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REVIEW
Contents Vol 73(10)

Decontamination of Fentanyl and Fentanyl Analogues in Field and Laboratory Settings: A Review of Fentanyl Degradation

Mikaela M. Bazley A , Michael Logan B , Christina Baxter C , Avril A. B. Robertson https://orcid.org/0000-0002-9652-8357 A and Joanne T. Blanchfield https://orcid.org/0000-0003-1338-7446 A D
+ Author Affiliations
- Author Affiliations

A School of Chemistry and Molecular Biosciences, University of Queensland, St Lucia, Qld 4072, Australia.

B Research and Scientific Branch, Queensland Fire and Emergency Services, Cannon Hill, Qld 4170, Australia.

C Emergency Response TIPS, LLC, Melbourne Beach, Florida, USA.

D Corresponding author. Email: j.blanchfield@uq.edu.au




After Ms Mikaela Bazley completed her undergraduate degree (B.Sc.) and Honours in chemistry at The University of Queensland in 2015, she was employed by the Queensland Fire and Emergency Services Research and Scientific Branch as a graduate chemist working on the Emergency Response Decision Support Software (ERDSS) developed in conjunction with United States government agencies. Mikaela commenced her Ph.D. at the University of Queensland in 2018.


Dr Michael Logan leads the Research and Scientific Branch within the Queensland Fire and Emergency Services. He has a Ph.D. in physical chemistry from the University of New South Wales and has been awarded the Australian Fire Service Medal. He has responded to more than 1800 HAZMAT incidents across Queensland, Australia, and internationally. These have ranged from illicit laboratories, biological-related releases, radiological incidents, and chemical fires, spills, and explosions.


Dr Christina Baxter is the CEO of Emergency Response TIPS, LLC, which provides practical, evidence-based solutions for emergency response through education, product design, and technology transition. Prior to forming Emergency Response TIPS, LLC, Dr Baxter was the CBRNE Program Manager for the Department of Defense’s Combating Terrorism Technical Support Office. She holds a Ph.D. in analytical chemistry from the Georgia Institute of Technology and Bachelor of Science degrees in environmental science and chemistry from the University of Massachusetts at Amherst.


Avril A. B. Robertson is Professor and Director of Biotechnology Programs at The University of Queensland. Professor Robertson completed her Ph.D. in 2000 in bioorganic chemistry at the University of St Andrews. She spent 10 years in the UK biotechnology and drug discovery industry before moving to The University of Queensland as Head of Medicinal Chemistry in the Center for Drug Design and Discovery in 2011. In 2017, she progressed to full Professor and Director of Biotechnology and also sits on the Board of Directors of the National Professional Science Masters Association in the USA.



Professor Joanne Blanchfield completed a B.Sc. with Honours and a Ph.D. in organic chemistry at The University of Queensland. She then embarked on a research career at Johns Hopkins University, Baltimore, and the Australian National University, Canberra, before returning to The University of Queensland to take up an academic career. She leads a research group with interests in drug delivery, design, and development and natural products isolation and characterisation. She also teaches widely across all levels of tertiary education and is Chair of Teaching and Learning for the School of Chemistry and Molecular Biosciences.

Australian Journal of Chemistry 73(10) 868-879 https://doi.org/10.1071/CH19669
Submitted: 31 December 2019  Accepted: 24 February 2020   Published: 19 June 2020

Abstract

On account of their efficacy as µ-opioid receptor agonists, fentanyl and fentanyl analogues (‘fentanyls’) have fallen into favour within the illicit drug community. Consequently, there has been a significant public health crisis, unfolding across many countries, involving fentanyls and other synthetic opioids. Because of the potency of these opioids, even low-level contamination represents an immediate threat to the life and health of unprotected personnel and poses significant challenges to decontamination of sites where they are present. A dimension that exacerbates these challenges is the spillage of fentanyls in non-traditional settings such as residence, and clandestine manufacturing facilities. Hence, the decontamination of these sites and neutralisation of fentanyls where they are discovered is a key requirement in site remediation. There is currently much uncertainty around the limited operational procedures promoted for the decontamination of fentanyls in operational settings due to significant gaps in knowledge about fentanyl degradation. This review provides a comprehensive survey of the literature pertaining to the forced degradation of fentanyl and its analogues. By assessing the current state of the art regarding fentanyl degradation, including identifying knowledge gaps, the authors provide recommendations for future studies. These recommendations aim to address these gaps so that future guidance provided to first responders is based on sound scientific evidence about the chemical degradation of fentanyl and its analogues.


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