Abstract
Recently, it has been hypothesized that blood prestin concentration levels may reflect cochlear damage and thus serve as an easily measurable, early sensorineural hearing loss (HL) biomarker. This is a scoping review aiming to identify and critically appraise current evidence on prestin blood levels and their temporal variation in rodents and humans with normal hearing and with sensorineural HL. This study was designed and held according to PRISMA Extension for Scoping Reviews (PRISMA-ScR) guidelines. With no limitation with regards to study type, animal and human studies focusing on prestin blood levels in normal hearing and in sensorineural HL were sought in major databases such as Medline, Central Scopus, PROSPERO, and Clinicaltrials.gov. Results were then hand-searched. A data charting form was developed including the parameters of interest. Seven studies focusing on measuring prestin blood levels by means of ELISA in rodents and human subjects with normal hearing and noise-induced, drug-induced, or idiopathic sudden HL were found eligible and were included in the analysis. According to these proof-of-concept studies, prestin can be detected in the circulation of subjects with no HL; however, normal ranges remain unclear. After cochlear damage, blood prestin levels seem to initially rise and then return to near or below baseline. The degree of their change relates with subjects' degree of HL, damaged cochlear region and recovery. Prestin blood levels and their temporal variation seem to correlate with cochlear damage; however, methodological weaknesses, such as small sample size, lack of detailed phenotyping, insufficient exclusion of confounding factors, and short follow-up, do not allow for robust conclusions. Current findings support the value of studying blood prestin levels in normal hearing and HL and highlight a need for larger-scale longitudinal research.
Highlights
Biomarkers, or biological markers, are defined as patients’ characteristics that can be measured objectively, accurately and reproducibly (“Biomarkers and Surrogate Endpoints,” 2001)
In the case of sensorineural hearing (SNHL), which accounts for the majority of hearing loss (HL) cases, they could identify early hearing impairment, potentially before it becomes measurable by standard audiometric procedures
Since the pathogenesis of many SNHL types occurs in a specific cell type in the inner ear, the outer hair cells (OHCs), these cells are suggested as a good target of future research and precision medicine (Eggermont, 2017, 2019; Kujawa & Liberman, 2015; Matsuoka et al, 2019)
Summary
Biomarkers, or biological markers, are defined as patients’ characteristics that can be measured objectively, accurately and reproducibly (“Biomarkers and Surrogate Endpoints,” 2001). Since the pathogenesis of many SNHL types occurs in a specific cell type in the inner ear, the outer hair cells (OHCs), these cells are suggested as a good target of future research and precision medicine (Eggermont, 2017, 2019; Kujawa & Liberman, 2015; Matsuoka et al, 2019) This type of cell is a main and early target of aging, various ototoxic substances and overexposure to noise or acoustic trauma (Kujawa & Liberman, 2015; Ryan et al, 2016). Discovery of an OHC-specific biomarker and the assessment of the conditions under which it could help in the diagnosis and management of SNHL is of great priority
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