GOALS: To assess the effects of thickness and position of cartilage used to reconstruct the tympanic membrane (TM) using a novel technique, time-averaged laser holography. BACKGROUND: Cartilage is commonly used in TM reconstruction to prevent formation of retraction pockets. The thickness, position, and shape of the cartilage graft may adversely affect TM motion and hearing. We sought to systematically investigate these parameters in an experimental setting. METHODS: Computer-assisted optoelectronic laser holography was used in 4 human cadaveric temporal bones to study sound-induced TM motion for 500 Hz to 8 kHz. Stapes velocity was measured with a laser Doppler vibrometer. Baseline (control) measurements were made with the TM intact. Measurements were repeated after a 0.5- or 1.0-mm-thick oval piece of conchal cartilage was placed on the medial TM surface in the posterior-superior quadrant. The cartilage was rotated so that it was either in contact with the bony tympanic rim and manubrium or not. RESULTS: At frequencies less than 4 kHz, the cartilage graft had only minor effects on the overall TM fringe patterns. The different conditions had no effects on stapes velocity. Greater than 4 kHz, TM motion was reduced over the grafted TM, both with 0.5- and 1.0-mm-thick grafts. No significant differences in stapes velocity were seen with the 2 different thicknesses of cartilage compared with control. CONCLUSION: Computer-assisted optoelectronic laser holography is a promising technique to investigate middle ear mechanics after tympanoplasty. Such positioning may prevent postoperative TM retraction. These findings and conclusions apply to cartilage placed in the posterior-superior TM quadrant.
GOALS: To assess the effects of thickness and position of cartilage used to reconstruct the tympanic membrane (TM) using a novel technique, time-averaged laser holography. BACKGROUND:Cartilage is commonly used in TM reconstruction to prevent formation of retraction pockets. The thickness, position, and shape of the cartilage graft may adversely affect TM motion and hearing. We sought to systematically investigate these parameters in an experimental setting. METHODS: Computer-assisted optoelectronic laser holography was used in 4 human cadaveric temporal bones to study sound-induced TM motion for 500 Hz to 8 kHz. Stapes velocity was measured with a laser Doppler vibrometer. Baseline (control) measurements were made with the TM intact. Measurements were repeated after a 0.5- or 1.0-mm-thick oval piece of conchal cartilage was placed on the medial TM surface in the posterior-superior quadrant. The cartilage was rotated so that it was either in contact with the bony tympanic rim and manubrium or not. RESULTS: At frequencies less than 4 kHz, the cartilage graft had only minor effects on the overall TM fringe patterns. The different conditions had no effects on stapes velocity. Greater than 4 kHz, TM motion was reduced over the grafted TM, both with 0.5- and 1.0-mm-thick grafts. No significant differences in stapes velocity were seen with the 2 different thicknesses of cartilage compared with control. CONCLUSION: Computer-assisted optoelectronic laser holography is a promising technique to investigate middle ear mechanics after tympanoplasty. Such positioning may prevent postoperative TM retraction. These findings and conclusions apply to cartilage placed in the posterior-superior TM quadrant.
Authors: Maria Del Socorro Hernández-Montes; Cosme Furlong; John J Rosowski; Nesim Hulli; Ellery Harrington; Jeffrey Tao Cheng; Michael E Ravicz; Fernando Mendoza Santoyo Journal: J Biomed Opt Date: 2009 May-Jun Impact factor: 3.170
Authors: Hideko Heidi Nakajima; Michael E Ravicz; Saumil N Merchant; William T Peake; John J Rosowski Journal: Hear Res Date: 2005-06 Impact factor: 3.208
Authors: John J Rosowski; Jeffrey Tao Cheng; Michael E Ravicz; Nesim Hulli; Maria Hernandez-Montes; Ellery Harrington; Cosme Furlong Journal: Hear Res Date: 2009-03-27 Impact factor: 3.208
Authors: Antti A Aarnisalo; Jeffrey T Cheng; Michael E Ravicz; Cosme Furlong; Saumil N Merchant; John J Rosowski Journal: Hear Res Date: 2009-11-10 Impact factor: 3.208
Authors: Elliott D Kozin; Nicole L Black; Jeffrey T Cheng; Max J Cotler; Michael J McKenna; Daniel J Lee; Jennifer A Lewis; John J Rosowski; Aaron K Remenschneider Journal: Hear Res Date: 2016-03-16 Impact factor: 3.208