TY - JOUR
T1 - Exploring Mechanisms Underlying Unexplained Air-Bone Gaps Post-Myringoplasty
T2 - Temporal Bone Model and Finite Element Analysis
AU - Wang, Jie
AU - Wei, Xingmei
AU - Zhang, Ying
AU - Koike, Takuji
AU - Lee, Sinyoung
AU - Li, Yongxin
AU - Zhao, Fei
N1 - Publisher Copyright:
© The Author(s) 2022.
PY - 2022/8/23
Y1 - 2022/8/23
N2 - Purpose: Air-bone gap (ABG) is an essential indicator of middle ear transfer function after myringoplasty. However, there is still uncertainty about the mechanisms behind unexplained ABGs in patients post-myringoplasty. The present study investigated these mechanisms using cadaveric temporal bone (TB) measurement and finite element (FE) modeling. Methods: Three conditions of tympanic membrane (TM) perforation were modeled with a perforated area of 6%, 24%, and 50% of the total TM area to simulate a small, medium, or large TM perforation of TB model. A piece of paper was used to patch the TM perforation to simulate the situation post-myringoplasty. In the FE model for post-operation, the material properties at the perforation area were changed. Measurement of TM vibration at the umbo was undertaken with a laser Doppler vibrometer (LDV). Results: As the perforated area increased vibration of the TM at the umbo decreased in both the TB and FE models. But the reduction of TM vibration is more minor in the FE model than in the TB model. After the perforation was repaired, the displacement of TM at the umbo could not be recovered totally in the TB and FE models. In the FE model, the displacement of TM at the umbo decreased markedly when the cone shape of TM flattened, and the reduction was almost the same as that in the TB model in the condition of large perforation. Conclusion: The material properties and the anatomical shape of the repaired TM could influence the TM’s modal motion and wave motion. Except for appearance and shape current clinical instruments are unable to resolve factors that affect TM motion. Consequently the ABG seen post-myringoplasty remains unexplained.
AB - Purpose: Air-bone gap (ABG) is an essential indicator of middle ear transfer function after myringoplasty. However, there is still uncertainty about the mechanisms behind unexplained ABGs in patients post-myringoplasty. The present study investigated these mechanisms using cadaveric temporal bone (TB) measurement and finite element (FE) modeling. Methods: Three conditions of tympanic membrane (TM) perforation were modeled with a perforated area of 6%, 24%, and 50% of the total TM area to simulate a small, medium, or large TM perforation of TB model. A piece of paper was used to patch the TM perforation to simulate the situation post-myringoplasty. In the FE model for post-operation, the material properties at the perforation area were changed. Measurement of TM vibration at the umbo was undertaken with a laser Doppler vibrometer (LDV). Results: As the perforated area increased vibration of the TM at the umbo decreased in both the TB and FE models. But the reduction of TM vibration is more minor in the FE model than in the TB model. After the perforation was repaired, the displacement of TM at the umbo could not be recovered totally in the TB and FE models. In the FE model, the displacement of TM at the umbo decreased markedly when the cone shape of TM flattened, and the reduction was almost the same as that in the TB model in the condition of large perforation. Conclusion: The material properties and the anatomical shape of the repaired TM could influence the TM’s modal motion and wave motion. Except for appearance and shape current clinical instruments are unable to resolve factors that affect TM motion. Consequently the ABG seen post-myringoplasty remains unexplained.
KW - air-bone conduction gap
KW - finite element model
KW - laser Doppler vibrometer
KW - myringoplasty
KW - tympanic membrane perforation
UR - http://www.scopus.com/inward/record.url?scp=85136654570&partnerID=8YFLogxK
U2 - 10.1177/01455613221120371
DO - 10.1177/01455613221120371
M3 - Article
C2 - 35999674
AN - SCOPUS:85136654570
SN - 0145-5613
JO - Ear, Nose and Throat Journal
JF - Ear, Nose and Throat Journal
ER -