John C. Mason scite author profile

Objectives/Hypothesis: Cartilage-perichondrium grafting of the tympanic membrane has been used in an effort to reduce recurrence or progression of middle ear disease. The rigidity of cartilage has obvious benefit in preventing tympanic membrane retraction, but concern has been raised regarding its sound conduction properties. Few studies in the literature address hearing results after cartilage tympanoplasty. The purpose of this study was to investigate the hearing results after primary cartilage tympanoplasty and compare them with results after primary tympanoplasty with temporalis fascia. Study Design: A retrospective review of all ear surgeries using cartilage between 1994 and 1999 was performed. Methods: Only primary cases in which the ossicular chain was intact and no mastoid surgery was performed were included. Indications for surgery included tympanic membrane perforation, retraction, and cholesteatoma. Pre-and postoperative speech reception thresholds and air-bone gaps at 500 Hz, 1000 Hz, 2000 Hz, and 4000 Hz were compared. Results: Eleven patients comprised the cartilage study group, and there were 11 age-and temporally matched control subjects. The mean improvement in speech reception threshold for both the study group and the control group was 10 dB. The majority of patients in both groups had ABG closure to within 10 dB at all frequencies examined. There were no statistically significant differences in speech reception threshold improvement or air-bone gap closures between the two groups. Conclusions: These results demonstrate that hearing results after cartilage tympanoplasty are comparable to those after temporalis fascia tympanoplasty. Therefore, when indicated, a cartilage-perichondrium graft can be used for prevention of disease recurrence or progression without fear of impairing hearing.

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Cochlear Implantation in Patients With Auditory Neuropathy of Varied Etiologies

Mason

et al. 2003

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The six cases presented in the study represent varied causes and, probably, varied sites of lesions of auditory neuropathy. Promontory stimulation has been valuable, particularly in adults. Cochlear implantation allows the opportunity to provide a supraphysiological electrical stimulation to the auditory nerve, with the hope of reintroducing synchronous neural activity. Greater confidence and enthusiasm for cochlear implantation in appropriately selected patients with auditory neuropathy are gained through experience with such diverse cases.

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Aggressive Endoscopic Resection of Inverted Papilloma: An Update

Schlosser¹,

Mason²,

Gross³

2001

Otolaryngol.--head neck surg.

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Simultaneous cross-evaluation of heterogeneous E. coli datasets via mechanistic simulation

Macklin

Ahn-Horst

Choi

et al. 2020

Science

127

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The extensive heterogeneity of biological data poses challenges to analysis and interpretation. Construction of a large-scale mechanistic model of Escherichia coli enabled us to integrate and cross-evaluate a massive, heterogeneous dataset based on measurements reported by various groups over decades. We identified inconsistencies with functional consequences across the data, including that the total output of the ribosomes and RNA polymerases described by data are not sufficient for a cell to reproduce measured doubling times, that measured metabolic parameters are neither fully compatible with each other nor with overall growth, and that essential proteins are absent during the cell cycle—and the cell is robust to this absence. Finally, considering these data as a whole leads to successful predictions of new experimental outcomes, in this case protein half-lives.

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John C. Mason

Chebyshev Polynomials

Hearing Results After Primary Cartilage Tympanoplasty

Cochlear Implantation in Patients With Auditory Neuropathy of Varied Etiologies

Aggressive Endoscopic Resection of Inverted Papilloma: An Update

Simultaneous cross-evaluation of heterogeneous E. coli datasets via mechanistic simulation

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