Optimizing return and secure disposal of prescription opioids to reduce the diversion to secondary users and black market

• Published in: Socio-economic planning sciences Vol. 86; p. 101457
• Main Authors: Hasan, Md Mahmudul, Faiz, Tasnim Ibn, Modestino, Alicia Sasser, Young, Gary J., Noor-E-Alam, Md
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.04.2023
• ISSN: 0038-0121; 1873-6041
• DOI: 10.1016/j.seps.2022.101457

Opioid Use Disorder (OUD) has reached an epidemic level in the US. Diversion of unused prescription opioids to secondary users and black market significantly contributes to the abuse and misuse of these highly addictive drugs, leading to the increased risk of OUD and accidental opioid overdose within communities. Hence, it is critical to design effective strategies to reduce the non-medical use of opioids that can occur via diversion at the patient level. In this paper, we aim to address this critical public health problem by designing strategies for the return and safe disposal of unused prescription opioids. We propose a data-driven optimization framework to determine the optimal incentive disbursement plans and locations of easily accessible opioid disposal kiosks to motivate prescription opioid users of diverse profiles in returning their unused opioids. We develop a Mixed-Integer Non-Linear Programming (MINLP) model to solve the decision problem, followed by a reformulation scheme using Benders Decomposition that results in a computationally efficient solution. We present a case study to show the benefits and usability of the model using a dataset created from Massachusetts All Payer Claims Data (MA APCD). Our proposed model allows the policymakers to estimate and include a penalty cost considering the economic and healthcare burden associated with prescription opioid diversion. Our numerical experiments demonstrate the model's ability and usefulness in determining optimal locations of opioid disposal kiosks and incentive disbursement plans for maximizing the disposal of unused opioids. The proposed optimization framework offers various trade-off strategies that can help government agencies design pragmatic policies for reducing the diversion of unused prescription opioids. •Proposed a unique framework to reduce the diversion of prescription opioids.•Strategies include paying incentives to opioid users and locating disposal kiosks.•Developed a Mixed-Integer Non-Linear Programming (MINLP) model.•Solved the model in two stages using Benders Decomposition algorithm.•Model can help policymakers design pragmatic policies to reduce opioid diversion.