Assessing the Real-World Performance of Xylazine Test Strips for Community-Based Drug Checking in Los Angeles
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Background
The veterinary sedative xylazine is increasingly found in illicit fentanyl and has been associated with numerous health harms. Xylazine test strips (XTS) are an emerging technology that can theoretically assist consumers in avoiding xylazine, but they require real-world validation. We leverage community-based drug checking program data to compare real-world XTS performance to ‘gold standard’ methods.
Methods
Samples were initially assessed by dissolving 1mg of drug product in 1mL water and dipping an XTS (“first generation” Wisebatch™) in the sample. Subsequently, confirmatory testing was performed by sending samples to the National Institute of Standards and Technology for qualitative analysis using direct analysis in real time mass spectrometry (DART-MS). A subset was analyzed quantitatively with liquid chromatography gas spectrometry (LC/MS) to quantify xylazine, fentanyl, and other compounds.
Results
Of n=595 fentanyl positive samples, n=333 had both DART-MS and XTS data available. N=69 samples were confirmed to contain xylazine by mass spectrometry, of which the majority contained low concentrations (average concentration 2.3%; 78% of samples contained less than <1% xylazine by weight). Of these, n=34 were correctly identified as positive by xylazine test strips, yielding sensitivity of 49.3%. Of n=264 xylazine negative samples, n=235 were correctly categorized (specificity=89.0%).
Conclusions
In our sample, with a large percentage of low-concentration xylazine samples, “first generation” Wisebatch XTS had a relatively low sensitivity, but high specificity. This highlights the value of confirmatory testing and the complicated and often confusing nature of point-of-care test strips for novel substance detection. Follow-up studies are needed.
