%0 Journal Article %A Dennis Jenke %A Ted Heise %T The Implications of Chromatographically Screening Medical Products for Organic Leachables Down to the AET Adjusted for Response Factor Variation %D 2020 %R 10.5731/pdajpst.2020.012013 %J PDA Journal of Pharmaceutical Science and Technology %P pdajpst.2020.012013 %X A drug product is chromatographically screened for organic leachables, derived from the product′s packaging system, as leachables might adversely impact the health of a patient to whom the drug product is administered. Similarly, medical device and packaging system extracts are chromatographically screened for organic extractables as probable leachables. To be protective of patient health, the screening methods must produce recognizable responses for all potentially unsafe substances. To be efficient, the screening methods should provide a means of differentiating between responses linked to likely to be safe and potentially unsafe substances. The analytical evaluation threshold (AET) was established as a means of differentiating chromatographic peaks, based on concentration, that are unlikely to be unsafe (and thus do not need safety assessment) and that are possibly unsafe (and thus require safety assessment). Thus, the AET manages the competing objectives of protection and efficiency. Although the AET is based on concentration, it is applied based on response. As no chromatographic detection method applied to E&L screening produces a uniform response to all potential analytes (thus, the response strength differs across analytes), the objectives of protection or efficiency can be compromised by false negatives and positives. To ensure protection, at the expense of efficiency, the AET can be adjusted to address response variation. This manuscript addresses the practical issue that the protectiveness of the AET is affected both by response factor bias and variation and thus correction for only variation is incomplete and ineffective. The manuscript illustrates the proper adjustment of the AET for bias and variation. %U https://journal.pda.org/content/pdajpst/early/2020/11/16/pdajpst.2020.012013.full.pdf