AI Article Synopsis
- - The minimum detectable difference (MDD) quantifies the smallest difference between treatment and control means needed to identify significant effects, factoring in data variability and defined probability levels.
- - MDD helps assess the reliability of effect thresholds in environmental studies, guiding regulatory decisions concerning chemical exposure in plants and ecosystems.
- - The paper critiques the existing MDD calculation methods for lacking clear definitions of type II error rates and proposes improvements to enhance their robustness for effective risk assessment outcomes.
Article Abstract
The minimum detectable difference (MDD) is a measure of the difference between the means of a treatment and the control that must exist to detect a statistically significant effect. It is a measure at a defined level of probability and a given variability of the data. It provides an indication for the robustness of statistically derived effect thresholds such as the lowest observed effect concentration (LOEC) and the no observed effect concentration (NOEC) when interpreting treatment-related effects on a population exposed to chemicals in semi-field studies (e.g., micro-/mesocosm studies) or field studies. MDD has been proposed in the guidance on tiered risk assessment for plant protection products in edge of field surface waters (EFSA Journal 11(7):3290, 2013), in order to better estimate the robustness of endpoints from such studies for taking regulatory decisions. However, the MDD calculation method as suggested in this framework does not clearly specify the power which is represented by the beta-value (i.e., the level of probability of type II error). This has implications for the interpretation of experimental results, i.e., the derivation of robust effect values and their use in risk assessment of PPPs. In this paper, different methods of MDD calculations are investigated, with an emphasis on their pre-defined levels of type II error-probability. Furthermore, a modification is suggested for an optimal use of the MDD, which ensures a high degree of certainty for decision-makers.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7048705 | PMC |
| http://dx.doi.org/10.1007/s11356-020-07761-0 | DOI Listing |
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