; Silva,J.D.O.; Bruch,G.E.; Cassali,G.D.; Alisaraie,L.; Alves,R.J.; Santos,A.P.; Barros,A.L.B.D. | Journal of Drug Delivery Science and Technology, 86. | abstract |
| 23/29 | Toxicological and epidemiological approaches to carcinogenic potency modeling for mixed mineral fiber exposure: the case of fibrous balangeroite and chrysotile. | Korchevskiy,A.A.; Wylie,A.G. | Inhalation Toxicology, 35(7-8): 185-200. | abstract |
| 23/28 | Sequential exposures of single walled carbon nanotubes and heavy metal ions to macrophages induce different cytotoxicity | Kong,L.; Yan,G.; Huang,X.; Wu,Y.; Che,X.; Liu,J.; Jia,J.; Zhou,H.; Yan, B. | Science of the Total Environment, 864. | abstract |
| 23/27 | Toxicogenomics of multi-walled carbon nanotubes. | Joseph, P. | Impact of Engineered Nanomaterials in Genomics and Epigenomics, 187-215. | abstract |
| 23/26 | Current causes of mesothelioma: how has the asbestos ban changed the perspective? | Janosikova,M.; Nakladalova,M.; Stepanek,L. | Biomedical Papers of the Medical Faculty of the University Palacky, Olomouc, Czechoslovakia, 167(2): 99-108. | paper |
| 23/25 | Follow the time course of inflammation caused by intraperitoneal administration of multi-wall carbon nanotubes in mice. | Horie,M.; Sugino,S.; Ohno, T. | International Journal of Immunopathology and Pharmacology, 37. | paper |
| 23/24 | Initial evaluation of USP apparatus 4 for measuring dissolution profile of man-made vitreous fibers. | Hoffman,J.W.; Okhrimenko,D.V.; Chaudan,E.; Herault,Q.; Drnovsek,N.; Pezennec,E.; Aznar,A.; Mascaraque,N.; Haddouchi,S.; Lecluse,M.; Badissi,A.A.; de Cruz,J.; Hiéronimus,L.; Solvang,M. | Toxicology Letters, 386: 30-33. | paper |
| 23/23 | Metabolomics of V2O5 nanoparticles and V2O5 nanofibers in human airway epithelial BEAS-2B cells. | He,X.; Jarrell,Z.R.; Smith,M.R.; Ly,V.T.; Liang,Y.; Orr,M.; Go,Y.-M.; Jones,D.P. | Toxicology and Applied Pharmacology, 459. | paper |