都市域のエアロゾルを用いた光照射後の酸化能評価

  • 後藤 友里絵
    早稲田大学創造理工学研究科地球・環境資源工学専攻
  • 島田 幸治郎
    早稲田大学創造理工学研究科地球・環境資源工学専攻 琉球大学理学部海洋自然科学科化学系
  • 村上 周平
    早稲田大学創造理工学研究科地球・環境資源工学専攻
  • 山脇 拓実
    早稲田大学創造理工学研究科地球・環境資源工学専攻
  • 光川 彩夏
    早稲田大学創造理工学研究科地球・環境資源工学専攻
  • 大河内 博
    早稲田大学創造理工学研究科地球・環境資源工学専攻

書誌事項

タイトル別名
  • Evaluation of Oxidative Ability after Photoirradiation Using Urban Aerosols
  • トシイキ ノ エアロゾル オ モチイタ ヒカリ ショウシャ ゴ ノ サンカノウ ヒョウカ

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抄録

<p>We investigated that aerosols affected oxidation ability in the body by measuring the oxidative potential (OP) and reactive oxygen species (ROS) of aerosols collected in Tokyo before and after aging accompanied by photodegradation and photooxidation. After irradiating the aerosol with solar simulator, the chemical composition was extracted using water or surrogate lung fluid (SLF). Each solution was used for dithiothreitol (DTT) assay to investigate oxidation potential (OPDTT) and ROS measurement. The ROS in water after the light irradiation (ALI) decreased to less than half of that before the light irradiation (BLI). On the other hand, OPDTT did not change significantly BLI and ALI. This indicates that aerosols have health damage potential due to strong sunlight even if transported over long distances to receptor area from urban area such as Tokyo. In addition, the OPDTT in the aerosol extracted from the SLF was reduced by 30–60% compared to that of the aerosol extracted with water, and the ROS was reduced more than 90%. This result was found that 90% of the ROS contained in aerosol at Tokyo in summer are composed of reactive oxygen species and peroxides. Furthermore, traditional water extraction DTT assays and reactive oxygen species measurements suggested that oxidation ability in the body is overestimated.</p>

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