Determinants of Conductive Hearing Loss in Tympanic Membrane Perforation
Hanaro Park, Seung No Hong, Hyo Sang Kim, Jae Joon Han, Juyong Chung, Myung-Whan Seo, Seung-Ha Oh, Sun-O Chang, Jun Ho Lee
Clin Exp Otorhinolaryngol. 2015;8(2):92-96. Published online 2015 May 13 DOI: https://doi.org/10.3342/ceo.2015.8.2.92
Citations to this article as recorded by 
The effect of OSA on the negative pressure and acoustic compliance of middle ear cavity in children
QingQing Zhang, Yin Qiang, Meng Xie, XiaoHong Liu, RuiXin Guo, Yao Shi, SiJing Ma, Long Cheng, HaiQin Liu, HuaNan Luo
International Journal of Pediatric Otorhinolaryngology.2023; 165: 111457. CrossRef
Detection of auditory brainstem response peaks using image processing techniques in infants with normal hearing sensitivity
Amir Majidpour, Samer Kais Jameel, Jafar Majidpour, Houra Bagheri, Tarik A. Rashid, Ahmadreza Nazeri, Mahshid Moheb Aleaba
Biomedical Signal Processing and Control.2023; 86: 105117. CrossRef
The Complexity of Hearing Aid Fitting: Children with Congenital Hearing Loss and Middle Ear Dysfunction
Ronit Priner, Devora Brand
Children.2023; 10(10): 1630. CrossRef
The Relationship Between Temporal Bone Pneumatization Pattern and Sinus Mucosal Thickness Grading on Computed Tomography Scans of Paranasal Sinuses
Farnoosh Khaksari, Zahra Dalili Kajan, Mir Mohammad Jalali, Negar Khosravifard
Indian Journal of Otolaryngology and Head & Neck Surgery.2022; 74(S2): 1532. CrossRef
To patch or not to patch acute isolated traumatic tympanic membrane perforations: a case series and systematic literature review
Irit Duek, Yahav Oron, Ophir Handzel, Rani Abu Eta, Nidal Muhanna, Anton Warshavsky, Gilad Horowitz, Omer J. Ungar
European Archives of Oto-Rhino-Laryngology.2022; 279(9): 4313. CrossRef
Tympanic membrane perforations: the importance of etiology, size and location
L. Castelhano, F. Correia, T. Colaço, L. Reis, P. Escada
European Archives of Oto-Rhino-Laryngology.2022; 279(9): 4325. CrossRef
The Development and Evaluation of a Smartphone-Aided Diagnosis Application to Measure Tympanic Membrane Perforations
Lok-Yee Joyce Li, Shin-Yi Wang, Jinn-Moon Yang, Chih-Jou Chen, Cheng-Yu Tsai, Lucas Yee-Yan Wu, Te-Fang Wu, Cheng-Jung Wu
Ear, Nose & Throat Journal.2022; : 014556132211233. CrossRef
Hearing loss increases with size but not site of tympanic membrane perforation in Aboriginal Australian children in remote locations
Jack Morris, Zoe Lee, Linnett Sanchez, Andrew Simon Carney
Laryngoscope Investigative Otolaryngology.2022; 7(6): 2050. CrossRef
A Study of Correlation Between Tympanic Membrane Perforation Size With Hearing Loss in Patients With Inactive Mucosal Chronic Otitis Media
Kartik Kolluru, Sunil Kumar, Prabhakar Upadhyay
Otology & Neurotology.2021; 42(1): e40. CrossRef
Effects of tympanic membrane perforation, middle ear cavity volume, and mastoid aeration on hearing impairment
Dong-Kee Kim, Hosung Choi, Hoseok Lee, Se Hwan Hwang, Jun Myung Kang, Jae-Hyun Seo
American Journal of Otolaryngology.2021; 42(3): 102901. CrossRef
Effects of location, size and shape of tympanic membrane perforations on hearing: analysis of 400 cases
M K Balcı, A İşlek, Y B Bakiş, H K Önal
The Journal of Laryngology & Otology.2021; 135(11): 993. CrossRef
Correlation between hearing loss and middle ear volume in patients with a tympanic membrane perforation
Garrett Casale, Ellen Shaffrey, Bradley W. Kesser
The Laryngoscope.2020;[Epub] CrossRef
Postoperative change in wideband absorbance after tympanoplasty in chronic suppurative otitis media
Hyun woo Park, Jungmin Ahn, Min woong Kang, Yang-Sun Cho
Auris Nasus Larynx.2020; 47(2): 215. CrossRef
Effects of tympanic membrane perforation on middle ear transmission in gerbil
Glenna Stomackin, Stephanie Kidd, Timothy T. Jung, Glen K. Martin, Wei Dong
Hearing Research.2019; 373: 48. CrossRef
Distortion product otoacoustic emissions: Sensitive measures of tympanic -membrane perforation and healing processes in a gerbil model
Wei Dong, Glenna Stomackin, Xiaohui Lin, Glen K. Martin, Timothy T. Jung
Hearing Research.2019; 378: 3. CrossRef
Pars tensa and tympanicomalleal joint: proposal for a new anatomic classification
Nelson Gilberto, Ricardo Santos, Pedro Sousa, Assunção O’Neill, Pedro Escada, Diogo Pais
European Archives of Oto-Rhino-Laryngology.2019; 276(8): 2141. CrossRef
Butterfly Cartilage Tympanoplasty Long-term Results: Excellent Treatment Method in Small and Medium Sized Perforations
Isa Kaya, Murat Benzer, Mustafa Uslu, Cem Bilgen, Tayfun Kirazli
Clinical and Experimental Otorhinolaryngology.2018; 11(1): 23. CrossRef
Validity of the Hum Test, a Simple and Reliable Alternative to the Weber Test
Omar H. Ahmed, Sara C. Gallant, Ryan Ruiz, Binhuan Wang, William H. Shapiro, Erich P. Voigt
Annals of Otology, Rhinology & Laryngology.2018; 127(6): 402. CrossRef
Determinants of hearing loss severity in tympanic membrane perforations in a sub-Saharan African setting
E Choffor-Nchinda, F Djomou, R-C Meva'a Biouele, D Mindja, A Bola, I Kewe, J-E Vokwely, R Njock
The Journal of Laryngology & Otology.2018; 132(11): 1013. CrossRef
Disagreement in middle ear volume estimation between tympanometry and three-dimensional volume reconstruction in the context of tympanic membrane perforation
David J. Carpenter, Debara L. Tucci, David M. Kaylie, Dennis O. Frank-Ito
Journal of Otology.2017; 12(2): 74. CrossRef
The anatomic determinants of conductive hearing loss secondary to tympanic membrane perforation
David J. Carpenter, Debara L. Tucci, David M. Kaylie, Dennis O. Frank-Ito
Journal of Otology.2017; 12(3): 125. CrossRef
CLINICAL AND AUDIOLOGICAL PROFILE IN CHRONIC OTITIS MEDIA- MUCOSAL TYPE
Kanishka Varman N, Yogeshwar Chandrashekar, Prakash M.D
Journal of Evidence Based Medicine and Healthcare.2017; 4(28): 1640. CrossRef
The Dominance of Ossicular Route in Sound Transmission
Mohd Normani Zakaria, Aw Cheu Lih, Noor Alaudin Abdul Wahab
Clinical and Experimental Otorhinolaryngology.2016; 9(3): 282. CrossRef