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DOI: 10.1055/s-2005-863791
Telehearing and the Internet
Publikationsverlauf
Publikationsdatum:
09. Februar 2005 (online)
ABSTRACT
The Internet, with its powerful penetration and scalability, has become an increasingly popular medical information resource and a new platform for telehealth. This article discusses two Internet-based tele-audiological systems that enable audiologists to perform real-time assessment of pure-tone auditory thresholds and otoacoustic emissions through remote control. The pure-tone audiometric thresholds assessed by a new tele-audiological system and a conventional audiometer varied by no more than 1.3 dB for air conduction and 1.2 dB for bone conduction. The remote assessment of otoacoustic emissions has been successful as well. With the rapid development of Internet-based applications, telehealth has the potential to provide important healthcare coverage for rural areas where specialized audiological services are lacking. Various Internet applications such as intraoperative monitoring, fitting and programming of digital hearing aids, activation and mapping of cochlear implants, audiological diagnostic testing with otoacoustic emissions and middle ear immittance measures, and auditory training are but a few examples of potential areas where telehearing can be implemented through the Internet.
KEYWORDS
Internet - otoacoustic emissions - telehealth - telehearing
REFERENCES
- 1 American Speech-Language-Hearing Association .Telepractices and ASHA: Report of the Telepractices Team 2001. Available at: http://professional.asha.org. Accessed March 27, 2003
- 2 McCarty D, Clancy C. Tele-health: implications for social work practice. Soc Work. 2002; 47 153-161
- 3 Bashshur R L. Telemedicine and the health care system. In: Bashshur R, Sanders JH, Shannon GW Telemedicine: Theory and Practice Springfield, IL; Charles C. Thomas 1997: 5-33
- 4 Bashshur R L. Telemedicine/tele-health: an international perspective. Telemedicine and health care. Telemed J E Health. 2002; 8 5-12
- 5 Larkin M. Telemedicine finds its place in the real world. Lancet. 1997; 350 646
- 6 Plock E D. Telemedicine is emerging as a cost effective healthcare alternative. Business America. 1998; 19 148-156
- 7 Goldsmith J. How will the Internet change our health care system?. Health Aff. 2000; 19 148-158
- 8 Strode S W, Gustke S, Allen A. Technical and clinical progress in telemedicine. JAMA. 1999; 281 1066-1068
- 9 Zeng H, Fei D, Fu C, Kraft K. Internet (WWW) based system of ultrasonic image processing tools for remote image analysis. Comput Methods Programs Biomed. 2003; 71 235-241
- 10 Alcaniz M, Botella C, Banos R et al.. Internet-based telehealth system for the treatment of agoraphobia. Cyberpsychol Behav. 2003; 6 355-358
- 11 McCarty D, Clancy C. Telehealth: implications for social work practice. Soc Work. 2002; 47 153-161
- 12 Birnbach J M. The future of teledentistry. J Calif Dent Assoc. 2000; 28 141-143
- 13 Krumn M, Ribera J, Froelich T. Bridging the service gap through audiology telepractice. ASHA. 2002; 7 6-7
- 14 Givens D G, Elangovan S. Internet application to tele-audiology - “nothin” but net. Am J Audiol. 2003; 12 1-8
- 15 American National Standards Institute .Maximum permissible ambient noise levels for audiometric test rooms (ANSI S3.1-1991). New York; ANSI 1991
- 16 American Speech-Language-Hearing Association . Guidelines for identification audiometry. ASHA. 1985; 27 49-52
- 17 Harris J D. Proem to a quantum leap in audiometric data collection and management. J Aud Res. 1978; 18 1-29
- 18 Stover L, Gorga M P, Neely S T, Montoya D. Toward optimizing the clinical utility of distortion product otoacoustic emission measurements. J Acoust Soc Am. 1996; 100 956-967
Saravanan Elangovan
Department of Communication Sciences and Disorders, East Carolina University
Greenville, NC 27858
eMail: se1018@mail.ecu.edu