{"id":463,"date":"2016-07-04T17:14:32","date_gmt":"2016-07-04T08:14:32","guid":{"rendered":"http:\/\/www.nanosafety.jp\/?page_id=463"},"modified":"2026-01-16T13:42:59","modified_gmt":"2026-01-16T04:42:59","slug":"seika","status":"publish","type":"page","link":"https:\/\/riss.aist.go.jp\/nanosafety\/tasc\/seika\/","title":{"rendered":"\u6210\u679c\u8ad6\u6587\u7b49\u30ea\u30b9\u30c8"},"content":{"rendered":"
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  1. Ogura I, Kotake M, Ata S, Honda K. Quantitative measurement of carbon nanotubes released from their composites by thermal carbon analysis. J Phys: Conf Ser. 838:012014, 2017.\u00a0LINK<\/a><\/li>\n
  2. Ogura I, Okayama C, Kotake M, Ata S, Matsui Y, Gotoh K. Airborne particles released by crushing CNT composites. J Phys: Conf Ser. 838:012015, 2017.\u00a0LINK<\/a><\/li>\n
  3. Matsui Y, Kato N, Nishiguchi K, Yoneda M. Exposure assessment method for products containing nanomaterials using a gas sample introduction system for ICP-MS. J Phys: Conf Ser. 838:012008, 2017.\u00a0LINK<\/a><\/li>\n
  4. Kato N, Matsui Y, Yoneda M. Dynamics of nanomaterials released from polymer composites in the pelletizing process. J Phys: Conf Ser. 838:012009, 2017.\u00a0LINK<\/a><\/li>\n
  5. Matsui Y, Nagaya T, Kato N, Ishibashi T, Yoneda M. Exposure assessment method for products containing carbon nanotubes inside a test chamber with a Taber abrasion machine. J Phys: Conf Ser. 838:012011, 2017.\u00a0LINK<\/a><\/li>\n
  6. Ogura I, Kotake M, Sakurai H, Honda K. Surface-collection efficiency of Nuclepore filters for nanoparticles. Aerosol Sci Technol. 50(8): 846-856, 2016.\u00a0LINK<\/a><\/li>\n
  7. Ogura I, Shigeta M, Kotake M, Uejima M, Honda K. Particle release from single-wall and multiwall carbon nanotubes in polystyrene-based composites during grinding. J Phys: Conf Ser. 617: 012028, 2015.\u00a0LINK<\/a><\/li>\n
  8. Ogura I, Shigeta M, Kotake M, Uejima M, Honda K. Quantitative measurement of carbon nanotubes released from their composites using thermal carbon analysis. J Phys: Conf Ser. 617: 012014, 2015.\u00a0LINK<\/a><\/li>\n
  9. Ogura I, Hashimoto N, Kotake M, Sakurai H, Kishimoto A, Honda K. Aerosol particle collection efficiency of holey carbon film-coated TEM grids. Aerosol Sci Technol. 48(7):758-767, 2014.\u00a0LINK<\/a><\/li>\n
  10. Jiang L, Kondo A, Shigeta M, Endoh S, Uejima M, Ogura I, Naito M. Evaluation of particles released from single-wall carbon nanotube\/polymer composites with or without thermal aging by an accelerated abrasion test. J Occup Environ Hyg. 11(10):658-664, 2014.\u00a0LINK<\/a><\/li>\n
  11. Hashimoto N, Ogura I, Kotake M, Kishimoto A, Honda K. Evaluating the capabilities of portable black carbon monitors and photometers for measuring airborne carbon nanotubes. J Nanopart Res. 15(11):2033, 2013.\u00a0LINK<\/a><\/li>\n
  12. Ogura I, Kotake M, Hashimoto N, Gotoh K, Kishimoto A. Release characteristics of single-wall carbon nanotubes during manufacturing and handling. J Phys: Conf Ser. 429:012057, 2013.\u00a0LINK<\/a><\/li>\n
  13. Ogura I, Kotake M, Shigeta M, Uejima M, Saito K, Hashimoto N, Kishimoto A. Potential release of carbon nanotubes from their composites during grinding. J Phys: Conf Ser. 429:012049, 2013.\u00a0LINK<\/a><\/li>\n<\/ol>\n

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    1. Fujita K, Obara S, Maru J, Endoh S. Cytotoxicity profiles of multi-walled carbon nanotubes with different physico-chemical properties. Toxicol Mech Methods.\u00a02020, 30:477-489. LINK<\/a><\/li>\n
    2. Fujita K, Take S, Tani R, Maru J, Obara S, Endoh S. Assessment of cytotoxicity and mutagenicity of exfoliated graphene. Toxicol In Vitro. 2018, 52:195-202. LINK<\/a><\/li>\n
    3. Morimoto Y, Izumi H, Yoshiura Y, Fujisawa Y, Yatera K, Fujita K, Maru J, Endoh S, Honda K. Basic study of intratracheal instillation study of nanomaterials for the estimation of the hazards of nanomaterials. Ind Health. 2018, 56(1):30-39.\u00a0LINK<\/a><\/li>\n
    4. Honda K, Naya M, Takehara H, Kataura H, Fujita K, Ema M. A 104-Week pulmonary toxicity assessment of long and short single-wall carbon nanotubes after a single intratracheal instillation in rats. Inhal Toxicol. 2017, 29(11):471-482. LINK<\/a><\/li>\n
    5. Morimoto Y, Izumi H, Yoshiura Y, Fujisawa Y, Fujita K. Significance of intratracheal instillation tests for the screening of pulmonary toxicity of nanomaterials. J UOEH. 2017, 39(2):123-132. LINK<\/a><\/li>\n
    6. Ema M, Takehara H, Naya M, Kataura H, Fujita K, Honda K. Length effects of single-walled carbon nanotubes on pulmonary toxicity after intratracheal instillation in rats. J Toxicol Sci. 2017, 42(3):367-378. LINK<\/a><\/li>\n
    7. Fujita K, Fukuda M, Endoh S, Maru J, Kato H, Nakamura A, Shinohara N, Uchino K, Honda K. Pulmonary and pleural inflammation after intratracheal instillation of short single-walled and multi-walled carbon nanotubes. Toxicol Lett. 2016, 257(22):23-37. LINK<\/a><\/li>\n
    8. Horie M, Kato H, Endoh S, Nakamura A, Maru J, Shinohara N, Fujita K. Effects of various carbon nanotube suspensions on A549, THP-1, and peritoneal macrophage cells. JBBBE. 2015, 24:1-13. Link<\/a><\/li>\n
    9. Fujita K, Fukuda M, Endoh S, Maru J, Kato H, Nakamura A, Shinohara N, Uchino K, Honda K. Size effects of single-walled carbon nanotubes on in vivo and in vitro pulmonary toxicity. Inhal Toxicol. 2015, 27(4):207-23. LINK<\/a><\/li>\n
    10. Fujita K, Fukuda M, Fukui H, Horie M, Endoh S, Uchida K, Shichiri M, Morimoto Y, Ogami A, Iwahashi H. Intratracheal instillation of single-wall carbon nanotubes in the rat lung induces time-dependent changes in gene expression. Nanotoxicology. 2015, 9(3):290-301. LINK<\/a><\/li>\n
    11. Horie M, Stowe M, Tabei M, Kato H, Nakamura A, Endoh S, Morimoto Y, Fujita K. Dispersant affects the cellular influences of single-wall carbon nanotube: the role of CNT as carrier of dispersants. Toxicol Mech Methods. 2013, 23:315-322.\u00a0LINK<\/a><\/li>\n
    12. Fujita K, Fukuda M, Endoh S, Kato H, Maru J, Nakamura A, Uchino K, Shinohara N, Obara S, Nagano R, Horie M, Kinugasa S, Hashimoto H, Kishimoto A. Physical properties of single-wall carbon nanotubes in cell culture and their dispersal due to alveolar epithelial cell response. Toxicol Mech Methods. 2013, 23(8):598-609. LINK<\/a><\/li>\n
    13. \u85e4\u7530\u514b\u82f1\u3001\u798f\u7530\u771f\u7d00\u5b50\u3001\u5ca9\u6a4b\u5747\u3000\u7db2\u7f85\u7684\u907a\u4f1d\u5b50\u767a\u73fe\u89e3\u6790\u306b\u3088\u308b\u5de5\u696d\u30ca\u30ce\u6750\u6599\u306e\u751f\u4f53\u5f71\u97ff\u8a55\u4fa1\u306e\u5f79\u5272 \u65e5\u672c\u885b\u751f\u5b66\u96d1\u8a8c 2012, 67(3):390-395.\u00a0LINK<\/a><\/li>\n<\/ol>\n

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      1. \u5c0f\u5009 \u52c7. \u5de5\u696d\u30ca\u30ce\u6750\u6599\u306e\u4f5c\u696d\u74b0\u5883\u8a55\u4fa1\u306e\u305f\u3081\u306e\u8a08\u6e2c\u306b\u3064\u3044\u3066. \u30af\u30ea\u30fc\u30f3\u30c6\u30af\u30ce\u30ed\u30b8\u30fc. 23(1):39-43, 2013.\u00a0LINK<\/a><\/li>\n<\/ol>\n

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        1. \u85e4\u7530\u514b\u82f1\u3001\u7e4a\u7dad\u72b6\u30ca\u30ce\u30de\u30c6\u30ea\u30a2\u30eb\u306e\u5438\u5165\u5f71\u97ff\u3068\u5b89\u5168\u6027\u8a55\u4fa1\u2015\u7e4a\u7dad\u72b6\u69cb\u9020\u306e\u7279\u6027\u306b\u7740\u76ee\u3057\u3066\u2015\u3001\u7c89\u4f53\u6280\u8853\u30012026, 18(1): 25\u201335. LINK<\/a><\/li>\n
        2. \u85e4\u7530\u514b\u82f1\u3001\u30ab\u30fc\u30dc\u30f3\u30ca\u30ce\u30c1\u30e5\u30fc\u30d6\u306e\u6709\u5bb3\u6027\u8a55\u4fa1\u652f\u63f4\u3001\u30bb\u30a4\u30d5\u30c6\u30a3\u30c0\u30a4\u30b8\u30a7\u30b9\u30c8\u30012016, 62: 2-7. LINK<\/a><\/li>\n
        3. \u85e4\u7530\u514b\u82f1\u3001\u30ca\u30ce\u6750\u6599\u306e\u5b89\u5168\u6027\u30fb\u6709\u5bb3\u6027\u8a66\u9a13\u306e\u8ab2\u984c\u3068\u6311\u6226\u3001\u3076\u3093\u305b\u304d\u30012011, 11:646-651. LINK<\/a><\/li>\n<\/ol>\n

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          1. Ponti J, Kinsner-Ovaskainen A, Norlen H, Altmeyer S, Andareoli C, Bogni A, Chevillard S, De Angelis I, Chung S, Eom I, Fujita K, Gilliland D, Grollino MG, Gulumian M, Hirsch C, Ichiraku K, Igarashi T, Jeong J, Jo E, Kim D, Kaiser J, Lagache D, La SR, Lee J, Lee J, Lovera A, Mader-Althaus X, Nesslany F, Ojea Jimenez I, Pacchierotti F, Pianella F, Paget V, Kim T, Roszak J, Rosenkranz P, Simar S, Stepnik M, Vetten M, Song N, Yang J, Rossi F. Interlaboratory comparison study of the Colony Forming Efficiency assay for assessing cytotoxicity of nanomaterials. 2014, JRC92910, Publication Office of the European Union. LINK<\/a><\/li>\n<\/ol>\n\n\n

            <\/p>\n","protected":false},"excerpt":{"rendered":"

            \u8ad6\u6587 \u6392\u51fa\u30fb\u66b4\u9732\u8a55\u4fa1 Ogura I, Kotake M, Ata S, Honda K. Quantitative measurement of carbon nanotubes released from their […]<\/p>\n","protected":false},"author":61,"featured_media":0,"parent":314,"menu_order":6,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-463","page","type-page","status-publish","hentry"],"aioseo_notices":[],"acf":[],"_links":{"self":[{"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/pages\/463","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/users\/61"}],"replies":[{"embeddable":true,"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/comments?post=463"}],"version-history":[{"count":74,"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/pages\/463\/revisions"}],"predecessor-version":[{"id":2075,"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/pages\/463\/revisions\/2075"}],"up":[{"embeddable":true,"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/pages\/314"}],"wp:attachment":[{"href":"https:\/\/riss.aist.go.jp\/nanosafety\/wp-json\/wp\/v2\/media?parent=463"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}