Reference

References

The peer-reviewed papers and standard texts behind the claims made throughout this atlas. Citation numbers in the text refer to this list.

  1. Kemp DT (1978). Stimulated acoustic emissions from within the human auditory system. Journal of the Acoustical Society of America, 64(5):1386–1391.
  2. Shera CA, Guinan JJ (1999). Evoked otoacoustic emissions arise by two fundamentally different mechanisms: a taxonomy for mammalian OAEs. Journal of the Acoustical Society of America, 105(2):782–798.
  3. Shera CA (2004). Mechanisms of mammalian otoacoustic emission and their implications for the clinical utility of otoacoustic emissions. Ear and Hearing, 25(2):86–97.
  4. Brownell WE, Bader CR, Bertrand D, de Ribaupierre Y (1985). Evoked mechanical responses of isolated cochlear outer hair cells. Science, 227(4683):194–196.
  5. Probst R, Lonsbury-Martin BL, Martin GK (1991). A review of otoacoustic emissions. Journal of the Acoustical Society of America, 89(5):2027–2067.
  6. Dhar S, Hall JW (2018). Otoacoustic Emissions: Principles, Procedures, and Protocols (2nd ed.). Plural Publishing, San Diego.
  7. Abdala C, Ortmann AJ, Shera CA (2018). Reflection- and distortion-source otoacoustic emissions: evidence for increased irregularity in the human cochlea during aging. Journal of the Association for Research in Otolaryngology, 19(5):493–510.
  8. British Society of Audiology (2023). Recommended Procedure: Clinical Application of Otoacoustic Emissions (OAEs). British Society of Audiology, Reading, UK.
  9. Robinette MS, Glattke TJ (eds.) (2007). Otoacoustic Emissions: Clinical Applications (3rd ed.). Thieme, New York.
  10. Gorga MP, Neely ST, Ohlrich B, Hoover B, Redner J, Peters J (1997). From laboratory to clinic: a large scale study of distortion product otoacoustic emissions in ears with normal hearing and ears with hearing loss. Ear and Hearing, 18(6):440–455.
  11. Lonsbury-Martin BL, Harris FP, Stagner BB, Hawkins MD, Martin GK (1990). Distortion product emissions in humans. I. Basic properties in normally hearing subjects. Annals of Otology, Rhinology & Laryngology, 99(Suppl 147):3–14.
  12. Jerger JF, Hayes D (1976). The cross-check principle in pediatric audiometry. Archives of Otolaryngology, 102(10):614–620.
  13. Joint Committee on Infant Hearing (2019). Year 2019 position statement: principles and guidelines for early hearing detection and intervention programs. Journal of Early Hearing Detection and Intervention, 4(2):1–44.
  14. Balatsouras DG, Kaberos A, Korres S, Kandiloros D, Ferekidis E, Economou C (2003). Detection of pseudohypacusis: a prospective, randomized study of the use of otoacoustic emissions. Ear and Hearing, 24(6):518–527.
  15. Ulualp SO, Pereira FC (2014). Otoacoustic emissions in the prediction of sudden sensorineural hearing loss outcome. Otology & Neurotology, 35(10):1745–1750.
  16. Robinette MS (1992). Clinical observations with transient evoked otoacoustic emissions with adults. Seminars in Hearing, 13(1):23–36.
A note on sourcing. Where a finding is long-established in audiology, this atlas cites the original describing work alongside standard reference texts. Clinical thresholds and criteria are conventional teaching values; individual laboratories and equipment may differ, and local normative data should always take precedence.