Joseph Strasser scite author profile

Joseph Strasser

4Publications

3Citation Statements Received

51Citation Statements Given

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Affiliations

University of North Carolina at Chapel Hill, Oak Ridge Associated Universities, Reynolds American (United States)

Publications

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A bioassay-based protocol for chemical neutralization of human faecal wastes treated by physico-chemical disinfection processes: A case study on benzalkonium chloride

Sozzi

Baloch

Strasser

et al. 2019

International Journal of Hygiene and Environmental Health

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A B S T R A C TIn situ physico-chemical disinfection of high risk faecal waste is both effective and widely used as a sanitation management strategy for infection prevention and control. Systematic tests where the performance of alternative physico-chemical disinfection methods is systematically compared and optimized must be based on reliable protocols. These protocol are currently not adequately addressing the neutralization related issues: the neutralization of the tested disinfectant after specified conditions of concentration and contact time (CT) is necessary to prevent continued disinfection after the intended contact time; moreover such neutralization is often necessary in practice and on a large scale to prevent adverse health and ecological impacts from remaining disinfectant after the target CT is achieved. Few studies adequately assess the extent of neutralization of the chemical disinfectant and are intended to optimize on-site disinfection practices for waste matrices posing high microbial risks. Hence, there is a need for effective and reproducible neutralization protocols in chemical disinfection trials and practice. Furthermore, for most of chemical disinfectants used in healthcare settings there is no practical methodology to reliably and conveniently measure the residual disinfectant concentration after its neutralization and also determine the optimum concentration of the neutralizer. Because some neutralizing compounds can themselves be toxic to the test microorganisms, it is necessary to optimize neutralization procedures in disinfection experiments for the development of infection control practices using accepted positive control microbes. In the presented work, a stepwise bioassay-based protocol using representative faecal indicator microbes is described for optimizing chemical disinfection and subsequent disinfectant neutralization of any infectious faecal waste matrix. The example described is for the quaternary ammonium compound benzalkonium chloride and its recommended chemical neutralizer in a high strength human faecal waste matrix.

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P116 - Toxicity of hydrophobic and hydrophillic microcystin congeners on primary human hepatocytes

Richardson

Strasser²,

Hilborn

2020

Drug Metabolism and Pharmacokinetics

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Cytotoxicity in primary human hepatocytes exposed to various microcystin congeners

Richardson

Strasser

Hilborn

2019

Drug Metabolism and Pharmacokinetics

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Vapor products exposure and risk assessment assumption refinement: Ingredient transfer

et al. 2016

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Joseph Strasser

A bioassay-based protocol for chemical neutralization of human faecal wastes treated by physico-chemical disinfection processes: A case study on benzalkonium chloride

P116 - Toxicity of hydrophobic and hydrophillic microcystin congeners on primary human hepatocytes

Cytotoxicity in primary human hepatocytes exposed to various microcystin congeners

Vapor products exposure and risk assessment assumption refinement: Ingredient transfer

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