Mark Krumm scite author profile

Permanent hearing loss is a leading global health care burden, with 1 in 10 people affected to a mild or greater degree. A shortage of trained healthcare professionals and associated infrastructure and resource limitations mean that hearing health services are unavailable to the majority of the world population. Utilizing information and communication technology in hearing health care, or tele-audiology, combined with automation offer unique opportunities for improved clinical care, widespread access to services, and more cost-effective and sustainable hearing health care. Tele-audiology demonstrates significant potential in areas such as education and training of hearing health care professionals, paraprofessionals, parents, and adults with hearing disorders; screening for auditory disorders; diagnosis of hearing loss; and intervention services. Global connectivity is rapidly growing with increasingly widespread distribution into underserved communities where audiological services may be facilitated through telehealth models. Although many questions related to aspects such as quality control, licensure, jurisdictional responsibility, certification and reimbursement still need to be addressed; no alternative strategy can currently offer the same potential reach for impacting the global burden of hearing loss in the near and foreseeable future.

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Improving the access of young urban children to speech, language and hearing screening via telehealth

Ciccia

Whitford

Krumm

et al. 2011

J Telemed Telecare

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We studied the feasibility of low-cost videoconferencing (using Skype) in urban community health clinics for speech, language and hearing screening of children up to six years of age. During a two-year study, screening services were provided via videoconferencing at two community clinics in an inner city area of Cleveland, Ohio. In total, 411 screenings were completed. Of these, 358 children (87%) received hearing screenings, 377 (92%) received tympanometry screening and 263 (64%) received speech and language screening only. A total of 151 children were aged three years or under (37%). The reliability of pure tone hearing screening (n = 7), DPOAE screening (n = 51) and speech-language screening (n = 10) was 100%. Typanometry screenings (n = 55) were 84% reliable. Families reported a high level of satisfaction with both the technology and with the videoconferencing. The results indicate that low-cost videoconferencing for screening of speech, language and hearing development in very young children in urban community health clinics is feasible, reliable and strongly supported by the community.

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Remote Hearing Screenings via Telehealth in a Rural Elementary School

Lancaster¹,

Krumm

Ribera

et al. 2008

Am J Audiol

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The results of this study suggest that school hearing screenings may be provided using telehealth technology. This study did find that 5 students performed differently to pure-tone screenings administered by the telehealth protocol in contrast to on-site hearing screening services. Further research is necessary to identify factors leading to false responses to pure-tone hearing screening when telehealth technology is used. In addition, telehealth hearing screening protocols should be conducted with participants of different age groups and experiencing a wide range of hearing loss to further clarify the value of telehealth technology.

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Providing basic hearing tests using remote computing technology

2007

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We administered pure tone and otoacoustic emissions testing to subjects in a distant community using remote computing technology. Fifteen men and 15 women ranging in age from 18-30 years were tested. An audiometer was used to measure subject pure tone thresholds. In addition, distortion product otoacoustic emissions (DPOAEs) data were recorded using a portable system. Both systems were interfaced to a PC which was connected to the local area network at Minot State University (MSU). An examiner at Utah State University, 1100 km away, could control both the DPOAE and the audiometer equipment at MSU. Overall, the pure tone means for the face-to-face and telemedicine trials were equivalent at each frequency. Moreover, DPOAE recordings exhibited equivalent results at each frequency for telemedicine and face-to-face trials. These results support the use of remote computing as a telemedicine method for providing pure tone audiometry and DPOAE testing to distant communities.

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Telemedicine for audiology screening of infants

et al. 2008

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Distortion product otoacoustic emissions (DPOAE) and automated auditory brainstem response (AABR) screening were conducted in infants at a distant hospital using remote computing. Eighteen males and twelve females ranging in age from 11 -45 days were tested. Both DPOAE and AABR data were recorded using an integrated test system which was connected to the computer network at the Utah Valley Regional Medical Center. Using a broadband Internet connection, an examiner at Utah State University, 200 km away, could control the DPOAE and the ABR equipment. Identical hearing screening results were obtained for face-to-face and telemedicine trials with all infants. The DPOAE means for face-to-face and telemedicine trials were not significantly different at any frequency. In an analysis of variance, there was no significant difference for the test method (F ¼ 0.8, P . 0.05). These results indicate that remote computing is a feasible telemedicine method for providing DPOAE and ABR hearing screening services to infants in rural communities.

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Mark Krumm

Telehealth in audiology: The need and potential to reach underserved communities

Improving the access of young urban children to speech, language and hearing screening via telehealth

Remote Hearing Screenings via Telehealth in a Rural Elementary School

Providing basic hearing tests using remote computing technology

Telemedicine for audiology screening of infants

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