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John J. Rosowski, Ph.D.

Concepts

This page shows the publications John Rosowski has written about Ear Ossicles.
Connection Strength

2.849
  1. Comparisons of the mechanics of partial and total ossicular replacement prostheses with cartilage in a cadaveric temporal bone preparation. Acta Otolaryngol. 2014 Aug; 134(8):776-84.
    View in: PubMed
    Score: 0.564
  2. Evidence of inner ear contribution in bone conduction in chinchilla. Hear Res. 2013 Jul; 301:66-71.
    View in: PubMed
    Score: 0.509
  3. Experimental ossicular fixations and the middle ear's response to sound: evidence for a flexible ossicular chain. Hear Res. 2005 Jun; 204(1-2):60-77.
    View in: PubMed
    Score: 0.303
  4. Diagnostic utility of laser-Doppler vibrometry in conductive hearing loss with normal tympanic membrane. Otol Neurotol. 2003 Mar; 24(2):165-75.
    View in: PubMed
    Score: 0.259
  5. The Audiometric and Mechanical Effects of Partial Ossicular Discontinuity. Ear Hear. 2016 Mar-Apr; 37(2):206-15.
    View in: PubMed
    Score: 0.159
  6. Middle-ear and inner-ear contribution to bone conduction in chinchilla: The development of Carhart's notch. Hear Res. 2016 10; 340:144-152.
    View in: PubMed
    Score: 0.159
  7. Restoration of middle-ear input in fluid-filled middle ears by controlled introduction of air or a novel air-filled implant. Hear Res. 2015 Oct; 328:8-23.
    View in: PubMed
    Score: 0.152
  8. Simultaneous 3D imaging of sound-induced motions of the tympanic membrane and middle ear ossicles. Hear Res. 2013 Oct; 304:49-56.
    View in: PubMed
    Score: 0.132
  9. Motion of the surface of the human tympanic membrane measured with stroboscopic holography. Hear Res. 2010 May; 263(1-2):66-77.
    View in: PubMed
    Score: 0.104
  10. Differential intracochlear sound pressure measurements in normal human temporal bones. J Assoc Res Otolaryngol. 2009 Mar; 10(1):23-36.
    View in: PubMed
    Score: 0.097
  11. Non-ossicular signal transmission in human middle ears: Experimental assessment of the "acoustic route" with perforated tympanic membranes. J Acoust Soc Am. 2007 Oct; 122(4):2135-53.
    View in: PubMed
    Score: 0.089
  12. Structures that contribute to middle-ear admittance in chinchilla. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2006 Dec; 192(12):1287-311.
    View in: PubMed
    Score: 0.083
  13. Current status and future challenges of tympanoplasty. Eur Arch Otorhinolaryngol. 1998; 255(5):221-8.
    View in: PubMed
    Score: 0.045
  14. Sound-pressure measurements in the cochlear vestibule of human-cadaver ears. J Acoust Soc Am. 1997 May; 101(5 Pt 1):2754-70.
    View in: PubMed
    Score: 0.043
  15. Analysis of middle ear mechanics and application to diseased and reconstructed ears. Am J Otol. 1997 Mar; 18(2):139-54.
    View in: PubMed
    Score: 0.043
  16. Controlled exploration of the effects of conductive hearing loss on wideband acoustic immittance in human cadaveric preparations. Hear Res. 2016 11; 341:19-30.
    View in: PubMed
    Score: 0.041
  17. Design, fabrication, and in vitro testing of novel three-dimensionally printed tympanic membrane grafts. Hear Res. 2016 10; 340:191-203.
    View in: PubMed
    Score: 0.040
  18. A model for signal transmission in an ear having hair cells with free-standing stereocilia. II. Macromechanical stage. Hear Res. 1985; 20(2):139-55.
    View in: PubMed
    Score: 0.018
  19. Middle-ear transmission: acoustic versus ossicular coupling in cat and human. Hear Res. 1992 Jan; 57(2):245-68.
    View in: PubMed
    Score: 0.007
Connection Strength

The connection strength for concepts is the sum of the scores for each matching publication.

Publication scores are based on many factors, including how long ago they were written and whether the person is a first or senior author.

Funded by the NIH National Center for Advancing Translational Sciences through its Clinical and Translational Science Awards Program, grant number UL1TR002541.