Receiver-operating characteristics of adjusted urine measurements of oxycodone plus metabolites to distinguish between three different rates of oxycodone administration

In a study by Couto et al. (Use of an algorithm applied to urine drug screening to assess adherence to an oxycontin regimen. J Opioid Manag 2009;5:359–64), adjusted urine measurements of oxycodone plus metabolites noroxycodone and oxymorphone were determined among volunteer subjects in three groups...

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Bibliographic Details
Published in:Clinical biochemistry 2013-01, Vol.46 (1-2), p.115-118
Main Authors: McCloskey, Laura J., Dellabadia, Kristine A., Stickle, Douglas F.
Format: Article
Language:English
Subjects:
Administration, Oral
Algorithms
Dose-Response Relationship, Drug
Humans
Oxycodone
Oxycodone - administration & dosage
Oxycodone - urine
Pain medication
Prescription compliance
Reference Values
ROC Curve
Urine drug testing
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Summary:In a study by Couto et al. (Use of an algorithm applied to urine drug screening to assess adherence to an oxycontin regimen. J Opioid Manag 2009;5:359–64), adjusted urine measurements of oxycodone plus metabolites noroxycodone and oxymorphone were determined among volunteer subjects in three groups according to oxycodone administration rates (A: 80mg/day; B: 160mg/day; C: 240mg/day). We performed receiver-operating characteristic (ROC) analyses of the distribution data from this study to determine the ability to correctly categorize individual measurements with respect to each group. For groups A–C, assumed reference ranges were defined as median-centered intervals encompassing a designated central percentage of the group's distribution. By varying assumed reference ranges across all possible reference ranges, ROC analyses of the ability of each group's reference ranges to appropriately include or exclude members of all groups were calculated. This generated six ROC curves (sensitivity vs. specificity): A vs. (B or C); B vs. (A or C); C vs. (A or B). Overlaps of distributions A, B, and C were large, such that none of the ROC curves exceeded areas-under-curves of 0.8. The greatest sensitivity–specificity combination had a sensitivity of 74% for C with specificity of 75% for A, for which oxycodone administration rates were different by a factor of 3. ROC analyses of data from a previous study demonstrated that, even under experimentally controlled conditions, adjusted urine drug measurements could not be used reliably to correctly categorize individual subjects' results according to their known oxycodone administration rates in the range of 80–240mg/day. Misclassifications of results were 25% or greater. ► Published algorithm-adjusted urine drug measurement distributions were analyzed. ► Distributions were for three oxycodone dosage rate groups (80, 160, 240mg/d). ► Receiver-operating curves to distinguish between rate groups were produced. ► Receiver-operating areas‐under‐curves between rate groups were less than 0.8. ► Misidentifications between rate groups were at least 25%.
ISSN:0009-9120
1873-2933
DOI:10.1016/j.clinbiochem.2012.09.016