Your search keyword '"Elke Jensen"' showing total 6 results

1. Threshold of Toxicological Concern: Extending the chemical space by inclusion of a highly curated dataset for organosilicon compounds

Author

Jane Rose, Laufersweiler Michael Christopher, Barbara G. Schmitt, and Elke Jensen

Subjects

Percentile, No-Observed-Adverse-Effect Level, Databases, Factual, Dose-Response Relationship, Drug, Carcinogenicity Tests, Mutagenicity Tests, Reproduction, Rodentia, General Medicine, Class iii, Cosmetics, Toxicology, Chemical space, Statistics, Animals, Organosilicon Compounds, cardiovascular diseases, Rabbits, Pesticides

Abstract

The Threshold of Toxicological Concern (TTC) for non-genotoxic substances, a risk assessment tool to establish safe exposure levels for chemicals with insufficient toxicological data, is based on the 5th percentile of cumulated distributions of Point of Departures in a high amount of repeat-dose, developmental and reproductive toxicity studies, grouped by Cramer Classes. The lack of organosilicon compounds in this dataset has resulted in regulatory concerns over the applicability of the TTC concept for this chemistry. We collected publicly available, scientifically robust oral repeat-dose and DART studies for 71 organosilicon substances for inclusion in the existing TTC dataset, using criteria for evaluation of studies and derivation of points of departure analogous to the Munro and COSMOS TTC publications. The resulting 5th percentile of this dataset was 13-fold higher than the 5th percentile for Cramer Class III compounds reported by Munro (which is the default for silicon-containing substances). Both the existing TTC for Cramer Class III compounds from Munro (1.5 μg/kg bw/day) and the COSMOS TTC (2.3 μg/kg bw/day), recommended by the SCCS for cosmetics-related substances, provide a conservative and sufficiently protective approach for this class of chemistry.

Published

2021

2. Refinement of the oral exposure description in the cyclic siloxane PBPK model for rats and humans: Implications for exposure assessment

Author

Harvey J. Clewell, Melvin E. Andersen, Robinan Gentry, Elke Jensen, Jean Y. Domoradzki, Cynthia Van Landingham, and Jerry L. Campbell

Subjects

0301 basic medicine, Adult, Male, Physiologically based pharmacokinetic modelling, Siloxanes, Decamethylcyclopentasiloxane, Administration, Oral, 010501 environmental sciences, Pharmacology, Toxicology, 01 natural sciences, Octamethylcyclotetrasiloxane, Models, Biological, 03 medical and health sciences, chemistry.chemical_compound, Bolus (medicine), Pharmacokinetics, Animals, Humans, 0105 earth and related environmental sciences, Exposure assessment, Inhalation exposure, Inhalation Exposure, Chromatography, Inhalation, Dose-Response Relationship, Drug, Chemistry, General Medicine, Environmental Exposure, Rats, 030104 developmental biology, Female

Abstract

The multi-compound, and multi-dose (MC-MD) route physiologically based pharmacokinetic (PBPK) model for cyclic siloxanes reported by McMullin et al. (2016) brought together the series of models for octamethylcyclotetrasiloxane (D4) and decamethylcyclopentasiloxane (D5) in rat and human into a unified code structure that would allow simulation of both compounds following the inhalation and dermal routes of exposure. The refined MC-MD PBPK model presented here expands upon this effort to include representation of rat kinetic data in plasma, tissues and exhaled breath for the parent compounds after oral bolus administration. Additional refinements were made with regards to hepatic induction of metabolism in the liver and allometric scaling of rate constants for the deep tissue compartments which will allow the MC-MD model to be used in uncertainty analysis. Overall, the refined MC-MD model was able to reproduce both parent D4 and D5 kinetic data in rat and human after inhalation exposure (rat and human) or dermal exposure (human). The inclusion of sequestered (i.e., lipid associated) oral absorption into plasma after oral bolus dosing successfully described the lack of exhalation as well as the initial distribution of siloxane to the liver which was higher than simple partitioning from plasma would allow. The refined MC-MD PBPK model presented here can be incorporated into uncertainty and variability analysis and cross-species dosimetry for both D4 and D5.

Published

2017

3. Illustrative case using the RISK21 roadmap and matrix : Prioritization for evaluation of chemicals found in drinking water

Author

Cheryl A. Bellin, Ammie N. Bachman, Tami S. McMullin, Angelo Moretto, Timothy P. Pastoor, Rita Schoeny, Douglas C. Wolf, Jay I. Goodman, Gordon Barrett, Korinna Wend, Brian Slezak, Elke Jensen, and Michelle R. Embry

Subjects

0301 basic medicine, Prioritization, tiered approach, Computer science, environmental exposure, Review, risk21, 010501 environmental sciences, 01 natural sciences, decision making, Matrix (chemical analysis), 03 medical and health sciences, models, Data acquisition, Environmental health, toxicity tests, united states environmental protection agency, hazardous substances, animal, Representation (mathematics), humans, theoretical, Review Articles, 0105 earth and related environmental sciences, drinking water, integrated evaluation strategy, prioritization, risk assessment, animals, united states, toxicology, Environmental exposure, Models, Theoretical, Hazard, 030104 developmental biology, Risk analysis (engineering), Models, Animal, Risk assessment, Exposure data

Abstract

The HESI-led RISK21 effort has developed a framework supporting the use of twenty-first century technology in obtaining and using information for chemical risk assessment. This framework represents a problem formulation-based, exposure-driven, tiered data acquisition approach that leads to an informed decision on human health safety to be made when sufficient evidence is available. It provides a transparent and consistent approach to evaluate information in order to maximize the ability of assessments to inform decisions and to optimize the use of resources. To demonstrate the application of the framework’s roadmap and matrix, this case study evaluates a large number of chemicals that could be present in drinking water. The focus is to prioritize which of these should be considered for human health risk as individual contaminants. The example evaluates 20 potential drinking water contaminants, using the tiered RISK21 approach in combination with graphical representation of information at each step, using the RISK21 matrix. Utilizing the framework, 11 of the 20 chemicals were assigned low priority based on available exposure data alone, which demonstrated that exposure was extremely low. The remaining nine chemicals were further evaluated, using refined estimates of toxicity based on readily available data, with three deemed high priority for further evaluation. In the present case study, it was determined that the greatest value of additional information would be from improved exposure models and not from additional hazard characterization.

Published

2016

4. [Untitled]

Author

Anthony Esposito, Manoj Patel, John Afflitto, Abdul Gaffar, Karen Ann Smith, and Elke Jensen

Subjects

Pharmacology, Maleic acid, Chemistry, Metal ions in aqueous solution, Organic Chemistry, Inorganic chemistry, Pharmaceutical Science, chemistry.chemical_element, Nuclear magnetic resonance spectroscopy, Zinc, Active center, chemistry.chemical_compound, Copolymer, Molecular Medicine, Alkaline phosphatase, Pharmacology (medical), Magnesium ion, Biotechnology, Nuclear chemistry

Abstract

The inhibitory effect of PVM/MA copolymer on the alkaline phosphatase (AP) of E. coli was investigated. Kinetic studies indicated that enzyme inhibition was characterized by a reduction in both the Vmax and the Km. Addition of 1 mM zinc or magnesium ions to the reaction prevented inhibition of the enzyme by the copolymer. The inhibitory effect of the copolymer on alkaline phosphatase was also investigated using 113Cd NMR after exchange of the active center metal ions with 113Cd. The resulting Cd(II)6AP exhibited characteristic 113Cd resonances reflecting the environment of the A, B, and C metal binding sites of the enzyme's active center. Addition of copolymer resulted in a 113Cd NMR spectrum which indicated removal of 113Cd from the C site and formation of two distinct forms of the enzyme. Possible explanations for the 113Cd NMR results are discussed.

Published

1991

5. pi.-Complexes of alkenes to trivalent aluminum

Author

Jean Chey, Yuh Min Chook, Hyoun Sook Choe, Pamela R. Seida, Michelle Francl, and Elke Jensen

Subjects

chemistry.chemical_classification, Ethylene, Organic Chemistry, Gaussian orbital, Ab initio, chemistry.chemical_element, Halide, Molecular orbital theory, Inorganic Chemistry, Propene, chemistry.chemical_compound, Crystallography, chemistry, Aluminium, Computational chemistry, Physical and Theoretical Chemistry, Inorganic compound

Abstract

The structures of simple π-complexes of aluminum alkyls and aluminum alkyl halides were explored with use of ab initio molecular orbital theory. Complexes of AlR 3−n Cl n (R=H, CH 3 ) with ethylene and propene were found to be stable intermediates, not transition structures. The energies of binding have been estimated by using post-Hartree-Fock techniques

Published

1990

6. Microbial Risk Assessment

Author

Sherri B. Dennis, Elke Jensen, Marianne D. Miliotis, Carl M. Schroeder, and Kara Morgan

Subjects

Risk analysis, education.field_of_study, Probabilistic risk assessment, business.industry, Population, Context (language use), Hazard, eye diseases, Biotechnology, Environmental health, Quantitative risk assessment software, Environmental science, Risk assessment, business, education, Exposure assessment

Abstract

Microbial risk assessment (MRA) is used to evaluate foodborne hazards, the likelihood of exposure to those hazards, and the resulting public-health impact. It is generally recognized to consist of four parts: hazard identification, hazard characterization, exposure assessment, and risk characterization. Model predictions generated by MRAs are most often expressed as the estimated likelihood of foodborne illness and/or number of deaths in a given population for a given period. MRA is used increasingly to inform decision-making aimed both at managing human health risks from foodborne pathogens and at devising standards for promoting safe and fair international food trade. This chapter discusses how MRA fits into the larger context of risk analysis, describes in detail the process of MRA, reviews examples of recently completed MRAs, and suggests steps towards further improvement of the MRA process.

Published

2007