Clinical applications of the human brainstem responses to auditory stimuli

A technique utilizing the frequency following response (FFR) (obtained by auditory stimulation, whereby the stimulus frequency and duration are mirror-imaged in the resulting brainwaves) as a clinical tool for hearing disorders in humans of all ages is presented. Various medical studies are discussed to support the clinical value of the technique. The discovery and origin of the FFR and another significant brainstem auditory response involved in studying the eighth nerve is also discussed

Brainstem auditory evoked responses in man. 1: Effect of stimulus rise-fall time and duration

Short latency (under 10 msec) evoked responses elicited by bursts of white noise were recorded from the scalp of human subjects. Response alterations produced by changes in the noise burst duration (on-time) inter-burst interval (off-time), and onset and offset shapes are reported and evaluated. The latency of the most prominent response component, wave V, was markedly delayed with increases in stimulus rise-time but was unaffected by changes in fall-time. The amplitude of wave V was insensitive to changes in signal rise-and-fall times, while increasing signal on-time produced smaller amplitude responses only for sufficiently short off-times. It is concluded that wave V of the human auditory brainstem evoked response is solely an onset response

Colorado College State of the Rockies Report Card

This year’s Report Card content is largely focused upon wildlife, one of the key natural treasures of the Rockies and a distinguishing aspect to the wildness and beauty we cherish. A related section evaluates the Wild and Scenic River system in the Rockies and how this federal act has protected certain reaches in the West compared to other federal designations and unprotected streams. A key variable for the Rockies’ future is a growing population affecting our natural resources, and in this Report Card we consider the concentration of population growth within large metropolitan areas, a demographic trend known as a “megapolitan” region. Rockies Snapshots look at preservation of the Rockies’ historic past, crime and incarceration, and the degree of cooperation Rockies federal politicians devote to supporting our region’s issues and concerns. As in previous Report Cards, we continue our “at a glance” Rockies Baseline: Vital Signs for a Region in Transition

Colorado College State of the Rockies Report Card

The critical research topics for the 2008 Report Card include immigration, affordable housing, renewable energy resources, river restoration and restoration economies, and wildlands

Fast Detection of Unexpected Sound Intensity Decrements as Revealed by Human Evoked Potentials

The detection of deviant sounds is a crucial function of the auditory system and is reflected by the automatically elicited mismatch negativity (MMN), an auditory evoked potential at 100 to 250 ms from stimulus onset. It has recently been shown that rarely occurring frequency and location deviants in an oddball paradigm trigger a more negative response than standard sounds at very early latencies in the middle latency response of the human auditory evoked potential. This fast and early ability of the auditory system is corroborated by the finding of neurons in the animal auditory cortex and subcortical structures, which restore their adapted responsiveness to standard sounds, when a rare change in a sound feature occurs. In this study, we investigated whether the detection of intensity deviants is also reflected at shorter latencies than those of the MMN. Auditory evoked potentials in response to click sounds were analyzed regarding the auditory brain stem response, the middle latency response (MLR) and the MMN. Rare stimuli with a lower intensity level than standard stimuli elicited (in addition to an MMN) a more negative potential in the MLR at the transition from the Na to the Pa component at circa 24 ms from stimulus onset. This finding, together with the studies about frequency and location changes, suggests that the early automatic detection of deviant sounds in an oddball paradigm is a general property of the auditory system