Jeffrey T Cheng
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Explore the profile of Jeffrey T Cheng including associated specialties, affiliations and a list of published articles.
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Articles
14
Citations
148
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Recent Articles
1.
Garcia-Manrique J, Furlong C, Gonzalez-Herrera A, Cheng J
Acta Biomater
. 2023 Jan;
159:63-73.
PMID: 36708849
A methodology for the development of a finite element numerical model of the tympanic membrane (TM) based on experiments carried out in the time domain on a cadaveric human temporal...
2.
Psota P, Tang H, Pooladvand K, Furlong C, Rosowski J, Cheng J, et al.
Opt Express
. 2020 Sep;
28(17):24614-24628.
PMID: 32907000
The shape of the tympanic membrane (TM) plays an important role in sound transmission through the ear for hearing. Previously we developed a high-speed holographic system employing a tunable wavelength...
3.
Polanik M, Trakimas D, Castillo-Bustamante M, Cheng J, Kozin E, Remenschneider A
Laryngoscope Investig Otolaryngol
. 2020 Sep;
5(4):734-742.
PMID: 32864446
Objectives: Conventional reporting of postoperative hearing outcomes utilizes a pure-tone averaged air-bone gap (ABG) that is biased toward low frequencies. Consequently, a high-frequency ABG after otologic surgery may go unnoticed....
4.
Tang H, Razavi P, Pooladvand K, Psota P, Maftoon N, Rosowski J, et al.
Appl Sci (Basel)
. 2020 Aug;
9(14).
PMID: 32802482
To improve the understanding of the middle-ear hearing mechanism and assist in the diagnosis of middle-ear diseases, we are developing a high-speed digital holographic (HDH) system to measure the shape...
5.
Polanik M, Trakimas D, Black N, Cheng J, Kozin E, Remenschneider A
Otolaryngol Head Neck Surg
. 2020 Feb;
162(6):914-921.
PMID: 32097057
Objectives: Conventional reporting of posttympanoplasty hearing outcomes use a pure-tone averaged air-bone gap (ABG) largely representing a low-frequency sound conduction. Few studies report high-frequency conductive hearing outcomes. Herein, we evaluate...
6.
Razavi P, Tang H, Rosowski J, Furlong C, Cheng J
J Biomed Opt
. 2018 Sep;
24(3):1-12.
PMID: 30255670
The conical shape of the tympanic membrane (TM or eardrum) plays an important role in its function, such that variations in shape alter the acoustically induced motions of the TM....
7.
Trakimas D, Gandhi D, Kozin E, Cheng J, Remenschneider A
Otol Neurotol
. 2018 Sep;
39(10):e1179-e1181.
PMID: 30252798
No abstract available.
8.
Kozin E, Black N, Cheng J, Cotler M, McKenna M, Lee D, et al.
Hear Res
. 2016 Mar;
340:191-203.
PMID: 26994661
The tympanic membrane (TM) is an exquisite structure that captures and transmits sound from the environment to the ossicular chain of the middle ear. The creation of TM grafts by...
9.
Park J, Cheng J, Ferguson D, Maguluri G, Chang E, Clancy C, et al.
Biomed Opt Express
. 2016 Mar;
7(2):238-50.
PMID: 26977336
We report the development of a novel otoscopy probe for assessing middle ear anatomy and function. Video imaging and phase-sensitive optical coherence tomography are combined within the same optical path....
10.
Dobrev I, Furlong C, Cheng J, Rosowski J
J Biomed Opt
. 2014 Sep;
19(9):96001.
PMID: 25191832
Understanding the human hearing process would be helped by quantification of the transient mechanical response of the human ear, including the human tympanic membrane (TM or eardrum). We propose a...