Dexamethasone-eluting cochlear implants reduce inflammation and foreign body response in human and murine cochleae

The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances. This study aims to investigate the long-term efficacy of dexamethasone-eluting cochlear implant and locally delivered dexamethasone, a potent...

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Published in	Scientific reports Vol. 15; no. 1; pp. 30615 - 16
Main Authors	Rahman, Muhammad Taifur, Mostaert, Brian J, Eckard, Peter, Fatima, Shakila Mahmuda, Scheperle, Rachel, Razu, Ibrahim, Hunger, Bryce, Olszewski, Rafal T., Gu, Shoujun, Garcia, Cristina L., Khan, Nashwaan Ali, Bennion, Douglas M, Oleson, Jacob, Kirk, Jonathon R., Enke, Ya Lang, Gay, Robert D., Morell, Robert J., Hirose, Keiko, Hoa, Michael, Claussen, Alexander D., Hansen, Marlan R.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 20.08.2025 Nature Publishing Group Nature Portfolio
Subjects	631/250/256 639/301/54/993 692/308/575 Acoustics Animal models Clinical medicine Cochlea Cochlear implants CX3CR1 protein Dexamethasone Electrical impedance Electrodes Energy consumption Foreign bodies Hearing loss Hearing protection Humanities and Social Sciences Impedance Inflammation Macrophages Middle ear multidisciplinary Science Science (multidisciplinary) Silicones Software Transplants & implants
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ISSN	2045-2322 2045-2322
DOI	10.1038/s41598-025-10739-y

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Abstract	The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances. This study aims to investigate the long-term efficacy of dexamethasone-eluting cochlear implant and locally delivered dexamethasone, a potent anti-inflammatory glucocorticoid, on the intracochlear FBR and electrical impedance post-implantation in a murine model. Preliminary impedance data in humans are also provided as a complement to the murine data to illustrate generalizability and reinforce implications related to clinical application. The left ears of CX3CR1 +/GFP Thy1 +/YFP (macrophage-neuron dual reporter) mice were implanted with dexamethasone-eluting cochlear implants (Dex-CI) or standard implant (Standard-CI) while the right ear served as unoperated control. Another group of dual reporter mice was implanted with a standard CI electrode array followed by injection of dexamethasone in the middle ear to mimic current clinical practice (Dex-local). Mouse implants were electrically stimulated with serial measurements of electrical impedance. Human subjects were implanted with either standard or Dex-CI followed by serial impedance measurements. Dex-CI reduced electrical impedance in the murine model and human subjects and inflammatory FBR in the murine model for an extended period. Dex-local in the murine model is ineffective for long-term reduction of FBR and electrode impedance. Our data suggests that dexamethasone-eluting arrays are more effective than the current clinical practice of locally applied dexamethasone in reducing FBR and electrical impedance.
AbstractList	The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances. This study aims to investigate the long-term efficacy of dexamethasone-eluting cochlear implant and locally delivered dexamethasone, a potent anti-inflammatory glucocorticoid, on the intracochlear FBR and electrical impedance post-implantation in a murine model. Preliminary impedance data in humans are also provided as a complement to the murine data to illustrate generalizability and reinforce implications related to clinical application. The left ears of CX3CR1 +/GFP Thy1 +/YFP (macrophage-neuron dual reporter) mice were implanted with dexamethasone-eluting cochlear implants (Dex-CI) or standard implant (Standard-CI) while the right ear served as unoperated control. Another group of dual reporter mice was implanted with a standard CI electrode array followed by injection of dexamethasone in the middle ear to mimic current clinical practice (Dex-local). Mouse implants were electrically stimulated with serial measurements of electrical impedance. Human subjects were implanted with either standard or Dex-CI followed by serial impedance measurements. Dex-CI reduced electrical impedance in the murine model and human subjects and inflammatory FBR in the murine model for an extended period. Dex-local in the murine model is ineffective for long-term reduction of FBR and electrode impedance. Our data suggests that dexamethasone-eluting arrays are more effective than the current clinical practice of locally applied dexamethasone in reducing FBR and electrical impedance. Abstract The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances. This study aims to investigate the long-term efficacy of dexamethasone-eluting cochlear implant and locally delivered dexamethasone, a potent anti-inflammatory glucocorticoid, on the intracochlear FBR and electrical impedance post-implantation in a murine model. Preliminary impedance data in humans are also provided as a complement to the murine data to illustrate generalizability and reinforce implications related to clinical application. The left ears of CX3CR1+/GFP Thy1+/YFP (macrophage-neuron dual reporter) mice were implanted with dexamethasone-eluting cochlear implants (Dex-CI) or standard implant (Standard-CI) while the right ear served as unoperated control. Another group of dual reporter mice was implanted with a standard CI electrode array followed by injection of dexamethasone in the middle ear to mimic current clinical practice (Dex-local). Mouse implants were electrically stimulated with serial measurements of electrical impedance. Human subjects were implanted with either standard or Dex-CI followed by serial impedance measurements. Dex-CI reduced electrical impedance in the murine model and human subjects and inflammatory FBR in the murine model for an extended period. Dex-local in the murine model is ineffective for long-term reduction of FBR and electrode impedance. Our data suggests that dexamethasone-eluting arrays are more effective than the current clinical practice of locally applied dexamethasone in reducing FBR and electrical impedance. The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances. This study aims to investigate the long-term efficacy of dexamethasone-eluting cochlear implant and locally delivered dexamethasone, a potent anti-inflammatory glucocorticoid, on the intracochlear FBR and electrical impedance post-implantation in a murine model. Preliminary impedance data in humans are also provided as a complement to the murine data to illustrate generalizability and reinforce implications related to clinical application. The left ears of CX3CR1+/GFP Thy1+/YFP (macrophage-neuron dual reporter) mice were implanted with dexamethasone-eluting cochlear implants (Dex-CI) or standard implant (Standard-CI) while the right ear served as unoperated control. Another group of dual reporter mice was implanted with a standard CI electrode array followed by injection of dexamethasone in the middle ear to mimic current clinical practice (Dex-local). Mouse implants were electrically stimulated with serial measurements of electrical impedance. Human subjects were implanted with either standard or Dex-CI followed by serial impedance measurements. Dex-CI reduced electrical impedance in the murine model and human subjects and inflammatory FBR in the murine model for an extended period. Dex-local in the murine model is ineffective for long-term reduction of FBR and electrode impedance. Our data suggests that dexamethasone-eluting arrays are more effective than the current clinical practice of locally applied dexamethasone in reducing FBR and electrical impedance.
ArticleNumber	30615
Author	Hunger, Bryce Olszewski, Rafal T. Kirk, Jonathon R. Bennion, Douglas M Mostaert, Brian J Scheperle, Rachel Gu, Shoujun Khan, Nashwaan Ali Morell, Robert J. Claussen, Alexander D. Rahman, Muhammad Taifur Razu, Ibrahim Eckard, Peter Garcia, Cristina L. Hoa, Michael Oleson, Jacob Gay, Robert D. Hirose, Keiko Enke, Ya Lang Hansen, Marlan R. Fatima, Shakila Mahmuda
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Snippet	The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode impedances.... Abstract The inflammatory foreign body response (FBR) following cochlear implantation (CI) can negatively impact CI outcomes, including increased electrode...
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SubjectTerms	631/250/256 639/301/54/993 692/308/575 Acoustics Animal models Clinical medicine Cochlea Cochlear implants CX3CR1 protein Dexamethasone Electrical impedance Electrodes Energy consumption Foreign bodies Hearing loss Hearing protection Humanities and Social Sciences Impedance Inflammation Macrophages Middle ear multidisciplinary Science Science (multidisciplinary) Silicones Software Transplants & implants
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Title	Dexamethasone-eluting cochlear implants reduce inflammation and foreign body response in human and murine cochleae
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