Published on in Vol 7, No 3 (2018): March

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/9095, first published .
The Physiological Bases of Hidden Noise-Induced Hearing Loss: Protocol for a Functional Neuroimaging Study

The Physiological Bases of Hidden Noise-Induced Hearing Loss: Protocol for a Functional Neuroimaging Study

The Physiological Bases of Hidden Noise-Induced Hearing Loss: Protocol for a Functional Neuroimaging Study

Journals

  1. Dewey R, Francis S, Guest H, Prendergast G, Millman R, Plack C, Hall D. The association between subcortical and cortical fMRI and lifetime noise exposure in listeners with normal hearing thresholds. NeuroImage 2020;204:116239 View
  2. Cousins R. Medicines discovery for auditory disorders: Challenges for industry. The Journal of the Acoustical Society of America 2019;146(5):3652 View
  3. Guest H, Dewey R, Plack C, Couth S, Prendergast G, Bakay W, Hall D. The Noise Exposure Structured Interview (NESI): An Instrument for the Comprehensive Estimation of Lifetime Noise Exposure. Trends in Hearing 2018;22:233121651880321 View
  4. Gomaa N, Jimoh Z, Campbell S, Zenke J, Szczepek A. Biomarkers for Inner Ear Disorders: Scoping Review on the Role of Biomarkers in Hearing and Balance Disorders. Diagnostics 2020;11(1):42 View
  5. Matas C, Padilha F, Angrisani R, Samelli A. Oxidative Stress as a Risk Factor for Hearing Changes in HIV-positive Normal Listeners. Clinics 2020;75 View
  6. Damestani N, O'Daly O, Solana A, Wiesinger F, Lythgoe D, Hill S, Lara Rubio A, Makovac E, Williams S, Zelaya F. Revealing the mechanisms behind novel auditory stimuli discrimination: An evaluation of silent functional MRI using looping star. Human Brain Mapping 2021;42(9):2833 View

Books/Policy Documents

  1. Liu H. Smart Cities: Big Data Prediction Methods and Applications. View