Assessing the Effect of Middle Ear Effusions on Wideband Acoustic Immittance Using Optical Coherence Tomography

Won, Jungeun; Monroy, Guillermo L.; Huang, Pin Chieh; Hill, Malcolm C.; Novák, Michael; Porter, Ryan G.; Spillman, Darold R.; Chaney, Eric J.; Barkalifa, Ronit; Boppart, Stephen A.

doi:10.1097/aud.0000000000000796

Cited by 25 publications

(24 citation statements)

References 61 publications

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“…The quantified TM thickness from OCT has been investigated to differentiate types of OM 29 , and the high speed and resolution of OCT can measure the displacement of the TM in pneumatic otoscopy 34 . OCT has been used to estimate viscosity of MEEs 35 and categorize relative fluid level and types of MEEs 24 . More recently, a machine learning platform has been developed for middle ear OCT images to classify middle ear conditions 36 .…”

Section: Discussionmentioning

confidence: 99%

“…In otolaryngology, several studies have demonstrated the capability of OCT in assessing the middle ear and the inner ear in human and animal models 6 , 19 – 22 . Furthermore, the presence of a biofilm as well as a MEE in the human middle ear can be non-invasively identified and assessed in vivo using OCT 10 , 23 , 24 . These studies have demonstrated great promise to improve current middle ear diagnostic technologies 25 .…”

Section: Introductionmentioning

confidence: 99%

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Longitudinal optical coherence tomography to visualize the in vivo response of middle ear biofilms to antibiotic therapy

Won

Hong

Khampang

et al. 2021

Sci Rep

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Studying the impact of antibiotic treatment on otitis media (OM), the leading cause of primary care office visits during childhood, is critical to develop appropriate treatment strategies. Tracking dynamic middle ear conditions during antibiotic treatment is not readily applicable in patients, due to the limited diagnostic techniques available to detect the smaller amount and variation of middle ear effusion (MEE) and middle ear bacterial biofilm, responsible for chronic and recurrent OM. To overcome these challenges, a handheld optical coherence tomography (OCT) system has been developed to monitor in vivo response of biofilms and MEEs in the OM-induced chinchilla model, the standard model for human OM. As a result, the formation of MEE as well as biofilm adherent to the tympanic membrane (TM) was longitudinally assessed as OM developed. Various types of MEEs and biofilms in the chinchilla model were identified, which showed comparable features as those in humans. Furthermore, the effect of antibiotics on the biofilm as well as the amount and type of MEEs was investigated with low-dose and high-dose treatment (ceftriaxone). The capability of OCT to non-invasively track and examine middle ear conditions is highly beneficial for therapeutic OM studies and will lead to improved management of OM in patients.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Longitudinal optical coherence tomography to visualize the in vivo response of middle ear biofilms to antibiotic therapy

Won

Hong

Khampang

et al. 2021

Sci Rep

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“…23 Otology OCT can be used to accurately diagnose otology conditions such as otitis media and conductive hearing loss. 24 Other otology conditions where OCT has been used in the literature include diagnosis of middle ear effusions, 25 visualizing middle ear exudate, 26 observing microstructures of the middle and inner ear through an extra tympanic approach, 27 visualization of intra-cochlear structures for future cochlear implant surgery, 28 and to study endolymphatic hydrops that develops due to noise trauma. 29…”

Section: Cardiologymentioning

confidence: 99%

Optical coherence tomography’s current clinical medical and dental applications: a review

Ali

Gilani

Shabbir³

et al. 2021

F1000Res

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Optical coherence tomography (OCT) is a non-invasive investigative technique that is used to obtain high-resolution three-dimensional (3D) images of biological structures. This method is useful in diagnosing diseases of specific organs like the eye, where a direct biopsy cannot be conducted. Since its inception, significant advancements have been made in its technology. Apart from its initial application in ophthalmology for retinal imaging, substantial technological innovations in OCT brought by the research community have enabled its utilization beyond its original scope and allowed its application in many new clinical areas. This review presents a summary of the clinical applications of OCT in the field of medicine (ophthalmology, cardiology, otology, and dermatology) and dentistry (tissue imaging, detection of caries, analysis of dental polymer composite restorations, imaging of root canals, and diagnosis of oral cancer). In addition, potential advantages and disadvantages of OCT are also discussed.

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“…The development of portable, handheld probe‐based OCT systems has enabled middle ear imaging in vivo [12, 13]. Recent studies and review papers have discussed the great potential of OCT in otology [14–16], such as for identifying bacterial biofilms in the middle ear [17, 18], characterizing different middle ear conditions [19, 20], mapping the entire TM thickness [21–23], and measuring TM displacement in hearing [24–26].…”

Section: Introductionmentioning

confidence: 99%

In vivo dynamic characterization of the human tympanic membrane using pneumatic optical coherence tomography

Won

Porter

Novák

et al. 2020

Journal of Biophotonics

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Decreased mobility of the human eardrum, the tympanic membrane (TM), is an essential indicator of a prevalent middle ear infection. The current diagnostic method to assess TM mobility is via pneumatic otoscopy, which provides subjective and qualitative information of subtle motion. In this study, a handheld spectral‐domain pneumatic optical coherence tomography system was developed to simultaneously measure the displacement of the TM, air pressure inputs applied to a sealed ear canal, and to perform digital pneumatic otoscopy. A novel approach based on quantitative parameters is presented to characterize spatial and temporal variations of the dynamic TM motion. Furthermore, the TM motions of normal middle ears are compared with those of ears with middle ear infections. The capability of noninvasively measuring the rapid motion of the TM is beneficial to understand the complex dynamics of the human TM, and can ultimately lead to improved diagnosis and management of middle ear infections.

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Assessing the Effect of Middle Ear Effusions on Wideband Acoustic Immittance Using Optical Coherence Tomography

Cited by 25 publications

References 61 publications

Longitudinal optical coherence tomography to visualize the in vivo response of middle ear biofilms to antibiotic therapy

Longitudinal optical coherence tomography to visualize the in vivo response of middle ear biofilms to antibiotic therapy

Optical coherence tomography’s current clinical medical and dental applications: a review

In vivo dynamic characterization of the human tympanic membrane using pneumatic optical coherence tomography

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