Abstract
Rapid resuscitation of an opioid overdose with naloxone, an opioid antagonist, is critical. We developed an opioid receptor quantitative systems pharmacology (QSP) model for evaluation of naloxone dosing. In this model we examined three opioid exposure levels that have been reported in the literature (25 ng/ml, 50 ng/ml, and 75 ng/ml of fentanyl). The model predicted naloxone-fentanyl interaction at the mu opioid receptor over a range of three naloxone doses. For a 2 mg intramuscular (IM) dose of naloxone at lower fentanyl exposure levels (25 ng/ml and 50 ng/ml), the time to decreasing mu receptor occupancy by fentanyl to 50% was 3 and 10 minutes, respectively. However, at a higher fentanyl exposure level (75 ng/ml), a dose of 2 mg IM of the naloxone failed to reduce mu receptor occupancy by fentanyl to 50%. In contrast, naloxone doses of 5 mg and 10 mg IM reduced mu receptor occupancy by fentanyl to 50% in 5.5 and 4 minutes respectively. These results suggest that the current doses of naloxone (2 mg IM or 4 mg intranasal (IN)) may be inadequate for rapid reversal of toxicity due to fentanyl exposure and that increasing the dose of naloxone is likely to improve outcomes.
Highlights
Data from the Centers for Disease Control (CDC) has identified a rise of almost 10% in deaths due to drug overdoses killing approximately 71,000 Americans in 2017 [1]
After administering a 2 mg IM of naloxone, mu receptor occupancy by fentanyl was predicted to decrease to 33% within ten minutes of naloxone being administered
The model predicted that giving a 5 mg IM dose of naloxone would decrease mu receptor occupancy by fentanyl to 17% and giving a 10 mg IM dose of naloxone would decrease of mu receptor occupancy by fentanyl to 9% within ten minutes
Summary
Data from the Centers for Disease Control (CDC) has identified a rise of almost 10% in deaths due to drug overdoses killing approximately 71,000 Americans in 2017 [1]. New provisional data from the CDC suggests a drop in overall deaths (68,000) due to drug overdose in 2018 [2]. The number of deaths due to illicitly manufactured synthetic opioids, such as fentanyl, continues to rise [2]. Fentanyl is known to cause respiratory depression within minutes of exposure [4, 5]. Rapid brain hypoxia and death can occur within minutes after fentanyl exposure [6]. The potency of fentanyl is thought to be due to rapid binding and high
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