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An Audibility Model of the Bone Conduction Device during Headband Trial in Single-sided Deaf Subjects. ...
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An Audibility Model of the Bone Conduction Device during Headband Trial in Single-sided Deaf Subjects. ...
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An Audibility Model of the Bone Conduction Device during Headband Trial in Single-sided Deaf Subjects. ...
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Audibility of the Bone Conduction Device Headband Trial in Single-sided Deaf Subjects. ...
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Using a Bone-Conduction Headset to Improve Speech Discrimination in Children With Otitis Media With Effusion. ...
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Using a Bone-Conduction Headset to Improve Speech Discrimination in Children With Otitis Media With Effusion.
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A new bone conduction hearing aid to predict hearing outcome with an active implanted device
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Bone Conduction Communication: Research Progress and Directions
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Improving sound localization after cochlear implantation and auditory training for the management of single-sided deafness
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A Global patient outcomes registry : cochlear paediatric implanted recipient observational study (Cochlear™ P-IROS)
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Abstract:
Background: Currently, there is a paucity of data concerning the long-term outcomes, educational placement and quality of life of children implanted with hearing devices from large and representative samples of the population. To address this concern, a large, prospective, multicentre, multinational patient-outcomes registry for paediatric recipients of implantable hearing devices was developed. The benefits of this registry, its approach and methodology are described. Methods/Design: The Cochlear™ Paediatric Implanted Recipient Observational Study (Cochlear P-IROS) is a prospective international patient-outcomes registry for children who are implanted in routine clinical practice with one or more hearing devices. The study aims to collect data on patient comorbidities, device use, auditory performance, quality of life and health-related utilities, across different types of implantable hearing devices from a range of manufacturers. Patients will be evaluated with a set of standardised and non-standardised questionnaires prior to initial device activation (baseline) and at six-monthly follow-up intervals up to 24 months and annually thereafter. The Cochlear P-IROS utilises a secure web interface to administer electronic case report forms to clinicians and families of implanted children. The web interface is currently available in five languages: English, Japanese, Korean, Mandarin and Russian. The interface also provides printable versions of the case report forms translated into 22 local languages for collection of data prior to entry online; additional languages may be added, as required. Participation in the Cochlear P-IROS registry is investigator-driven and voluntary. To date, the Cochlear P-IROS has recruited implant clinics across Australia, China, India, Indonesia, Turkey and Vietnam. The registry also aims to recruit multiple clinics in Cuba, Israel, Japan, Malaysia, Singapore, South Africa, South Korea and Russia. Discussion: The use of a registry such as the Cochlear P-IROS will generate valuable data to support research interests of academics and clinicians around the globe. The data generated will be relevant for a wide range of stakeholders including regulators, payers, providers, policy makers, patients and their families, each with a different perspective for the acceptance and adoption of implantable hearing devices for the treatment of hearing loss. ; 15 page(s)
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Keyword:
110300 Clinical Sciences; Bone conduction hearing systems; Cochlear implants; Hearing outcomes; Multi-attribute utility index; Multi-centre; Paediatrics; Patient registry; Patient reported outcome; Prospective observational study; Quality of life
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URL: http://hdl.handle.net/1959.14/336271
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Bone Conduction Ocular Vestibular Evoked Myogenic Potentials
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In: ETSU Faculty Works (2011)
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A Comparison of Air And Bone-conducted VEMPs
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In: ETSU Faculty Works (2006)
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Air and Bone-Conducted Vestibular Evoked Myogenic Potentials
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In: ETSU Faculty Works (2005)
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Speech Intelligibility with a Bone Vibrator
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In: DTIC (2005)
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Speech Intelligibility with Acoustic and Contact Microphones
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In: DTIC (2005)
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Bone Conduction Transmission and Head‐Shadow Effects for Unilateral Hearing Losses Fit with Transcranial Cic Hearing Aids
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In: ETSU Faculty Works (2000)
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Speech reception via bone conduction
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In: Dissertations and Theses (1989)
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