**Chapter 8**

*The Human Auditory System - Basic Features and Updates on Audiological Diagnosis and Therapy*

tool to study brainstem encoding of speech sounds. Indian Journal of Otolaryngology and Head & Neck Surgery. 2010;**62**(4):395-399

[51] Schoof T, Rosen S. The role of auditory and cognitive factors in understanding speech in noise by normal-hearing older listeners. Frontiers in Aging Neuroscience.

[52] Palmer SB, Musiek FE.

Zonderman A, Resnick S.

Science. 2016;**6**(1):9-16

2013;**56**(1):31-43

2013;**24**(7):590-599

Electrophysiological gap detection thresholds: Effects of age and

comparison with a behavioral measure. Journal of the American Academy of Audiology. 2014;**25**(10):999-1007

[53] Lin F, Ferrucci L, Metter E, Um Y,

Hearing loss and cognition in the Baltimore longitudinal study of aging. Neuropsychology. 2011;**25**:763-770

[54] Sanfins M, Colella-Santos M. A review of the clinical applicability of speech-evoked auditory brainstem responses. The Journal of Health

[55] Ahadi M, Pourbakht A, Jafari AH, Jalaie S. Effects of stimulus presentation mode and subcortical laterality in speech-evoked auditory brainstem responses. International Journal of Audiology. 2014;**53**(4):243-249

[56] Anderson S, Parbery-Clark A, White-Schwoch T, Kraus N. Auditory brainstem response to complex sounds predicts self-reported speech-innoise performance. Journal of Speech Language and Hearing Research.

[57] Clinard C, Tremblay K. Aging degrades the neural encoding of simple and complex sounds in the human brainstem. Journal of the American Academy of Audiology.

2014;**6**:307

**156**
