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Development of cartilage conduction hearing aid

Wybrane pełne teksty z tego czasopisma
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Języki publikacji
EN
Abstrakty
EN
Purpose: The potential demand for hearing aids is increasing in accordance with aging of populations in many developed countries. Because certain patients cannot use air conduction hearing aids, they usually use bone conduction hearing aids. However, bone does not transmit sound as efficiently as air, and bone conduction hearing aids require surgery (bone anchored hearing aid) or great pressure to the skull. The first purpose of this study is to examine the efficacy of a new sound conduction pathway via the cartilage. The second purpose is to develop a hearing aid with a cartilage conduction transducer for patients who cannot use regular air conduction hearing aids. Design/methodology/approach: We examined the hearing ability of a patient with atresia of both external auditory meatuses via three kinds of conduction pathways (air, bone, and cartilage). After the best position for the cartilage conduction transducer was found, audiometric evaluation was performed for his left ear with an insertion earphone (air conduction), a bone conduction transducer, and a cartilage conduction transducer. Then we made a new hearing aid using cartilage conduction and got subjective data from the patients. Findings: The tragal cartilage was the best position for the cartilage conduction transducer. The patient’s mean hearing levels were 58.3 dBHL, 6.7 dBHL, and 3.3 dBHL for air conduction, bone conduction, and cartilage conduction respectively. The hearing ability of the patients obtained from the cartilage conduction hearing aid was comparable to those from the bone conduction hearing aid. Practical implications: Hearing levels using cartilage conduction are very similar to those via bone conduction. Cartilage conduction hearing aids may overcome the practical disadvantages of bone conduction hearing aids such as pain and the need for surgery. Originality/value: We have clarified the efficacy of the cartilage conduction pathway and developed a prototype ‘cartilage conduction hearing aid’, which is the first hearing aid to use sound transmission via cartilage.
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Rocznik
Strony
104--110
Opis fizyczny
Bibliogr. 15 poz.
Twórcy
autor
autor
autor
autor
autor
autor
  • Department of Otorhinolaryngology, Nara Medical University, Kashihara, Nara 634-8522, Japan, yanai@naramed-u.ac.jp
Bibliografia
  • [1]P.L. Rice, Health Psychology, An International Thompson Publishing, Washington DC, 1988.
  • [2]R. Stewart, A. Wingfield, Hearing loss and cognitive effort in older adults' report accuracy for verbal materials, Journal of American Academy of Audiology 88 (2009) 147-154.
  • [3]P.A. Tun, S. McCoy, A. Wingfield, Aging, hearing acuity and the attentional costs of effortful listening, Psychology of Aging 24 (2009) 761-766.
  • [4]J. Bondy, S. Becker, I. Bruce, L. Trainor, S. Haykin, A novel signal-processing strategy for hearing aid design: Neurocompensation, Signal Processing 84 (2004) 1239-1253.
  • [5]C.V. Palmer, A. Ortmann, Hearing loss and Hearing aids, Neurologic Clinics 23 (2005) 901-918.
  • [6]J.E. Preminger, R, Carpenter, C.H. Ziegler, A clinical perspective on cochlear dead regions: Intelligibility of speech and subjective hearing aid benefit, Journal of American Academy of Audiology 16 (2005) 631-632.
  • [7]A.F.M. Snik, E.A.M. Mylanus, C.W.R.J. Cremers, Aided free-field thresholds in children with conductive hearing loss fitted with air- or bone-conduction hearing aids, International Journal of Pediatric Otorhinolaryngology 30 (1994) 133-142.
  • [8]H. Sohmer, S. Freeman, Further evidence for a fluid pathway during bone conduction auditory stimulation, Hearing Research 193 (2004) 105-110.
  • [9]H.W.Yuen, D. Bodmer, K. Smilsky, J.M. Nedzelski, J.M. Chen, Management of single-sided deafness with the bone-anchored hearing aid, Otolaryngology, Head and Neck Surgery 141 (2009) 16-23.
  • [10]M.A. Shirazi, S.J. Marzo, J.P. Leonetti, Perioperative complications with the bone-anchored hearing aid, Otolaryngology, Head and Neck Surgery 134 (2006) 236-239.
  • [11]A. Banerjee, E.V. Bordatchev, S.K. Choudhury, On-line monitoring of surface roughness in turning operations with opto-electrical transducer, International Journal of Manufacturing Research 4 (2009) 57-73.
  • [12]L. Bicci, A. Scorzoni, P. Placidi, L. Marrocchi, M. Cicioni, L. Roselli, S. Zampolli, L. Masini, I. Elmi, G.C. Carinali, A smart gas sensor for environmental monitoring, compliant with the IEEE 1451 standard and featuring a simplified transducer interface, International Journal of Intelligent Systems Technologies and Applications 3 (2007) 63-79.
  • [13]R. Grimberg, A. Savin, R. Steigmann, Eddy current inner transducer with rotating magnetic field: application to PHWRs pressure tubes, International Journal of Materials and Product Technology 26 (2006) 177-186.
  • [14]D. Liang, H.F. Xhang, L. Ying, Compressed-sesnsing photoacoustic imaging based on random optical illumination, International Journal of Functional Informatics and Personalised Medicine 2 (2009) 394-406.
  • [15]X.J. Zhu, Y.X. Gao, H.J. Xu, A new ultrasonic vibration machine for honing, International Journal of Computer Applications in Technology 29 (2007) 216-29.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL7-0048-0023
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