Photodynamic therapy‐induced precise attenuation of light‐targeted semicircular canals for treating intractable vertigo

Vertigo is a common symptom of various diseases that affects a large number of people worldwide. Current leading treatments for intractable peripheral vertigo are to intratympanically inject ototoxic drugs such as gentamicin to attenuate the semicircular canal function but inevitably cause hearing i...

Full description

Saved in:
Bibliographic Details
Published in:Smart medicine 2024-10
Main Authors: Yang, Yingkun, Zhao, Tong, Mi, Feixue, Li, Hongzhe, Huang, Pingbo, Chen, Fangyi
Format: Article
Language:English
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Vertigo is a common symptom of various diseases that affects a large number of people worldwide. Current leading treatments for intractable peripheral vertigo are to intratympanically inject ototoxic drugs such as gentamicin to attenuate the semicircular canal function but inevitably cause hearing injury. Photodynamic therapy (PDT) is a noninvasive therapeutic approach by precisely targeting the diseased tissue. Here, we developed a PDT‐based method for treating intractable peripheral vertigo in a mouse model using a polymer‐coated photosensitizer chlorin e6 excited by red light. We found that a high dose of PDT attenuated the function of both semicircular canals and otolith organs and damaged their hair cells. Conversely, the PDT exerted no effect on hearing function or cochlear hair‐cell viability. These results suggest the therapeutic potential of PDT for treating intractable peripheral vertigo without hurting hearing. Besides, the attenuation level and affected area can be precisely controlled by adjusting the light exposure time. Furthermore, we demonstrated the potential of this therapeutic approach to be minimally invasive with light irradiation through bone results. Thus, our PDT‐based approach for attenuating the function of the semicircular canals offers a basis for developing a less‐invasive and targeted therapeutic option for treating vertigo. Developed a novel method based on photodynamic therapy (PDT) to precisely injure the vestibular hair cells for treating severe vertigo without hurting cochlear hair cells. Applied both vestibulo‐ocular reflex (VOR) and off‐vertical‐axis‐rotation (OVAR) tests to precisely localize and quantify the injury in mice. Investigated the minimal‐invasive surgical approach for applying PDT.
ISSN:2751-1871
2751-1871
DOI:10.1002/SMMD.20230044