Pirfenidone Reduces Intracochlear Fibrosis Caused by Cochlear Implantation in a Guinea Pig Model

Kady J. Braack; Kelly L. Short; Jorjina Plester; Tylah Miles; Lee Yong Lim; Marcus D. Atlas; Jafri Kuthubutheen; Wilhelmina H. A. M. Mulders; Cecilia M. Prêle

doi:10.3390/ijms27073242

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Pirfenidone Reduces Intracochlear Fibrosis Caused by Cochlear Implantation in a Guinea Pig Model

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Pirfenidone Reduces Intracochlear Fibrosis Caused by Cochlear Implantation in a Guinea Pig Model

Kady J. Braack, Kelly L. Short, Jorjina Plester, Tylah Miles, Lee Yong Lim, Marcus D. Atlas, Jafri Kuthubutheen, Wilhelmina H. A. M. Mulders and Cecilia M. Prêle

International journal of molecular sciences, Vol.27(7), 3242

2026

DOI: https://doi.org/10.3390/ijms27073242

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Abstract

cochlear implantation

fibrosis

pirfenidone

inner ear

fibrocytes

While cochlear implants allow restoration of sound perception in individuals with severe to profound hearing loss, there remains significant variability in patient outcomes. A potential factor that may account for this unexplained variability is the formation of fibrosis within the cochlea after implantation. This study investigated the therapeutic potential of pirfenidone (PFD) in preventing cochlear implant-induced fibrosis and compared outcomes with dexamethasone (DEX) treated animals. The utility of PFD was determined in cultures of fibrocytes isolated from the inner ear of guinea pigs. Specifically, PFD-treatment significantly reduced p38 MAPK signalling, fibrocyte cell proliferation, migration and collagen III deposition in response to pro-fibrotic stimuli. In a guinea pig model, local hydrogel-mediated delivery of PFD to the round window at the time of implant surgery significantly reduced the amount of tissue reaction measured by micro-computed tomography at two months post-implantation (p = 0.0297). Specifically, a 40% decrease in implant-induced tissue reaction was observed in PFD-treated animals compared to vehicle-treated controls. Notably, no evidence of ototoxicity was observed following PFD-treatment. In contrast, a 36% decrease in the amount of tissue reaction was measured in the DEX-treated control group (p = 0.0436). Overall, these data demonstrate that PFD shows significant therapeutic potential in reducing cochlear implant-induced fibrosis.

Details

Title: Pirfenidone Reduces Intracochlear Fibrosis Caused by Cochlear Implantation in a Guinea Pig Model
Authors/Creators: Kady J. Braack - The University of Western Australia
Kelly L. Short - Murdoch University
Jorjina Plester - Institute for Respiratory Health
Tylah Miles - Institute for Respiratory Health
Lee Yong Lim - The University of Western Australia
Marcus D. Atlas - The University of Western Australia
Jafri Kuthubutheen - The University of Western Australia
Wilhelmina H. A. M. Mulders - The University of Western Australia
Cecilia M. Prêle - Murdoch University
Publication Details: International journal of molecular sciences, Vol.27(7), 3242
Publisher: MDPI
Number of pages: 23
Identifiers: 991005875724007891
Murdoch Affiliation: School of Medical, Molecular and Forensic Sciences
Language: English
Resource Type: Journal article

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