Department of Emergency Medicine, Division of Medical Toxicology
Biomedical Devices and Instrumentation | Health Information Technology | Investigative Techniques | Medical Toxicology | Substance Abuse and Addiction | Translational Medical Research
Opioid abuse is a rapidly escalating problem in the United States. Effective opioid reversal is achieved with the antidote naloxone, but often does not last as long as the offending opioid, necessitating in-hospital observation. Continuous physiologic monitoring using wearable biosensors represents a potential option to extend monitoring capability outside the clinical setting across the spectrum of opioid abuse including post- naloxone administration. The present study aims to identify the physiologic change that marks the cessation of naloxone's effect. Eleven participants were recruited in the Emergency Department after naloxone administration for an opioid overdose and continuously monitored using a wearable biosensor measuring heart rate, temperature, electrodermal activity and accelerometry. Hilbert transform was used to evaluate a 90- minute post naloxone time point. Physiologic changes were consistent with the onset of opioid drug effect across parameters, but only changes in heart rate and skin temperature research statistical significance.
UMCCTS funding, wearables, biosensors, opioids
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Attribution-NonCommercial-NoDerivatives 4.0 International
Proc Annu Hawaii Int Conf Syst Sci. 2018 Jan;2018:3247-3252. Epub 2018 Jan 3. http://hdl.handle.net/10125/50298
Proceedings of the ... Annual Hawaii International Conference on System Sciences. Annual Hawaii International Conference on System Sciences
Chintha KK, Indic P, Chapman B, Boyer EW, Carreiro S. (2018). Wearable Biosensors to Evaluate Recurrent Opioid Toxicity After Naloxone Administration: A Hilbert Transform Approach. UMass Center for Clinical and Translational Science Supported Publications. Retrieved from https://escholarship.umassmed.edu/umccts_pubs/130
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This work is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 4.0 License.
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