Toward a Universal Acute Fish Threshold of Toxicological Concern

Plugge, Hans; Das, Nihar; Kostal, Jakub

doi:10.1002/etc.4991

Cited by 3 publications

(13 citation statements)

References 25 publications

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“…Detailed quality control of every study imaginable is not possible-screening is the only option. As we acknowledged in our study (Plugge et al 2021), derivation of say a water quality criterion…”

mentioning

confidence: 85%

“…In addition, the context of toxicological assessments matters, and because context varies and assessments are carried out addressing different needs (often in different parts of the chemical space), we prefer to view contrasting approaches as complementary rather than competitive, so long as applicability and underlying limitations are clearly defined. We invite the authors to scrutinize our publication record to find that some of our past efforts would appear to be "ideologically" orthogonal to the study being discussed in their letter (Plugge et al 2021); yet, we do not perceive this as a conflict with some agreed-on central dogma. It is horses for courses, and although the approach presented may appear crude, its utility cannot be denied in the context of real-world data.A threshold of toxicological concern (TTC) is a screening tool used to assess the risk for a chemical of unknown toxicity and has been around for nearly half a century.…”

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confidence: 99%

“…First, the TTC as presented is a TTC (specifically not an eco-TTC) and was calculated without any adjustment factor, as described in detail in the study (Plugge et al 2021). The derived TTC is based solely on a 95% distribution of acute fish toxicity (a figure of 99.75% of data is also provided).…”

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confidence: 99%

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Reply to Comment on Plugge et al. 2021 “Toward a Universal Acute Fish Threshold of Toxicological Concern”

Plugge

Das

Kostal

2021

Enviro Toxic and Chemistry

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We concur with the authors of the Letter to the Editor that precedents are indeed important in science (Embry et al. 2021, this issue). However, it is equally important to question existing precedents and their utility in the presence of data that exist in the real world. In addition, the context of toxicological assessments matters, and because context varies and assessments are carried out addressing different needs (often in different parts of the chemical space), we prefer to view contrasting approaches as complementary rather than competitive, so long as applicability and underlying limitations are clearly defined. We invite the authors to scrutinize our publication record to find that some of our past efforts would appear to be "ideologically" orthogonal to the study being discussed in their letter (Plugge et al. 2021); yet, we do not perceive this as a conflict with some agreed-on central dogma. It is horses for courses, and although the approach presented may appear crude, its utility cannot be denied in the context of real-world data.A threshold of toxicological concern (TTC) is a screening tool used to assess the risk for a chemical of unknown toxicity and has been around for nearly half a century. This was the common usage within science until the emergence of a different measure, eco-TTC. As specifically stated, we derived a TTC, not an eco-TTC. Calibrating with 4 different derivation methods assures that the derived TTC is at most a conservative estimate. Knowledge of mechanism of action is limited, as described elsewhere (Connors et al. 2019). Use of mechanism of action software would incur a high(er) level of uncertainty, assuming one was within the limits of domain applicability, and was not explicitly applied in EnviroTox. A mechanism of action for regulated commercial mixtures would be very hard to pin down (most regulated products are mixtures). Detailed quality control of every study imaginable is not possible-screening is the only option. As we acknowledged in our study (Plugge et al. 2021), derivation of say a water quality criterion

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confidence: 85%

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confidence: 99%

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Reply to Comment on Plugge et al. 2021 “Toward a Universal Acute Fish Threshold of Toxicological Concern”

Plugge

Das

Kostal

2021

Enviro Toxic and Chemistry

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“…After an examination of the data set used for the Plugge et al (2021) calculations (provided as their Supplemental Data), the following findings were made. 1) The original data set was 47 694 records for 6133 unique substances.…”

Section: Datamentioning

confidence: 99%

“…If proper and appropriate handling of metals data was not possible (e.g., normalizing to a set hardness value for the purpose of aggregating metals data in distributions), the authors should have excluded metals from this analysis. Although we have not re-analyzed the Plugge et al (2021) data set with this in mind, we expect that a grouping structure based on the dissociated metal ion driving toxicity would result in a significant portion of the data being collapsed together and thus alter the CTD 0.05 distribution.…”

Section: Datamentioning

confidence: 99%

Comment on Plugge et al. 2021 “Toward a Universal Acute Fish Threshold of Toxicological Concern”

Embry

Belanger

Connors

et al. 2021

Enviro Toxic and Chemistry

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Precedent: an earlier event or action that is regarded as an example or guide to be considered in subsequent similar circumstances.Recently, a study by Plugge et al. (2021) was published by Environmental Toxicology and Chemistry. The authors conflate several related terms with the intent to improve predictions of fish acute toxicity based on large historical data sets, to reduce the numbers of fish required for testing in the future. The authors term the outcome a "universal threshold of toxicologic concern (TTC)" for acute fish toxicity. We believe that their approach inaccurately frames the approach as an ecological (eco)-TTC and includes multiple scientific errors. Terminology built on precedent is important.

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Pesticide Indirect Photodegradation Database: A Data-Sharing Platform for Screening Existing and Discovering New Agrochemicals

Stickelman,

Clay,

Kostal

2023

ACS Chem. Health Saf.

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The ability to control and tune physicochemical properties that underscore chemical behavior in living systems and the environment is at the "heart" of green chemistry. This is especially true for chemical classes designed a priori to be biologically active, such as pesticides, where the chance of unintended adverse outcomes is high. We recently proposed a design-vectoring framework, leveraging validated computational models of ecotoxicity and indirect photodegradation as a useful, quasisystems-based tool for screening existing and designing new agrochemicals. Here, we describe the development of a database that integrates our models, which link structural and substructural features to process metrics, and corresponding predicated data for all agrochemicals with photodegradable cores on the U.S. Environmental Protection Agency's registry (785 compounds and over 18,000 pairwise interactions with chromophoric dissolved organic matter, CDOM). The database is searchable by structural and nonstructural identifiers (e.g., chemical class, oxidizable core, physicochemical and electronic properties, etc.) to aid in chemical selection, hazard, and alternative assessment. Crucially, it can be easily updated and augmented to aid in interactive datasharing across industry, government, and academia. The overarching goal of this project is to spur grander efforts in systems-based design of pesticides that would see this platform paired with target-based computational methods and incorporated into the discovery phase of new product development across industry sectors.

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Toward a Universal Acute Fish Threshold of Toxicological Concern

Cited by 3 publications

References 25 publications

Reply to Comment on Plugge et al. 2021 “Toward a Universal Acute Fish Threshold of Toxicological Concern”

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Pesticide Indirect Photodegradation Database: A Data-Sharing Platform for Screening Existing and Discovering New Agrochemicals

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