Abstract
Abstract Background Hydroxychloroquine (HCQ), a mainstay of systemic lupus erythematosus (SLE) therapy, improves survival and reduces flares. Therapeutic drug monitoring (TDM) may be useful in 1) identifying and improving adherence issues, 2) titrating daily dose to achieve therapeutic benefits while 3) minimizing retinopathy due to longterm cumulative exposure. Whole blood (WB) is the correct specimen for HCQ TDM because WB HCQ levels are higher than serum or plasma levels, more stable and reflective of the last month of HCQ ingestion, and are better correlated to efficacy and retinopathy risk. Here, we report WB HCQ concentrations in 10,463 clinical patient samples and their distribution. Methods HCQ concentrations in whole blood are measured by liquid chromatography tandem mass spectrometry (LC-MS/MS) and reported in nanograms per milliliters whole blood. Recommended sample collection is ∼ 3 - 6 months into regular stable dosing to reach pharmacokinetic steady state and correlate with clinical efficacy. Results Here, we report the analysis of 10,463 patient samples for whole blood hydroxychloroquine (WB HCQ) concentrations. More than one-third (3752, 35.9%) were within the target range of > 1000 and < 2000 ng/mL. About one-quarter (2568, 24.5%) were within a tighter therapeutic target window, 1000 to 1500 ng/mL. The vast majority (9852, 94.2%,) of all WB HCQ were < 2000 ng/mL with a small percentage >2000 ng/mL (611, 5.8% between 2000 - 9502 ng/mL). About one-third (31.3%) were higher than 1177 ng/mL which corresponds to higher retinopathy risk. Adherence issues were evident in 10.5% (1102) with undetectable (483, 4.6%) and very low (<200 ng/mL) drug (619, 5.9%) (yellow). Depending upon the target threshold, levels < 500 ng/mL or <1000 ng/mL may be considered subtherapeutic as seen in 2498 (23.9%) and 4263 (40.7%) samples, respectively. Conclusions Due to wide pharmacokinetic variability and adherence issues, a given prescribed dose of HCQ does not correspond to WB HCQ, e.g. following 4, 5 or 6 mg/kg/day, levels are known to vary widely from subtherapeutic <500 to >2000 ng/mL. Here, our clinical database reiterates this wide range in WB HCQ levels from undetectable (<25) to 9502 ng/mL in 10,463 patient samples. One-quarter or one-third were within the therapeutic target range of 1000-1500 or 1000-200 ng/mL where >1000 has been associated with better disease control and survival. At the same time, levels less than 1177 avoid higher retinopathy risk. A small percentage of samples, 5.8%, were higher than 2000 ng/mL, suggesting the usefulness in TDM to fine-tune daily dose. In 10%, there was evidence of poor adherence, with very low or no detectable drug, and one quarter to 40% were subtherapeutic (<500 or <1000). The potential benefits of HCQ are many and include reduced flares and improved lupus nephritis, thrombosis risk, and long-term survival. At the same time, prescribed dose does not predict therapeutic levels. TDM-based counseling and dose adjustment may be instrumental in optimizing HCQ benefits while minimizing retinopathy risk. In conclusion, our analysis demonstrates the growing use of whole blood HCQ TDM to facilitate dose titration to safe and most effective target levels.
Published Version
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