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Technical framework for enabling high-quality measurements in New Approach Methodologies (NAMs)
Petersen, E. J., Elliot, J. T., Gordon, J., Kleinstreuer, N. C., Reinke, E., Roesslein, M., & Toman, B. (2023). Technical framework for enabling high-quality measurements in New Approach Methodologies (NAMs). ALTEX: Alternatives to Animal Experimentation, 40(1), 174-186. https://doi.org/10.14573/altex.2205081
Orthogonal and complementary measurements of properties of drug products containing nanomaterials
Simon, C. G., Borgos, S. E., Calzolai, L., Nelson, B. C., Parot, J., Petersen, E. J., … Caputo, F. (2023). Orthogonal and complementary measurements of properties of drug products containing nanomaterials. Journal of Controlled Release, 354, 120-127. https://doi.org/10.1016/j.jconrel.2022.12.049
Characterizing plastics from large household appliances: brominated flame retardants, other additives and density profiles
Bill, A., Haarman, A., Gasser, M., Böni, H., Rösslein, M., & Wäger, P. A. (2022). Characterizing plastics from large household appliances: brominated flame retardants, other additives and density profiles. Resources, Conservation and Recycling, 177, 105956 (10 pp.). https://doi.org/10.1016/j.resconrec.2021.105956
A physiologically based pharmacokinetic model to predict pegylated liposomal doxorubicin disposition in rats and human
Camotti Montanha, M., Howarth, A., Mohamed, D. A., Loier, E., Main, L., Rösslein, M., … Siccardi, M. (2022). A physiologically based pharmacokinetic model to predict pegylated liposomal doxorubicin disposition in rats and human. Drug Delivery and Translational Research, 12, 2178-2186. https://doi.org/10.1007/s13346-022-01175-w
Standardization of an in vitro assay matrix to assess cytotoxicity of organic nanocarriers: a pilot interlaboratory comparison
Eder, K. M., Marzi, A., Wågbø, A. M., Vermeulen, J. P., de la Fonteyne-Blankestijn, L. J. J., Rösslein, M., … Schnekenburger, J. (2022). Standardization of an in vitro assay matrix to assess cytotoxicity of organic nanocarriers: a pilot interlaboratory comparison. Drug Delivery and Translational Research, 12, 2187-2206. https://doi.org/10.1007/s13346-022-01203-9
Future perspectives for advancing regulatory science of nanotechnology-enabled health products
Halamoda-Kenzaoui, B., Geertsma, R., Pouw, J., Prina-Mello, A., Carrer, M., Roesslein, M., … Bremer-Hoffmann, S. (2022). Future perspectives for advancing regulatory science of nanotechnology-enabled health products. Drug Delivery and Translational Research, 12, 2145-2156. https://doi.org/10.1007/s13346-022-01165-y
Versailles project on advanced materials and standards (VAMAS) interlaboratory study on measuring the number concentration of colloidal gold nanoparticles
Minelli, C., Wywijas, M., Bartczak, D., Cuello-Nuñez, S., Goenaga Infante, H., Deumer, J., … Shard, A. G. (2022). Versailles project on advanced materials and standards (VAMAS) interlaboratory study on measuring the number concentration of colloidal gold nanoparticles. Nanoscale, 14(12), 4690-4704. https://doi.org/10.1039/D1NR07775A
Potential artifacts and control experiments in toxicity tests of nanoplastic and microplastic particles
Petersen, E. J., Barrios, A. C., Henry, T. B., Johnson, M. E., Koelmans, A. A., Montoro Bustos, A. R., … Xing, B. (2022). Potential artifacts and control experiments in toxicity tests of nanoplastic and microplastic particles. Environmental Science and Technology, 56(22), 15192-15206. https://doi.org/10.1021/acs.est.2c04929
Asymmetric-flow field-flow fractionation for measuring particle size, drug loading and (in)stability of nanopharmaceuticals. The joint view of European Union Nanomedicine Characterization Laboratory and National Cancer Institute - Nanotechnology Character
Caputo, F., Mehn, D., Clogston, J. D., Rösslein, M., Prina-Mello, A., Borgos, S. E., … Calzolai, L. (2021). Asymmetric-flow field-flow fractionation for measuring particle size, drug loading and (in)stability of nanopharmaceuticals. The joint view of European Union Nanomedicine Characterization Laboratory and National Cancer Institute - Nanotechnology Characterization Laboratory. Journal of Chromatography A, 1635, 461767 (12 pp.). https://doi.org/10.1016/j.chroma.2020.461767
Characteristics to consider when selecting a positive control material for an <em>in vitro</em> assay
Petersen, E. J., Nguyen, A. D., Brown, J., Elliott, J. T., Clippinger, A. J., Gordon, J., … Roesslein, M. (2021). Characteristics to consider when selecting a positive control material for an in vitro assay. ALTEX: Alternatives to Animal Experimentation, 38(2), 365-376. https://doi.org/10.14573/altex.2102111
Characterizing the urban mine - simulation-based optimization of sampling approaches for built-in batteries in WEEE
Mählitz, P. M., Korf, N., Sperlich, K., Münch, O., Rösslein, M., & Rotter, V. S. (2020). Characterizing the urban mine - simulation-based optimization of sampling approaches for built-in batteries in WEEE. Recycling, 5(3), 19 (25 pp.). https://doi.org/10.3390/recycling5030019
Emerging standards and analytical science for nanoenabled medical products
Nelson, B. C., Minelli, C., Doak, S. H., & Roesslein, M. (2020). Emerging standards and analytical science for nanoenabled medical products. Annual Review of Analytical Chemistry, 13(1), 431-452. https://doi.org/10.1146/annurev-anchem-091619-102216
Measuring particle size distribution of nanoparticle enabled medicinal products, the joint view of EUNCL and NCI-NCL. A step by step approach combining orthogonal measurements with increasing complexity
Caputo, F., Clogston, J., Calzolai, L., Rösslein, M., & Prina-Mello, A. (2019). Measuring particle size distribution of nanoparticle enabled medicinal products, the joint view of EUNCL and NCI-NCL. A step by step approach combining orthogonal measurements with increasing complexity. Journal of Controlled Release, 299, 31-43. https://doi.org/10.1016/j.jconrel.2019.02.030
Anticipation of regulatory needs for nanotechnology-enabled health products. The REFINE white paper
Halamoda-Kenzaoui, B., Box, H., van Elk, M., Gaitan, S., Geertsma, R. E., Gainza Lafuente, E., … Bremer-Hoffmann, S. (2019). Anticipation of regulatory needs for nanotechnology-enabled health products. The REFINE white paper. Publications Office of the European Union. https://doi.org/10.2760/596822
Bridging communities in the field of nanomedicine
Halamoda-Kenzaoui, B., Baconnier, S., Bastogne, T., Bazile, D., Boisseau, P., Borchard, G., … Bremer-Hoffmann, S. (2019). Bridging communities in the field of nanomedicine. Regulatory Toxicology and Pharmacology, 106, 187-196. https://doi.org/10.1016/j.yrtph.2019.04.011
Multi-element chemical analysis of printed circuit boards – challenges and pitfalls
Korf, N., Løvik, A. N., Figi, R., Schreiner, C., Kuntz, C., Mählitz, P. M., … Rotter, V. S. (2019). Multi-element chemical analysis of printed circuit boards – challenges and pitfalls. Waste Management, 92, 124-136. https://doi.org/10.1016/j.wasman.2019.04.061
Variability and bias in measurements of metals mass fractions in automobile shredder residue
Løvik, A. N., Figi, R., Schreiner, C., Rösslein, M., Widmer, R., Bunge, R., … Wäger, P. (2019). Variability and bias in measurements of metals mass fractions in automobile shredder residue. Recycling, 4(3), 34 (18 pp.). https://doi.org/10.3390/recycling4030034
Characterizing the urban mine–challenges of simplified chemical analysis of anthropogenic mineral residues
Mählitz, P. M., Løvik, A. N., Figi, R., Schreiner, C., Kuntz, C., Korf, N., … Rotter, V. S. (2019). Characterizing the urban mine–challenges of simplified chemical analysis of anthropogenic mineral residues. Resources, 8(3), 132 (22 pp.). https://doi.org/10.3390/resources8030132
Determining what really counts: modeling and measuring nanoparticle number concentrations
Petersen, E. J., Montoro Bustos, A. R., Toman, B., Johnson, M. E., Ellefson, M., Caceres, G. C., … Roesslein, M. (2019). Determining what really counts: modeling and measuring nanoparticle number concentrations. Environmental Science: Nano, 6(9), 2876-2896. https://doi.org/10.1039/C9EN00462A
Toward achieving harmonization in a nanocytotoxicity assay measurement through an interlaboratory comparison study
Elliott, J. T., Rösslein, M., Song, N. W., Toman, B., Kinsner-Ovaskainen, A., Maniratanachote, R., … Wick, P. (2017). Toward achieving harmonization in a nanocytotoxicity assay measurement through an interlaboratory comparison study. ALTEX: Alternatives to Animal Experimentation, 34(2), 201-218. https://doi.org/10.14573/altex.1605021