Background

The inner ear has long been considered an immune-privileged organ. However, accumulating evidence demonstrates that the healthy mammalian inner ear contains a resident population of immune cells, including macrophages, lymphocytes, leukocytes, and mast cells, distributed across cochlear and vestibular structures. A recent scoping review systematically summarized more than four decades of experimental and human data, revealing the consistent presence of immune cells in the stria vascularis, spiral ligament, spiral ganglion, organ of Corti, and endolymphatic sac under steady-state conditions.

Despite this growing body of evidence, the physiological roles of these resident immune cells remain poorly understood, and their contributions to inner-ear homeostasis and pathology are underrepresented in clinical education. This knowledge gap limits progress in understanding inflammatory, autoimmune, and degenerative auditory disorders.

Course Description

This instructional course will provide a structured introduction to inner ear immunology under physiological conditions, based on a comprehensive synthesis of animal and human data. Participants will learn which immune cell types reside in the inner ear, how they are identified, and where they are localized across species.

The course will cover:

•            The historical concept of immune privilege versus current evidence of immune residency

•            Immune cell types present in the mammalian inner ear and their anatomical distribution

•            Differences and similarities between rodent and human inner ear immune landscapes

•            Methodological approaches used to study immune cells in cochlear tissue

•            Emerging hypotheses on immune-mediated homeostasis, repair, and pathology

Clinical correlations will include autoimmune inner ear disease, noise-induced hearing loss, cochlear implantation, and age-related auditory decline. Emphasis will be placed on integrating immunological concepts into otologic thinking rather than on immunotherapy per se.

Learning Objectives / Outcomes

After completing this course, participants will be able to:

1.           Describe the types of immune cells residing in the mammalian inner ear under steady-state conditions.

2.           Identify key cochlear and vestibular structures involved in inner ear immune surveillance.

3.           Understand experimental and histological methods used to study immune cells in the inner ear.

4.           Recognize the potential roles of resident immune cells in auditory homeostasis and disease.

5.           Integrate inner ear immunology into clinical reasoning for inflammatory and immune-mediated auditory disorders.