This paper is in the following e-collection/theme issue:

#xRehabilitationMedicineandPhysicalTherapy (6) Development of Novel Medical Devices and Innovations for Existing Devices (102) Design and Usability of Consumer Health Tech and Home Monitoring Devices (326) Design and Usability of Medical Devices (141) Hearing Impairment and Hearing Loss (87) Development of Novel Medical Devices and Innovations for Existing Devices (102) Design and Usability of Consumer Health Tech and Home Monitoring Devices (326) Design and Usability of Medical Devices (141) Hearing Impairment and Hearing Loss (87) Development of Novel Medical Devices and Innovations for Existing Devices (102) Design and Usability of Consumer Health Tech and Home Monitoring Devices (326) Design and Usability of Medical Devices (141) Hearing Impairment and Hearing Loss (87) Development of Novel Medical Devices and Innovations for Existing Devices (102) Design and Usability of Consumer Health Tech and Home Monitoring Devices (326) Design and Usability of Medical Devices (141) Hearing Impairment and Hearing Loss (87)

Published on in Vol 5 (2024)

Preprints (earlier versions) of this paper are available at https://www.medrxiv.org/content/10.1101/2023.06.01.23290351v1, first published .
Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation

Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation

Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation

Authors of this article:

Izzy Kohler1 Author Orcid Image ;   Michael V Perrotta1 Author Orcid Image ;   Tiago Ferreira1 Author Orcid Image ;   David M Eagleman1, 2 Author Orcid Image
Article Authors Cited by (9) Tweetations (6) Metrics

Journals

  1. Anonymous ­. Peer Review of “Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation”. JMIRx Med 2024;5:e55727 View
  2. Kohler I, Perrotta M, Ferreira T, Eagleman D. Authors’ Response to Peer Reviews of “Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation”. JMIRx Med 2024;5:e55510 View
  3. Anonymous ­. Peer Review of “Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation”. JMIRx Med 2024;5:e55728 View
  4. Eikelboom R. Peer Review of “Cross-Modal Sensory Boosting to Improve High-Frequency Hearing Loss: Device Development and Validation”. JMIRx Med 2024;5:e55554 View
  5. Miklós G, Halász L, Hasslberger M, Toth E, Manola L, Hagh Gooie S, van Elswijk G, Várkuti B, Erőss L. Sensory-substitution based sound perception using a spinal computer–brain interface. Scientific Reports 2024;14(1) View
  6. Frosolini A, Franz L, Caragli V, Genovese E, de Filippis C, Marioni G. Artificial Intelligence in Audiology: A Scoping Review of Current Applications and Future Directions. Sensors 2024;24(22):7126 View
  7. Levy L, Blum Y, Ambaw A, Yozevitch R, Holdengreber E. Harnessing Haptic Technology for Real-Time Emotion Detection. IEEE Sensors Letters 2025;9(3):1 View
  8. Stanley H, Lipp C, Mignot C, Weise S, Garefis K, Fieux M, Tsakiropoulou E, Genetzaki S, Dubreuil R, Ferdenzi C, Carulli M, Bertolini M, Rossoni M, Bertsch A, Brugger J, Hummel T, Konstantinidis I, Bensafi M. Substitution of human olfaction by the trigeminal system. Science Advances 2025;11(48) View

Conference Proceedings

  1. Chin S, Fitz-Gibbon E, Huang B, Paradiso J. Proceedings of the 27th International ACM SIGACCESS Conference on Computers and Accessibility. HapticHearing: A Haptic Feedback System for Complementing Auditory Speech Perception for Mild-to-Moderate Hearing Loss View