An autonomous implantable device for the prevention of death from opioid overdose

Joanna L. Ciatti; Abraham Vázquez-Guardado; Victoria E. Brings; Jihun Park; Brian Ruyle; Rebecca A. Ober; Alicia J. McLuckie; Michael R. Talcott; Emily A. Carter; Amy R. Burrell; Rebecca A. Sponenburg; Jacob Trueb; Prashant Gupta; Joohee Kim; Raudel Avila; Minho Seong; Richard A. Slivicki; Melanie A. Kaplan; Bryan Villalpando-Hernandez; Nicolas Massaly; Michael C. Montana; Mitchell Pet; Yonggang Huang; Jose A. Morón; Robert W. Gereau; John A. Rogers

doi:10.1126/sciadv.adr3567

An autonomous implantable device for the prevention of death from opioid overdose

Joanna L. Ciatti, Abraham Vázquez-Guardado, Victoria E. Brings, Jihun Park, Brian Ruyle, Rebecca A. Ober, Alicia J. McLuckie, Michael R. Talcott, Emily A. Carter, Amy R. Burrell, Rebecca A. Sponenburg, Jacob Trueb, Prashant Gupta, Joohee Kim, Raudel Avila, Minho Seong, Richard A. Slivicki, Melanie A. Kaplan, Bryan Villalpando-Hernandez, Nicolas MassalyMichael C. Montana, Mitchell Pet, Yonggang Huang, Jose A. Morón, Robert W. Gereau, John A. Rogers

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Opioid overdose accounts for nearly 75,000 deaths per year in the United States, now a leading cause of mortality among young people aged 18 to 45 years. At overdose levels, opioid-induced respiratory depression becomes fatal without the administration of naloxone within minutes. Currently, overdose survival relies on bystander intervention, requiring a nearby person to find the overdosed individual and have immediate access to naloxone to administer. To circumvent the bystander requirement, we developed the Naloximeter: a class of life-saving implantable devices that autonomously detect and treat overdose while simultaneously contacting first responders. We present three Naloximeter platforms, for fundamental research and clinical translation, all equipped with optical sensors, drug delivery mechanisms, and a supporting ecosystem of technology to counteract opioid-induced respiratory depression. In small and large animal studies, the Naloximeter rescues from otherwise fatal opioid overdose within minutes. This work introduces life-changing, clinically translatable technologies that can broadly benefit a susceptible population recovering from opioid use disorder.

Original language	English
Article number	eadr3567
Journal	Science Advances
Volume	10
Issue number	43
DOIs	https://doi.org/10.1126/sciadv.adr3567
State	Published - Oct 25 2024

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Ciatti, J. L., Vázquez-Guardado, A., Brings, V. E., Park, J., Ruyle, B., Ober, R. A., McLuckie, A. J., Talcott, M. R., Carter, E. A., Burrell, A. R., Sponenburg, R. A., Trueb, J., Gupta, P., Kim, J., Avila, R., Seong, M., Slivicki, R. A., Kaplan, M. A., Villalpando-Hernandez, B., ... Rogers, J. A. (2024). An autonomous implantable device for the prevention of death from opioid overdose. Science Advances, 10(43), Article eadr3567. https://doi.org/10.1126/sciadv.adr3567

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title = "An autonomous implantable device for the prevention of death from opioid overdose",

abstract = "Opioid overdose accounts for nearly 75,000 deaths per year in the United States, now a leading cause of mortality among young people aged 18 to 45 years. At overdose levels, opioid-induced respiratory depression becomes fatal without the administration of naloxone within minutes. Currently, overdose survival relies on bystander intervention, requiring a nearby person to find the overdosed individual and have immediate access to naloxone to administer. To circumvent the bystander requirement, we developed the Naloximeter: a class of life-saving implantable devices that autonomously detect and treat overdose while simultaneously contacting first responders. We present three Naloximeter platforms, for fundamental research and clinical translation, all equipped with optical sensors, drug delivery mechanisms, and a supporting ecosystem of technology to counteract opioid-induced respiratory depression. In small and large animal studies, the Naloximeter rescues from otherwise fatal opioid overdose within minutes. This work introduces life-changing, clinically translatable technologies that can broadly benefit a susceptible population recovering from opioid use disorder.",

author = "Ciatti, {Joanna L.} and Abraham V{\'a}zquez-Guardado and Brings, {Victoria E.} and Jihun Park and Brian Ruyle and Ober, {Rebecca A.} and McLuckie, {Alicia J.} and Talcott, {Michael R.} and Carter, {Emily A.} and Burrell, {Amy R.} and Sponenburg, {Rebecca A.} and Jacob Trueb and Prashant Gupta and Joohee Kim and Raudel Avila and Minho Seong and Slivicki, {Richard A.} and Kaplan, {Melanie A.} and Bryan Villalpando-Hernandez and Nicolas Massaly and Montana, {Michael C.} and Mitchell Pet and Yonggang Huang and Mor{\'o}n, {Jose A.} and Gereau, {Robert W.} and Rogers, {John A.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 The Authors, some rights reserved;",

year = "2024",

month = oct,

day = "25",

doi = "10.1126/sciadv.adr3567",

language = "English",

volume = "10",

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Ciatti, JL, Vázquez-Guardado, A, Brings, VE, Park, J, Ruyle, B, Ober, RA, McLuckie, AJ, Talcott, MR, Carter, EA, Burrell, AR, Sponenburg, RA, Trueb, J, Gupta, P, Kim, J, Avila, R, Seong, M, Slivicki, RA, Kaplan, MA, Villalpando-Hernandez, B, Massaly, N, Montana, MC, Pet, M, Huang, Y, Morón, JA , Gereau, RW & Rogers, JA 2024, 'An autonomous implantable device for the prevention of death from opioid overdose', Science Advances, vol. 10, no. 43, eadr3567. https://doi.org/10.1126/sciadv.adr3567

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AU - Ciatti, Joanna L.

AU - Vázquez-Guardado, Abraham

AU - Brings, Victoria E.

AU - Park, Jihun

AU - Ruyle, Brian

AU - Ober, Rebecca A.

AU - McLuckie, Alicia J.

AU - Talcott, Michael R.

AU - Carter, Emily A.

AU - Burrell, Amy R.

AU - Sponenburg, Rebecca A.

AU - Trueb, Jacob

AU - Gupta, Prashant

AU - Kim, Joohee

AU - Avila, Raudel

AU - Seong, Minho

AU - Slivicki, Richard A.

AU - Kaplan, Melanie A.

AU - Villalpando-Hernandez, Bryan

AU - Massaly, Nicolas

AU - Montana, Michael C.

AU - Pet, Mitchell

AU - Huang, Yonggang

AU - Morón, Jose A.

AU - Gereau, Robert W.

AU - Rogers, John A.

PY - 2024/10/25

Y1 - 2024/10/25

N2 - Opioid overdose accounts for nearly 75,000 deaths per year in the United States, now a leading cause of mortality among young people aged 18 to 45 years. At overdose levels, opioid-induced respiratory depression becomes fatal without the administration of naloxone within minutes. Currently, overdose survival relies on bystander intervention, requiring a nearby person to find the overdosed individual and have immediate access to naloxone to administer. To circumvent the bystander requirement, we developed the Naloximeter: a class of life-saving implantable devices that autonomously detect and treat overdose while simultaneously contacting first responders. We present three Naloximeter platforms, for fundamental research and clinical translation, all equipped with optical sensors, drug delivery mechanisms, and a supporting ecosystem of technology to counteract opioid-induced respiratory depression. In small and large animal studies, the Naloximeter rescues from otherwise fatal opioid overdose within minutes. This work introduces life-changing, clinically translatable technologies that can broadly benefit a susceptible population recovering from opioid use disorder.

AB - Opioid overdose accounts for nearly 75,000 deaths per year in the United States, now a leading cause of mortality among young people aged 18 to 45 years. At overdose levels, opioid-induced respiratory depression becomes fatal without the administration of naloxone within minutes. Currently, overdose survival relies on bystander intervention, requiring a nearby person to find the overdosed individual and have immediate access to naloxone to administer. To circumvent the bystander requirement, we developed the Naloximeter: a class of life-saving implantable devices that autonomously detect and treat overdose while simultaneously contacting first responders. We present three Naloximeter platforms, for fundamental research and clinical translation, all equipped with optical sensors, drug delivery mechanisms, and a supporting ecosystem of technology to counteract opioid-induced respiratory depression. In small and large animal studies, the Naloximeter rescues from otherwise fatal opioid overdose within minutes. This work introduces life-changing, clinically translatable technologies that can broadly benefit a susceptible population recovering from opioid use disorder.

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DO - 10.1126/sciadv.adr3567

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AN - SCOPUS:85207699413

SN - 2375-2548

VL - 10

JO - Science Advances

JF - Science Advances

IS - 43

M1 - eadr3567

ER -

An autonomous implantable device for the prevention of death from opioid overdose

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