2016 RECORDS FOUND
INDEX | TITLE | AUTHORS | PUBLICATION | ABSTRACT |
---|---|---|---|---|
20/11 | Toxic effects and involved molecular pathways of nanoparticles on cells and subcellular organelles. | Liu, N.; Tang, M. | Journal of Applied Toxicology, 40(1): 16-36. | paper |
20/10 | Multi-walled carbon nanotubes (MWCNTs) transformed THP-1 macrophages into foam cells: impact of pulmonary surfactant component dipalmitoylphosphatidylcholine. | Hilton,G.; Barosova,H.; Petri-Fink,A.; Rothen-Rutishauser,B.; Bereman,M. | Journal of Hazardous Materials, 392: 122286. | abstract |
20/09 | Modeling the Influence of Carbon Nanotube and Nanofiber Physicochemical Properties on Key Molecular Initiating Events and Functional Endpoints Using Epithelial, Macrophage, and Fibroblast Cell Models. | Kodali, V.K.; Kelly, F.; Hubczak, J.; Siegrist, K.; Bauer, A.K.; Sargent, L.M.; Shoeb, M.; Stueckle, T.A.; Eye, T.; Stefaniak, A.; Dahm, M.M.; Schubauer-Berigan, M.; Boots, N.; Yanamala, N.; Erdely, A.D. | The Toxicologist: Supplement to Toxicological Sciences, 174(1): Abstract no. 2159. Presented at the 59th Annual Meeting of the Society of Toxicology, held at the Anaheim Convention Center, Anaheim, California, March 15–19, 2020. | abstract |
20/08 | A Mathematical Model for Estimating the Dissolution Rate of Synthetic Vitreous Fibers from In Vivo Studies. | Hoffman, J.; Eastes,W.; Potter, R.; Hadley, J.G. | The Toxicologist: Supplement to Toxicological Sciences, 174(1): Abstract no. 1407. Presented at the 59th Annual Meeting of the Society of Toxicology, held at the Anaheim Convention Center, Anaheim, California, March 15–19, 2020. | abstract |
20/07 | Small and dangerous? Potential toxicity mechanisms of common exposure particles and nanoparticles. | Hewitt,R.E.; Chappell,H.F.; Powell,J.J. | Current Opinion in Toxicology, 19: 93-98. | paper |
20/06 | Adverse outcome pathways as a tool for the design of testing strategies to support the safety assessment of emerging advanced materials at the nanoscale. | Halappanavar,S.; van den Brule,S.; Nymark,P.; Gate,L.; Seidel,C.; Valentino,S.; Zhernovkov,V.; Danielsen,P.H.; De Vizcaya,A.; Wolff,H.; Stoger,T.; Boyadziev,A.; Poulsen,S.S.; Sorli,J.B.; Vogel,U. | Particle and Fibre Toxicology, 17(1): 16. | paper |
20/05 | Systematic review and meta-analysis of epidemiological literature evaluating the association between exposure to man-made vitreous fibers and respiratory tract cancers. | Egnot,N.S.; Benson,S.M.; Vater,M.F.; Hazan,R.; Patel,O.; Marsh,G.M. | Regulatory Toxicology and Pharmacology, 112: 104585. | paper |
20/04 | Man-Made Vitreous Fibers and NonMalignant Respiratory Disease: A Systematic Review. | Egnot, N.S.; Allen, H.; Denic-Roberts, H.; Vater, M.; Hazan, R.; Marsh, G. | The Toxicologist: Supplement to Toxicological Sciences, 174(1): Abstract no. 1645. Presented at the 59th Annual Meeting of the Society of Toxicology, held at the Anaheim Convention Center, Anaheim, California, March 15–19, 2020. | abstract |
20/03 | Fiberglass dermatitis: clinical presentations, prevention, and treatment - a review of literatures. | Camacho,I.; Rajabi-Estarabadi,A.; Eber,A.E.; Griggs,J.W.; Margaret,S.I.; Nouri,K.; Tosti,A. | International Journal of Dermatology, 58(10): 1107-1111. | abstract |
20/02 | Microenvironmental Alterations in Carbon Nanotube-Induced Lung Inflammation and Fibrosis. | Dong, J. | Frontiers in Cell and Developmental Biology, 8. | paper |
20/01 | Assessment of potential toxicity of new synthesized nanofibers in pulmonary cells in vitro.ICONS: Integrated Testing Strategy for Mechanistically Assessing the Respiratory Toxicity of Functionalized MWCNT. | Creutzenberg, O.H.; Lison, D.; Van Den Brule, S.; Turcu, F.; Bonner, J.C.; Ziemann, C. | The Toxicologist: Supplement to Toxicological Sciences, 174(1): Abstract no. 2156. Presented at the 59th Annual Meeting of the Society of Toxicology, held at the Anaheim Convention Center, Anaheim, California, March 15–19, 2020. | abstract |
19/71 | Development of a Novel Shallow Liquid Interface Exposure System for MWCNT Toxicity Assessment. | Tien,C.Y.; Li,J.P.; Han,D.; Li,Z.; Fu,P.K.; Chen,J.K.; Tsai,C.J. | Chemical Research in Toxicology, 32(10): 1925-1939. | abstract |
19/70 | Nanoparticle induced barrier function assessment at liquid–liquid and air–liquid interface in novel human lung epithelia cell lines. | Leibrock, L.; Wagener, S.; Singh, A.V.; Laux, P.; Luch, A. | Toxicology Research, 8(6): 1016-1027. | paper |
19/69 | Clearance of multi-walled carbon nanotubes in rat lungs after intratracheal instillation: a comparison of different instillation devices. | Hojo,M.; Maeno,A.; Sakamoto,Y.; Onuki,A.; Hasegawa,Y.; Yuzawa,K.; Kubo,Y.; Nagasawa,A.; Ohnishi,M.; Goto,Y.; Suzuki,T.; Inomata,A.; Moriyasu,T.; Hirose,A.; Nakae,D. | Toxicology Letters, 314: S208-S208. Abstract presented at the 55th Congress of the European Societies of Toxicology (EUROTOX 2019) TOXICOLOGY – SCIENCE PROVIDING SOLUTIONS | |
19/68 | TIntegration of inflammation, fibrosis, and cancer induced by carbon nanotubes. | Dong,J.; Ma,Q. | Nanotoxicology, 13(9): 1244-1274. | paper |
19/67 | Carbon Nanomaterials Stimulate HMGB1 Release From Macrophages and Induce Cell Migration and Invasion. | Cui,X.; Wan,B.; Yang,Y.; Xin,Y.; Xie,Y.-C.; Guo,L.-H.; Mantell,L.L. | Toxicological Sciences, 172(2): 398-410. | abstract |
19/66 | Dissolution of Stone Wool Fibers with Phenol-urea-formaldehyde Binder in a Synthetic Lung Fluid. | Barly,S.H.Q.; Okhrimenko,D.V.; Solvang,M.; Yue,Y.; Stipp,S.L.S. | Chemical Research in Toxicology, 32(12): 2398-2410. | paper |
19/65 | An Integrative Computational Approach for a Prioritization of Key Transcription Regulators Associated With Nanomaterial-Induced Toxicity | Zhernovkov,V.; Santra,T.; Cassidy,H.; Rukhlenko,O.; Matallanas,D.; Krstic,A.; Kolch,W.; Lobaskin,V.; Kholodenko,B.N. | Toxicological Sciences, 171(2): 303-314. | abstract |
19/64 | Studying the Efficiency of Respiratory Masks Used By Workers in Refractory Companies for Controlling Exposure to Refractory Ceramic Fibers and Particles in a Steel Industry. | Zare,M.; Faraji,M.; Rismanchian,M. | Health Scope, 8(2): e63941. | paper |
19/63 | Multi-walled carbon nanotubes induce stronger migration of inflammatory cells in vitro than asbestos or granular particles but a similar pattern of inflammatory mediators. | Westphal,G.A.; Rosenkranz,N.; Brik,A.; Weber,D.; Föhring,I.; Monsé,C.; Kaiser,N.; Hellack,B.; Mattenklott,M.; Brüning,T.; Johnen,G.; Bünger,J. | Toxicology in Vitro, 58: 215-223. | paper |
19/62 | Alkaline earth silicate (AES) wools: Evaluation of potential cyto-genotoxic and inflammatory effects on human respiratory cells. | Ursini,C.L.; Campopiano,A.; Fresegna,A.M.; Ciervo,A.; Cannizzaro,A.; Angelosanto,F.; Maiello,R.; Iavicoli,S.; Cavallo,D. | Toxicology in Vitro, 59: 228-237. | abstract |
19/61 | Multi-Walled Carbon Nanotube-Induced Gene Expression Biomarkers for Medical and Occupational Surveillance. | Snyder-Talkington,B.N.; Dong,C.; Singh,S.; Raese,R.; Qian,Y.; Porter,D.W.; Wolfarth,M.G.; Guo,N.L. | International Journal of Molecular Sciences, 20(11): 10.3390/ijms20112635. | paper |
19/60 | Mitsui-7, heat-treated, and nitrogen-doped multi-walled carbon nanotubes elicit genotoxicity in human lung epithelial cells. | Siegrist,K.J.; Reynolds,S.H.; Porter,D.W.; Mercer,R.R.; Bauer,A.K.; Lowry,D.; Cena,L.; Stueckle,T.A.; Kashon,M.L.; Wiley,J.; Salisbury,J.L.; Mastovich,J.; Bunker,K.; Sparrow,M.; Lupoi,J.S.; Stefaniak,A.B.; Keane,M.J.; Tsuruoka,S.; Terrones,M.; McCawley,M.; Sargent,L.M. | Particle and Fibre Toxicology, 16(1): 36. | paper |
19/59 | Current state of knowledge on the health effects of engineered nanomaterials in workers: a systematic review of human studies and epidemiological investigations. | Schulte,P.A.; Leso,V.; Niang,M.; Iavicoli,I. | Scandinavian Journal of Work Environment & Health, 45(3): 217-238. | paper |
19/58 | Comparison of multi-wall carbon nanotube and nitrogen-doped multi-wall carbon nanotube effects on lung function and airway reactivity in rats. | Russ,K.A.; Thompson,J.A.; Kashon,M.; Porter,D.W.; Friend,S.A.; McKinney,W.; Fedan,J.S. | Toxicology and Applied Pharmacology, 364: 153-163. | abstract |
19/57 | Surface defects reduce Carbon Nanotube toxicity in vitro. | Requardt,H.; Braun,A.; Steinberg,P.; Hampel,S.; Hansen,T. | Toxicology in Vitro, 60: 12-18. | paper |
19/56 | Sex differences in the inflammatory immune response to multi-walled carbon nanotubes and crystalline silica. | Ray,J.L.; Holian,A. | Inhalation Toxicology, 31(7): 285-297. | abstract |
19/55 | The toxicology of chrysotile-containing brake debris: implications for mesothelioma. | Poland,C.A.; Duffin,R. | Critical Reviews in Toxicology, 49(1): 11-35. | paper |
19/54 | Advances in the application, toxicity and degradation of carbon nanomaterials in environment: A review. | Peng, Z.; Liu, X.; Zhang, W.; Zeng, Z.; Liu, Z.; Zhang, C.; Liu, Y.; Shao, B.; Liang, Q.; Tang, W. | Environment International, 134: 105298. | paper |
19/53 | Functionalization of carbon nanotubes change their toxicity mechanisms induced in alveolar macrophages. | Palmer,Brian C.; Phelan-Dickenson,Sarah J.; DeLouise,Lisa A. | Toxicology Letters, 314: S235-S235. Abstract presented at the 55th Congress of the European Societies of Toxicology (EUROTOX 2019) TOXICOLOGY SCIENCE PROVIDING SOLUTIONS. |