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NeoReviews Vol.6 No.3 2005 e141
© 2005 American Academy of Pediatrics

The Development of the Auditory System from Conception to Term

^* Center for Clinical Research and Evidence-Based Medicine, University of Texas-Houston Medical School, Houston, Tex

Abbreviations: AAP: American Academy of Pediatrics • ABR: auditory brainstem evoked response • dB: decibel • GA: gestational age • HL: hearing level • Hz: hertz • IHC: inner hair cell • NICU: neonatal intensive care unit • OHC: outer hair cell • PMA: postmenstrual age • rms: root mean square • SPL: sound pressure level

The first 300 words of the full text of this article appear below.

	Objectives

 
After completing this article, readers should be able to:

1. Explain when the fetus begins to respond to sound.
   
2. Describe the type of sounds to which fetuses and extremely preterm newborns initially respond.
   
3. Explain why the fetus is exposed to low-frequency sounds.
   
4. Describe the role of the fetal cochlea and the outer and middle ears in response to sound.
   
5. Compare and contrast the response to sounds in the fetus of the same postmenstrual age and preterm newborns.
   

	Introduction

 
For the first half of pregnancy, the fetus is unresponsive to sound. By term, basic auditory capabilities are relatively mature. We review in this article the anatomic and functional developments during that remarkable interval between those two landmarks, which also is a time of increased risk for otologic insult. (1) We also comment on the environmental milieu during this critical period of development in normally developing fetuses and in preterm newborns.

	Sound

 
     Definitions
Sound is vibratory energy transmitted by propagating compressions and expansions of a stationary medium. The frequency of a sound (perceived as pitch) is defined by the number of compressions and expansions (cycles) per second or hertz (Hz). Human hearing ranges from 20 to 20,000 Hz, with greatest sensitivity at 1 to 4 kHz. The density and elasticity of the medium determine sound transmission through that medium. For example, the speed of sound in water (and amniotic fluid) is more than four times the speed of sound in air. Acoustic impedance is the complex ratio of the pressure induced by the sound source to the volume velocity of the vibrating medium. The impedance mismatch at boundaries between different media determines how much sound energy is transmitted and how much is reflected at those boundaries. The impedance mismatch in transmitting sound from air to the fluid-filled inner ear or cochlea is about 32 . . . [Full Text of this Article]