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Brainstem auditory evoked potentials in anuran amphibiansCarey, Marc Brandon 01 January 1992 (has links)
In this study, I looked at the effects of sound level, temperature and dehydration/hypernatremia on the brainstem auditory evoked potential (BAEP) of four species of anuran amphibians (Rana pipiens, Rana catesbeiana, Bufo americanus and Bufo terrestris). The BAEP was used because it allowed me to monitor both the peripheral and central aspects of auditory nervous function simultaneously and over a long period of time.
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Achromatic and chromatic VEPs in adults with down syndromeLloyd, Robyn, School of Optometry & Visual Science, UNSW January 2005 (has links)
Previous studies have found that spatial processing in children and adults with Down syndrome is different in comparison to the normal population. Some previous studies have also found that there is a high prevalence of colour vision deficiencies in people with Down syndrome. The aim of the present study was to use an objective test, the transient visual evoked potential (VEP), to assess achromatic and chromatic visual processing in adults with Down syndrome. Achromatic VEPs were recorded in response to black-white stimuli presented in patternreversal mode. Chromatic VEPs were recorded in response to two types of colour pattern, presented in pattern onset-offset mode. The two colour types were intended to preferentially stimulate the two principal chromatic pathways of the visual system, the ???redgreen??? and ???blue-yellow??? colour-opponent pathways. These stimuli are here termed the ???LM??? and ???S-(L+M) stimuli, respectively, reflecting the cone types that input to the pathways they are intended to stimulate. Each subject also completed two subjective colour vision tests, the Colour Vision Test Made Easy (CVTME) and the City University Colour Vision Test (CUT). Morphology of the achromatic and chromatic VEPs was found to differ between the group with Down syndrome and an age-matched control group. The latency of the P100 component of the achromatic VEP was found to be significantly later in the group with Down syndrome compared to the control group (the N75 latency was earlier in the group with Down syndrome, but not significantly so). The group-averaged peak-to-peak amplitude of the achromatic VEP was significantly lower in the group with Down syndrome compared to the control group. The major positive component of the VEP in response to the L-M stimulus was of significantly longer latency compared to that of the control group. The major negative component and the peak-to-peak amplitude of this response were not significantly different between the groups. For the response to S-(L+M) stimuli, the latency of the major negativity was significantly earlier in the group with Down syndrome and the major positivity was later, but not significantly so. Amplitude of this response was significantly higher in adults with Down syndrome compared to the control group. Most subjects in both groups passed both the CVTME and CUT. Our findings indicate that chromatic VEPs are abnormal in Down syndrome, and this may reflect abnormal processing of chromatic stimuli in this population. Alternatively, these abnormalities may arise due to abnormal cortical morphology, which may occur with normal or abnormal processing of chromatic signals. These findings further indicate that abnormality of chromatic VEPs may be expected in Down syndrome, and is not necessarily indicative of pathology or other abnormal function that is unrelated to the syndrome.
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Maturation of the transient chromatic (L-M) visual evoked potential: insights from linear and nonlinear analysis.Boon, Mei Ying, Optometry & Vision Science, Faculty of Science, UNSW January 2007 (has links)
Introduction: Psychophysical and electrophysiological techniques have shown that chromatic contrast sensitivity improves between infancy and adolescence. In adults, electrophysiological and psychophysical methods usually agree. However, in infants electrophysiological techniques may underestimate ability to see chromatic contrast (Suttle et al., 2002). It is not known if the discrepancy between electrophysiological and psychophysical methods continues during childhood nor whether the chromatic VEP can be used as an indicator of colour perception in children. Purpose: To investigate the transient L-M chromatic visual evoked potential and its ability to indicate perception (psychophysical thresholds) of chromatic stimuli in children and adults. In particular, to determine whether a discrepancy between VEP and psychophysical L-M thresholds exists during childhood and if so, to gain some understanding about the nature of the discrepancy. Methods: Transient chromatic VEPs were recorded in children (aged 4.5-13 years) and adults (aged 20-40 years). VEP thresholds were compared with psychophysical thresholds (within-subjects comparison). Because the VEPs of the children were less intra-individually repeatable in morphology than those of the adults, post-hoc objective analysis of the VEPs, linear (Fourier) and nonlinear dynamical (Grassberger and Procaccia's (1983) correlation dimension) analyses, was conducted. Results: VEP and psychophysical estimates of chromatic contrast thresholds agreed using a variety of methods in the adults. In the children, however, the objective methods of assessment (extrapolation from Fourier-derived amplitudes and the correlation dimension) were more accurate than the methods that employed subjective evaluations of VEP morphology. Conclusion: The L-M transient chromatic VEPs of both children (aged 4.5-13 years) and adults appear to contain chromatic information, even in the absence of repeatable VEP morphology and should therefore be able to indicate chromatic perception (psychophysical thresholds). However, the chromatic information may be present as a nonlinear dynamical signal, which may require objective methods (Fourier analysis, the correlation dimension) to reveal the chromatic signal. The greater intra-individual variability of VEP morphology in children compared to adults may reflect poorer precision when switching between cortical states in children's brains. Alternatively, interactions between the immature visual system of the children and their general EEG may occur. Children's VEPs should therefore be interpreted differently to adult VEPs.
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Instrumentation for high spatial resolution of steady state visual evoked potentialsSimpson, David Gordon Giles, dsimpson@swin.edu.au January 1998 (has links)
This thesis reports on several new and innovative instrumentation developments to
solve some of the problems of brain activity monitoring, particularly SSVEP (Steady
State Visual Evoked Potentials) studies. SSVEP systems generate suitable stimuli and
record the resulting brain biopotentials from scalp electrodes.
The instrumentation is configured as a 'Neuropsychiatric Workstation', supporting up to
136 scalp electrodes. Operating in the SSVEP mode, the Neuropsychiatric Workstation
reported here significantly improves upon the previously reported spatial resolution and
accuracy of maps related to the generated stimuli. These maps allows insights to be
gained into the cognitive workings of the brain.
A significant component of the work reported here covers the development of the multielectrode
EEG measurement modules and the associated techniques for minimising
interference and cross-talk. The techniques for synchronising recordings from all
electrodes with the stimulus, interfacing to a host computer and real-time storage of the
very large amounts of data generated to hard disk, are all reported.
The SSVEP paradigm uses a sinusoidal-modulated visual stimuli. A novel linearised
LED (light emitting diode) head-up display was developed, in addition to more
conventional stimuli, such as the alternating checker-board display, all with sinusoidal
modulation capability over a range of frequencies.
The Neuropsychiatric Workstation described in thesis has been replicated several times
and is in regular use at Brain Sciences Institute (BSI) at Swinburne University of
Technology, and other collaborative research institutes.
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A meta-analytic review of information-processing deficits in schizophrenia event-related potentials and eye movement indices /Sturgeon, Carey. January 1998 (has links)
Thesis (M.A.)--York University, 1998. Graduate Programme in Psychology. / Typescript. Includes bibliographical references (leaves 66-97). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL:http://wwwlib.umi.com/cr/yorku/fullcit?pMQ27382.
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Common and distinct information processing biases in social anxiety and depression as revealed by event-related brain potentialsMoser, Jason S. January 2009 (has links)
Thesis (Ph.D.)--University of Delaware, 2009. / Principal faculty advisor: Robert F. Simons, Dept. of Psychology. Includes bibliographical references.
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Electrical and optical investigations of event-related brain activity in human auditory cortex elicited by rapidly presented tones /Sable, Jeffrey J., January 2003 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 2003. / Typescript. Vita. Includes bibliographical references (leaves 100-110). Also available on the Internet.
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Electrical and optical investigations of event-related brain activity in human auditory cortex elicited by rapidly presented tonesSable, Jeffrey J., January 2003 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 2003. / Typescript. Vita. Includes bibliographical references (leaves 100-110). Also available on the Internet.
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Fast tracking of evoked potentials variations by wavelet analysis /Liu, Wenqing. January 2002 (has links)
Thesis (Ph. D.)--University of Hong Kong, 2002. / Includes bibliographical references.
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Fast evoked potential estimation by artificial neural networks馮順明, Fung, Shun-ming. January 1999 (has links)
published_or_final_version / abstract / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy
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