Add to ORKGIn the human auditory system, the brainstem can modify how sound is processed in the inner ear (cochlea). The medial olivocochlear efferent reflex (MOCR) is one such inhibitory neural response originating in the brainstem. When activated, this reflex reduces amplification in the cochlea, which is believed to improve hearing in background noise. Previous research has shown that the reflex reduces amplification in the inner ear by different amounts for soft vs. loud acoustic stimuli. We hypothesized that these varying levels of reduction are equivalent to a constant reduction of stimulus input level. To measure these level changes, we used otoacoustic emissions, which are soft sounds emitted from the cochlea that can be measured with a small ...
Humans are able to hear and detect small changes in sound across a wide dynamic range despite limite...
The active cochlear mechanism amplifies responses to low-intensity sounds, compresses the range of i...
[EN]The detection of amplitude modulation (AM) in quiet or in noise improves when the AM carrier is ...
Sensory systems adjust to the environment to maintain sensitivity to change. In the auditory system,...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2005.Vita.Includes bibliogr...
The auditory nervous system contains an extensive and distributed network of efferent pathways conne...
Elicitation of the medial olivocochlear reflex (MOCR) causes a reduction in the amount of gain (ampl...
The medial olivocochlear (MOC) efferent system modifies cochlear output to aid signal detection in n...
The active cochlear mechanism amplifies responses to low-intensity sounds, compresses the range of i...
The auditory system continually adapts to changes in the acoustic environment over short periods of ...
The auditory system continually adapts to changes in the acoustic environment over short periods of ...
Auditory perception covers a wide range of intensities. This range is called the “dynamic range,” an...
Thesis (Ph. D.)--Harvard-MIT Program in Health Sciences and Technology, 2012.Vita. Cataloged from PD...
Humans are able to hear and detect small changes in sound across a wide dynamic range despite limite...
Inhibition of cochlear amplifier gain by the medial olivocochlear (MOC) efferent system has several ...
Humans are able to hear and detect small changes in sound across a wide dynamic range despite limite...
The active cochlear mechanism amplifies responses to low-intensity sounds, compresses the range of i...
[EN]The detection of amplitude modulation (AM) in quiet or in noise improves when the AM carrier is ...
Sensory systems adjust to the environment to maintain sensitivity to change. In the auditory system,...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2005.Vita.Includes bibliogr...
The auditory nervous system contains an extensive and distributed network of efferent pathways conne...
Elicitation of the medial olivocochlear reflex (MOCR) causes a reduction in the amount of gain (ampl...
The medial olivocochlear (MOC) efferent system modifies cochlear output to aid signal detection in n...
The active cochlear mechanism amplifies responses to low-intensity sounds, compresses the range of i...
The auditory system continually adapts to changes in the acoustic environment over short periods of ...
The auditory system continually adapts to changes in the acoustic environment over short periods of ...
Auditory perception covers a wide range of intensities. This range is called the “dynamic range,” an...
Thesis (Ph. D.)--Harvard-MIT Program in Health Sciences and Technology, 2012.Vita. Cataloged from PD...
Humans are able to hear and detect small changes in sound across a wide dynamic range despite limite...
Inhibition of cochlear amplifier gain by the medial olivocochlear (MOC) efferent system has several ...
Humans are able to hear and detect small changes in sound across a wide dynamic range despite limite...
The active cochlear mechanism amplifies responses to low-intensity sounds, compresses the range of i...
[EN]The detection of amplitude modulation (AM) in quiet or in noise improves when the AM carrier is ...