CompNanoTox2015: novel perspectives from a European conference on computational nanotoxicology on predictive nanotoxicology

Banares Miguel A.; Haase Andrea; Tran Lang; Lobaskin Vladimir; Oberdoerster Guenter; Rallo Robert; Leszczynski Jerzy; Hoet Peter; Korenstein Rafi; Hardy Barry; Puzyn Tomasz

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CompNanoTox2015: novel perspectives from a European conference on computational nanotoxicology on predictive nanotoxicology

机译：Compnanotox2015：来自欧洲计算纳米毒理学会议的新型观点预测纳米毒理学

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A first European Conference on Computational Nanotoxicology, CompNanoTox, was held in November 2015 in Benahavis, Spain with the objectives to disseminate and integrate results from the European modeling and database projects (NanoPUZZLES, ModENPTox, PreNanoTox, MembraneNanoPart, MODERN, eNanoMapper and EU COST TD1204 MODENA) as well as to create synergies within the European NanoSafety Cluster. This conference was supported by the COST Action TD1204 MODENA on developing computational methods for toxicological risk assessment of engineered nanoparticles and provided a unique opportunity for cross fertilization among complementary disciplines. The efforts to develop and validate computational models crucially depend on high quality experimental data and relevant assays which will be the basis to identify relevant descriptors. The ambitious overarching goal of this conference was to promote predictive nanotoxicology, which can only be achieved by a close collaboration between the computational scientists (e.g. database experts, modeling experts for structure, (eco) toxicological effects, performance and interaction of nanomaterials) and experimentalists from different areas (in particular toxicologists, biologists, chemists and material scientists, among others). The main outcome and new perspectives of this conference are summarized here.

机译：第一个欧洲计算纳米毒理学会议，Compnanotox，2015年11月在西班牙举行的，目的是欧洲建模和数据库项目的目标（纳米孔，Modenptox，Prenotox，Membranonopart，现代，Enanomapper和欧盟成本TD1204）传播和整合结果Modena）以及在欧洲纳米安全集群内创建协同作用。该会议由成本行动TD1204摩德纳支持开发工程纳米颗粒的毒理学风险评估计算方法，并为互补学科提供了独特的交叉施肥机会。开发和验证计算模型的努力至关重要地取决于高质量的实验数据和相关的测定，这将是识别相关描述符的基础。本次会议的雄心勃勃的总体目标是促进预测纳米毒理学，只能通过计算科学家（例如数据库专家，结构建模专家，（ECO）毒理学效应，纳米材料的性能和相互作用的密切合作来实现，并且实验主义者来自不同地区（特别是毒理学家，生物学家，化学家和材料科学家等）。此次会议的主要结果和新的观点在这里总结。

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来源
《Nanotoxicology》 |2017年第10期|共7页
作者
Banares Miguel A.; Haase Andrea; Tran Lang; Lobaskin Vladimir; Oberdoerster Guenter; Rallo Robert; Leszczynski Jerzy; Hoet Peter; Korenstein Rafi; Hardy Barry; Puzyn Tomasz;
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作者单位

CSIC ICP Inst Catalisis &

Petroleoquim Madrid Spain;

German Fed Inst Risk Assessment BfR Dept Chem &

Prod Safety Berlin Germany;

Inst Occupat Med Stat &

Toxicol Sect Edinburgh Midlothian Scotland;

Univ Coll Dublin Sch Phys Dublin Ireland;

Univ Rochester Dept Environm Med Rochester NY USA;

Univ Rovira &

Virgili Dept Engn Informat &

Matemat Tarragona Spain;

Jackson State Univ Interdisciplinary Nanotox Ctr Jackson MS USA;

Katholieke Univ Leuven Unit Lung Toxicol Publ Hlth Leuven Belgium;

Tel Aviv Univ Fac Med Tel Aviv Israel;

Douglas Connect GmbH Technol Pk Basel Basel Switzerland;

Univ Gdansk Fac Chem Lab Environm Chemometr Gdansk Poland;

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原文格式 PDF
正文语种 eng
中图分类基础医学;
关键词
Nanotoxicology; surface chemistry; toxicology; modeling; nano-QSAR;

机译：纳米毒理学;表面化学;毒理学;建模;NO-QSAR;

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专利

1. CompNanoTox2015: novel perspectives from a European conference on computational nanotoxicology on predictive nanotoxicology [J] . Banares Miguel A., Haase Andrea, Tran Lang, Nanotoxicology . 2017,第6a10期

机译：Compnanotox2015：来自欧洲计算纳米毒理学会议的新型观点预测纳米毒理学
2. Conference Scene: Nanomedicine and nanotoxicology: Future prospects and the need for translational factors for the combination of both [J] . GündayN., SchneiderM. Nanomedicine . 2012,第6期

机译：会议现场：纳米药物和纳米毒理学：未来的前景以及结合两者的转化因素的需求
3. Conference Scene Nanomedicine and nanotoxicology: future prospects and the need for translational factors for the combination of both [J] . Nazende Günday12 Marc Schneider*1 Nanomedicine . 2012,第6期

机译：会议现场纳米医学和纳米毒理学：未来的前景以及结合两者的转化因素的需求
4. SERS-based nanotoxicology assessment of gold nanoparticles [C] . Alessandro Verde, Maria Mangini, Stefano Manago, Conference on Optical Methods for Inspection, Characterization, and Imaging of Biomaterials . 2021

机译：基于SERS的金纳米颗粒的纳米毒理学评估
5. Functionalization of nanomaterial surfaces for light-harvesting and nanotoxicology applications. [D] . Putans, Becca Anne. 2014

机译：纳米材料表面的功能化，用于光收集和纳米毒理学应用。
6. Highlights from the 5th International Society for Computational Biology Student Council Symposium at the 17th Annual International Conference on Intelligent Systems for Molecular Biology and the 8th European Conference on Computational Biology [O] . Thomas Abeel, Jeroen de Ridder, Lucia Peixoto 2009

机译：第五届国际计算生物学学会学生会在第17届年度国际分子生物学智能系统会议和第八届欧洲计算生物学会议上的要闻
7. Artificial Intelligence and Machine Learning in Computational Nanotoxicology: Unlocking and Empowering Nanomedicine [O] . Ajay Vikram Singh, Mohammad Hasan Dad Ansari, Daniel Rosenkranz, 2020

机译：计算纳米毒理学中的人工智能与机器学习：解锁和授权纳米医生

CompNanoTox2015: novel perspectives from a European conference on computational nanotoxicology on predictive nanotoxicology

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