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Full-Text Articles in Laboratory and Basic Science Research
Development And Application Of Aquatic Toxicology Studies For The Assessment Of Impacts Due To Chemical Stressors Using Non-Standard Indigenous Organisms, Abraham Jeffrey Smith
Development And Application Of Aquatic Toxicology Studies For The Assessment Of Impacts Due To Chemical Stressors Using Non-Standard Indigenous Organisms, Abraham Jeffrey Smith
FIU Electronic Theses and Dissertations
Research in the multidisciplinary science of ecotoxicology is crucial to assess injuries to ecosystem resources from chemical spills or other stressors used to support environmental decision-making. Established guidelines recommend the use of non-standard native species in toxicity investigations. This work focused on the use of native species for aquatic toxicity assessment to make more relevant conclusions on the potential for adverse biological effects to occur as a result to single chemical exposures or exposures to a complex mixture like oil. We apply these studies to investigate petroleum product impacts from the Deepwater Horizon incident and concerns for metal toxicity in …
Laboratory Focus On Improving The Culture Of Biosafety: Statewide Risk Assessment Of Clinical Laboratories That Process Specimens For Microbiologic Analysis, Erik Munson, Erin J. Bowles, Richard Dern, Eric Beck, Raymond P. Podzorski, Allen C. Batemman, Timothy K. Block, Joshua L. Kropp, Tyler Radke, Karen Siebers, Brian Simmons, Mary A. Smith, Frances Spray-Larson, David M. Warshauer
Laboratory Focus On Improving The Culture Of Biosafety: Statewide Risk Assessment Of Clinical Laboratories That Process Specimens For Microbiologic Analysis, Erik Munson, Erin J. Bowles, Richard Dern, Eric Beck, Raymond P. Podzorski, Allen C. Batemman, Timothy K. Block, Joshua L. Kropp, Tyler Radke, Karen Siebers, Brian Simmons, Mary A. Smith, Frances Spray-Larson, David M. Warshauer
Clinical Lab Sciences Faculty Research and Publications
The Wisconsin State Laboratory of Hygiene challenged Wisconsin laboratories to examine their biosafety practices and improve their culture of biosafety. One hundred three clinical and public health laboratories completed a questionnaire-based, microbiology-focused biosafety risk assessment. Greater than 96% of the respondents performed activities related to specimen processing, direct microscopic examination, and rapid nonmolecular testing, while approximately 60% performed culture interpretation. Although they are important to the assessment of risk, data specific to patient occupation, symptoms, and travel history were often unavailable to the laboratory and, therefore, less contributory to a microbiology-focused biosafety risk assessment than information on the specimen source …
Incorporating New Technologies Into Toxicity Testing And Risk Assessment: Moving From 21st Century Vision To A Data-Driven Framework, Russell S. Thomas, Martin A. Philbert, Scott Auerbach, Barbara A. Wetmore, Michael J. Devito, Ila Cote, J. Craig Rowlands, Maurice Whelan, Sean M. Hays, Melvin E. Andersen, M.E. (Bette) Meek, Lawrence W. Reiter, Jason C. Lambert, Harvey J. Clewell Iii, Martin L. Stephens, Q. Jay Zhao, Scott C. Wesselkamper, Lynn Flowers, Edward W. Carney, Tim P. Pastoor, Dan D. Petersen, Carole L. Yauk, Andy Nong
Incorporating New Technologies Into Toxicity Testing And Risk Assessment: Moving From 21st Century Vision To A Data-Driven Framework, Russell S. Thomas, Martin A. Philbert, Scott Auerbach, Barbara A. Wetmore, Michael J. Devito, Ila Cote, J. Craig Rowlands, Maurice Whelan, Sean M. Hays, Melvin E. Andersen, M.E. (Bette) Meek, Lawrence W. Reiter, Jason C. Lambert, Harvey J. Clewell Iii, Martin L. Stephens, Q. Jay Zhao, Scott C. Wesselkamper, Lynn Flowers, Edward W. Carney, Tim P. Pastoor, Dan D. Petersen, Carole L. Yauk, Andy Nong
in Vitro Research Models Collection
Based on existing data and previous work, a series of studies is proposed as a basis toward a pragmatic early step in transforming toxicity testing. These studies were assembled into a data-driven framework that invokes successive tiers of testing with margin of exposure (MOE) as the primary metric. The first tier of the framework integrates data from high-throughput in vitro assays, in vitro-to-in vivo extrapolation (IVIVE) pharmacokinetic modeling, and exposure modeling. The in vitro assays are used to separate chemicals based on their relative selectivity in interacting with biological targets and identify the concentration at which these interactions …
A Roadmap For The Development Of Alternative (Non-Animal) Methods For Systemic Toxicity Testing, David Basketter, Harvey Clewell, Ian Kimber, Annamaria Rossi, Bas Blaauboer, Robert Burrier, Mardas Daneshian, Chantra Eskes, Alan Goldberg, Nina Hasiwa, Sebastian Hoffmann, Joanna Jaworska, Thomas B. Knudsen, Robert Landsiedel, Marcel Leist, Paul Locke, Gavin Maxwell, James Mckim, Emily Mcvey, Gladys Ouédraogo, Grace Patlewicz, Olavi Pelkonen, Erwin Roggen, Costanza Rovida, Irmela Ruhdel, Michael Schwarz, Andreas Schepky, Greet Schoeters, Nigel Skinner, Kerstin Trentz, Marian Turner, Philippe Vanparys, James Yager, Joanne Zurlo, Thomas Hartung
A Roadmap For The Development Of Alternative (Non-Animal) Methods For Systemic Toxicity Testing, David Basketter, Harvey Clewell, Ian Kimber, Annamaria Rossi, Bas Blaauboer, Robert Burrier, Mardas Daneshian, Chantra Eskes, Alan Goldberg, Nina Hasiwa, Sebastian Hoffmann, Joanna Jaworska, Thomas B. Knudsen, Robert Landsiedel, Marcel Leist, Paul Locke, Gavin Maxwell, James Mckim, Emily Mcvey, Gladys Ouédraogo, Grace Patlewicz, Olavi Pelkonen, Erwin Roggen, Costanza Rovida, Irmela Ruhdel, Michael Schwarz, Andreas Schepky, Greet Schoeters, Nigel Skinner, Kerstin Trentz, Marian Turner, Philippe Vanparys, James Yager, Joanne Zurlo, Thomas Hartung
Biomedical Research and Alternative Methods Collection
Systemic toxicity testing forms the cornerstone for the safety evaluation of substances. Pressures to move from traditional animal models to novel technologies arise from various concerns, including: the need to evaluate large numbers of previously untested chemicals and new products (such as nanoparticles or cell therapies), the limited predictivity of traditional tests for human health effects, duration and costs of current approaches, and animal welfare considerations. The latter holds especially true in the context of the scheduled 2013 marketing ban on cosmetic ingredients tested for systemic toxicity. Based on a major analysis of the status of alternative methods (Adler et …
Bringing Toxicology Into The 21st Century: A Global Call To Action, Troy Seidle, Martin Stephens
Bringing Toxicology Into The 21st Century: A Global Call To Action, Troy Seidle, Martin Stephens
Experimentation Collection
Conventional toxicological testing methods are often decades old, costly and low-throughput, with questionable relevance to the human condition. Several of these factors have contributed to a backlog of chemicals that have been inadequately assessed for toxicity. Some authorities have responded to this challenge by implementing large-scale testing programmes. Others have concluded that a paradigm shift in toxicology is warranted. One such call came in 2007 from the United States National Research Council (NRC), which articulated a vision of ‘‘21st century toxicology” based predominantly on non-animal techniques. Potential advantages of such an approach include the capacity to examine a far greater …