Developmental Plasticity in the Auditory Cortex of the Cat
| Author | : |
| Publisher | : |
| Total Pages | : |
| Release | : 1997 |
| Genre | : |
| ISBN | : |
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Developmental Plasticity in the Auditory Cortex of the Cat
| Author | : Susan Gay Stanton |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 1997 |
| Genre | : |
| ISBN | : |
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The consequences of an abnormal pattern of sensory input during development on the organization of the auditory cortex and the thalamocortical pathway were examined. Two different experimental paradigms were used to change the peripheral pattern of neural input to the system: (1) auditory deprivation: partial cochlear lesions were induced by treating newborn kittens with the ototoxic aminoglycoside drug amikacin and (2) auditory augmentation: newborn kittens were reared in an altered acoustic environment, consisting predominantly of a continuous 8 kHz FM tone. Standard microelectrode recording techniques were used to examine the functional organization of primary auditory cortex and revealed an altered cortical frequency map as a consequence of these experimental manipulations. Scanning electron microscopy (SEM) was used to examine the cochlea, and auditory brainstem responses (ABR audiogram) were used to measure frequency-specific threshold changes in ascending neural activity. Retrograde tracers were introduced in AI, and were used to examine the organization of the thalamocortical projection. As a result of neonatal partial cochlear lesions the cochleotopic organization of primary auditory cortex was altered, with the deprived high frequency region of AI devoted instead to the representation of low frequencies. Furthermore, the deafferented region of the cortical map displayed an abnormally large cortical area (expansion) with neurons having common characteristic frequencies. The range of characteristic frequencies within this monotonic cortical region corresponded to both the high frequency border of the hearing loss and the edge of the cochlear lesion. However, retrograde tracer injections into different regions in AI produced a normal pattern of labelling in the medial geniculate body of the thalamus. These results suggest that the cochleotopic organization of the thalamocortical projection is not disrupted in deafened cats, despite the extensive physiological reorganization of the cortical frequency map observed in these animals. As a consequence of rearing newborn kittens in an altered acoustic environment, the cochleotapic representation in AI also develops abnormally. Exposure to a continuous 8 kHz FM signal during a period from birth to three months of age produced a significant expansion of the 6-12 kHz frequency region of the cortical map in mature cats. These studies have shown that manipulating the pattern of cochlear activity during the neonatal period induces changes in the functional organization of the cochleotopic map in primary auditory cortex of the cat. In conclusion, the cochleotopic map within auditory cortex is altered in a manner which reflects the pattern of sensory input from the periphery during development.
Distinct Temporal and Special Components of Developmental Plasticity in Rat Auditory Cortex
| Author | : Theodore M. Moallem |
| Publisher | : |
| Total Pages | : 110 |
| Release | : 2003 |
| Genre | : |
| ISBN | : |
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Physiological Plasticity of Single Neurons in Auditory Cortex of the Cat During Learning
| Author | : David Mark Diamond |
| Publisher | : |
| Total Pages | : 402 |
| Release | : 1985 |
| Genre | : |
| ISBN | : |
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The Auditory Cortex
| Author | : Jeffery A. Winer |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 711 |
| Release | : 2010-12-02 |
| Genre | : Science |
| ISBN | : 1441900748 |
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There has been substantial progress in understanding the contributions of the auditory forebrain to hearing, sound localization, communication, emotive behavior, and cognition. The Auditory Cortex covers the latest knowledge about the auditory forebrain, including the auditory cortex as well as the medial geniculate body in the thalamus. This book will cover all important aspects of the auditory forebrain organization and function, integrating the auditory thalamus and cortex into a smooth, coherent whole. Volume One covers basic auditory neuroscience. It complements The Auditory Cortex, Volume 2: Integrative Neuroscience, which takes a more applied/clinical perspective.
Development and Plasticity in the Primary Auditory Cortex
| Author | : Heesoo Kim |
| Publisher | : |
| Total Pages | : 94 |
| Release | : 2011 |
| Genre | : |
| ISBN | : |
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The early acoustic environment plays a crucial role in how the brain represents sounds and how language phonemes are perceived. Human infants are born with the capacity to distinguish phonemes from virtually all languages, but very quickly change their perceptual ability to match that of their primary language. This has been described as the Perceptual Magnet Effect in humans, where phoneme tokens are perceived to be more similar than they physically are, leading to decreased discrimination ability. Early development is marked by distinct critical periods, when cortical regions are highly plastic and particularly sensitive to sensory input. These lasting alterations in cortical sensory representation may directly impact the perception of the external world. My thesis is comprised of three different studies, all of which investigate the role of the developmental acoustic environment on cortical representation and the behavioral consequence of altered cortical representation. Passive exposure to pure-tone pips during the auditory critical period can lead to over-representation of the exposure tone frequency in the primary auditory cortex (A1) of rats. This over-representation is associated with decreased discrimination ability of that frequency, similar to the Perceptual Magnet Effect in humans. Another hallmark of human language is categorical perception. Using a computational model of A1, I show that certain representation patterns (which may be achieved with passive exposure to two distinct pure-tone pips) in A1 can lead to categorical perception in rats. This suggests that cortical representation may be a mechanism that drives categorical perception. Rodents are socially vocal animals whose con-specific calls are often presented in bouts in the ultrasonic frequency range. These calls are vocalized at ethologically relevant repetition rates. I show that pure-tone pips that are presented at the ethological repetition rate (but not slower or faster rates) during the auditory critical period lead to over-representation of the pure-tone frequency. A certain subclass of ultrasonic vocalizations, the pup isolation calls, occurs during the auditory critical period. I show that there is over representation of ultrasonic vocalization frequencies in the rat A1. This preferential representation is experience-dependent and is associated with higher discrimination ability.
Currents of the Auditory Cortex in the Cat
| Author | : Wolfgang Köhler |
| Publisher | : |
| Total Pages | : 54 |
| Release | : 1955 |
| Genre | : |
| ISBN | : |
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Plasticity of the Auditory System
| Author | : Thomas N. Parks |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 336 |
| Release | : 2013-03-09 |
| Genre | : Science |
| ISBN | : 1475742193 |
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The auditory system has a remarkable ability to adjust to an ever-changing environment. The six review chapters that comprise Plasticity of the Central Auditory System cover a spectrum of issues concerning this ability to adapt, defined by the widely applicable term "plasticity". With chapters focusing on the development of the cochlear nucleus, the mammalian superior olivary complex, plasticity in binaural hearing, plasticity in the auditory cortex, neural plasticity in bird songs, and plasticity in the insect auditory system, this volume represents much of the most current research in this field. The volume is thorough enough to stand alone, but is closely related a previous SHAR volume, Development of the Auditory System (Volume 9) by Rubel, Popper, and Fay. The book fully addresses the difficulties, challenges, and complexities of this topic as it applies to the auditory development of a wide variety of species.
Elementary Signal Detection Theory
| Author | : Thomas D. Wickens |
| Publisher | : Oxford University Press |
| Total Pages | : 284 |
| Release | : 2001-10-11 |
| Genre | : Psychology |
| ISBN | : 9780195357806 |
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Signal detection theory, as developed in electrical engineering and based on statistical decision theory, was first applied to human sensory discrimination about 40 years ago. The theory's intent was to explain how humans discriminate and how we might use reliable measures to quantify this ability. An interesting finding of this work is that decisions are involved even in the simplest of discrimination tasks--say, determining whether or not a sound has been heard (a yes-no decision). Detection theory has been applied to a host of varied problems (for example, measuring the accuracy of diagnostic systems, survey research, reliability of lie detection tests) and extends far beyond the detection of signals. This book is a primer on signal detection theory, useful for both undergraduates and graduate students.
Developmental Plasticity of Inhibitory Circuitry
| Author | : Sarah L. Pallas |
| Publisher | : Springer |
| Total Pages | : 192 |
| Release | : 2009-12-09 |
| Genre | : Medical |
| ISBN | : 1441912436 |
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Neuroscience has long been focused on understanding neural plasticity in both development and adulthood. Experimental work in this area has focused almost entirely on plasticity at excitatory synapses. A growing body of evidence suggests that plasticity at inhibitory GABAergic and glycinergic synapses is of critical importance during both development and aging. The book brings together the work of researchers investigating inhibitory plasticity at many levels of analysis and in several different preparations. This topic is of wide relevance across a number of different areas of research in neuroscience and neurology. Medical problems such as epilepsy, mental illness, drug abuse, and movement disorders can result from malfunctioning inhibitory circuits. Further, the maturation of inhibitory circuits may trigger the onset of critical periods of neural circuit plasticity, raising the possibility that such plastici periods could be reactivated for medical benefit by manipulating inhibitory circuitry.
