Daniel Acosta scite author profile

With the release of the landmark report Toxicity Testing in the 21st Century: A Vision and a Strategy, the U.S. National Academy of Sciences, in 2007, precipitated a major change in the way toxicity testing is conducted. It envisions increased efficiency in toxicity testing and decreased animal usage by transitioning from current expensive and lengthy in vivo testing with qualitative endpoints to in vitro toxicity pathway assays on human cells or cell lines using robotic high-throughput screening with mechanistic quantitative parameters. Risk assessment in the exposed human population would focus on avoiding significant perturbations in these toxicity pathways. Computational systems biology models would be implemented to determine the dose-response models of perturbations of pathway function. Extrapolation of in vitro results to in vivo human blood and tissue concentrations would be based on pharmacokinetic models for the given exposure condition. This practice would enhance human relevance of test results, and would cover several test agents, compared to traditional toxicological testing strategies. As all the tools that are necessary to implement the vision are currently available or in an advanced stage of development, the key prerequisites to achieving this paradigm shift are a commitment to change in the scientific community, which could be facilitated by a broad discussion of the vision, and obtaining necessary resources to enhance current knowledge of pathway perturbations and pathway assays in humans and to implement computational systems biology models. Implementation of these strategies would result in a new toxicity testing paradigm firmly based on human biology.

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Predictive Value of in Vitro Model Systems in Toxicology

Dávila¹,

Rodriguez

Melchert

et al. 1998

Annu. Rev. Pharmacol. Toxicol.

120

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The application of in vitro model systems to evaluate the toxicity of xenobiotics has significantly enhanced our understanding of drug- and chemical-induced target toxicity. From a scientific perspective, there are several reasons for the popularity of in vitro model systems. From the public perspective, in vitro model systems enjoy increasing popularity because their application may allow a reduction in the number of live animals employed in toxicity testing. In this review, we present an overview of the use of in vitro model systems to investigate target organ toxicity of drugs and chemicals, and provide selective examples of these model systems to better understand cutaneous and ocular toxicity and the role of drug metabolism in the hepatotoxicity of selected agents. We conclude by examining the value and use of in vitro model systems in industrial development of new pharmaceutical agents.

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A distinctive repertoire of cathepsins is expressed by juvenile invasive Fasciola hepatica

et al. 2008

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Evaluation of cytotoxicity in cultured cells by enzyme leakage

Mitchell

Santone

Acosta

1980

Journal of Tissue Culture Methods

213

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Mitochondrial regulation of superoxide by Ca2+: An alternate mechanism for the cardiotoxicity of doxorubicin

Chacón¹,

Acosta

1991

Toxicology and Applied Pharmacology

134

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Daniel Acosta

Toxicity Testing in the 21st Century: A Vision and a Strategy

Predictive Value of in Vitro Model Systems in Toxicology

A distinctive repertoire of cathepsins is expressed by juvenile invasive Fasciola hepatica

Evaluation of cytotoxicity in cultured cells by enzyme leakage

Mitochondrial regulation of superoxide by Ca2+: An alternate mechanism for the cardiotoxicity of doxorubicin

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