Items where Author is "Pletz, J"
 | Up a level |
Article
Paini, A, Campia, I, Cronin, M, Pletz, J and Spinu, N (2021) Towards a qAOP Framework for Predictive Toxicology - Linking Data to Decisions. Computational Toxicology, 21. ISSN 2468-1113
Bassan, A, Alves, VM, Amberg, A, Anger, LT, Beilke, L, Bender, A, Bernal, A, Cronin, MTD, Hsieh, JH, Johnson, C, Kemper, R, Mumtaz, M, Neilson, L, Pavan, M, Pointon, A, Pletz, J, Ruiz, P, Russo, DP, Sabnis, Y, Sandhu, R , Schaefer, M, Stavitskaya, L, Szabo, DT, Valentin, JP, Woolley, D, Zwickl, C and Myatt, GJ (2021) In silico approaches in organ toxicity hazard assessment: Current status and future needs for predicting heart, kidney and lung toxicities. Computational Toxicology, 20. ISSN 2468-1113
Bassan, A, Alves, VM, Amberg, A, Anger, LT, Auerbach, S, Beilke, L, Bender, A, Cronin, MTD, Cross, KP, Hsieh, J-H, Greene, N, Kemper, R, Kim, MT, Mumtaz, M, Noeske, T, Pavan, M, Pletz, J, Russo, DP, Sabnis, Y, Schaefer, M , Szabo, DT, Valentin, J-P, Wichard, J, Williams, D, Woolley, D, Zwickl, C and Myatt, GJ (2021) In silico approaches in organ toxicity hazard assessment: current status and future needs in predicting liver toxicity. Computational Toxicology. ISSN 2468-1113
Pletz, J, Allen, T, Madden, JC, Cronin, MTD and Webb, SD (2021) A Mechanistic Model to Study the Kinetics and Toxicity of Salicylic Acid in the Kidney of Four Virtual Individuals. Computational Toxicology, 19. ISSN 2468-1113
Pletz, J, Blakeman, S, Paini, A, Parissis, N, Worth, A, Andersson, AM, Frederiksen, H, Sakhi, AK, Thomsen, C and Bopp, SK (2020) Physiologically based kinetic (PBK) modelling and human biomonitoring data for mixture risk assessment. Environment International. ISSN 0160-4120
Pletz, J, Enoch, SJ, Jais, DM, Mellor, CL, Pawar, G, Madden, JC, Webb, SD, Tagliati, C and Cronin, MTD (2018) A Critical Review of Adverse Effects to the Kidney: Mechanisms, Data Sources and In Silico Tools to Assist Prediction. Expert Opinion on Drug Metabolism and Toxicology. ISSN 1744-7607
Thesis
Pletz, J (2020) Physiologically-Based Kinetics and Mechanistic Models to Assess Exposure to Chemicals. Doctoral thesis, Liverpool John Moores University.