AUTHOR=Pasdelou Marie-Pierre , Byelyayeva Lise , Malmström Susanna , Pucheu Sylvie , Peytavy Marie , Laullier Hugo , Hodges Donald B. , Tzafriri Abraham R. , Naert Gaëlle 

TITLE=Ototoxicity: a high risk to auditory function that needs to be monitored in drug development

JOURNAL=Frontiers in Molecular Neuroscience

VOLUME=Volume 17 - 2024

YEAR=2024

URL=https://www.frontiersin.org/journals/molecular-neuroscience/articles/10.3389/fnmol.2024.1379743

DOI=10.3389/fnmol.2024.1379743

ISSN=1662-5099

ABSTRACT=Hearing loss constitutes a major global health concern impacting approximately 1.5 billion people worldwide. Ototoxicity resulting in inner ear damage is a leading cause of acquired hearing loss worldwide. This could be minimized or avoided by early testing of hearing functions in the preclinical phase of drug development. Ototoxicity testing is not required for all other therapeutic areas. This has resulted in more than 200 ototoxic marketed medications. The aim of this publication is to raise awareness of drug-induced ototoxicity and to formulate some recommendations based on available guidelines and own experience. Screening options are available: in vitro (otic cell assays), ex vivo (cochlear explant), and in vivo (in zebrafish). Screening assays provide a streamlined and rapid method to know whether a drug is generally safe for inner ear structures. Mammalian animal models provide a more detailed characterization of drug ototoxicity, with a possibility to localize and quantify the damage using functional, behavioral, and morphological read-outs. Complementary histological measures are routinely conducted notably to quantify hair cells loss with cochleogram. Ototoxicity studies can be performed in rodents (mice, rats), guinea pigs and large species. In life read-outs include Auditory Brainstem Response (ABR) and Distortion Product OtoAcoustic Emissions (DPOAE) measurements that assess the activity and integrity of sensory cells and the auditory nerve, reflecting sensorineural hearing loss. The cochleogram aims to quantify hair cells all along the cochlea and consequently determine hair cell loss related to specific frequencies. This measure is then correlated with the ABR & DPOAE results. Ototoxicity assessments evaluate the impact of drug candidates on the auditory and vestibular systems, de-risk hearing loss and balance disorders, define a safe dose, and optimize therapeutic benefits. These types of studies can be initiated during early development of a therapeutic solution, with ABR and otoscopic evaluations. Depending on the mechanism of action of the compound, studies can include DPOAE and cochleogram. Later in the development, a GLP (Good Laboratory Practice) ototoxicity study may be required based on otic related route of administration, target, or known potential otic toxicity..