Your search keyword '"cortical evoked potentials"' showing total 109 results

1. Acoustic change complex findings in mild and moderate sensorineural hearing loss.

Author

Hamdy, Mona, El Shennawy, Amira, Hosny, Noha, Ezz Elregal, Aya Salah, and Hamdy, Hussein Sherif

Subjects

AUDITORY evoked response, VOWELS, KRUSKAL-Wallis Test, STATISTICS, PHYSIOLOGICAL aspects of speech, ELECTROENCEPHALOGRAPHY, AGE distribution, SPEECH audiometry, ONE-way analysis of variance, SENSORINEURAL hearing loss, CASE-control method, MANN Whitney U Test, SEVERITY of illness index, T-test (Statistics), PEARSON correlation (Statistics), AUDIOMETRIC equipment, PHONETICS, CHI-squared test, AUDIOMETRY, DATA analysis software, DATA analysis, AUDITORY cortex

Abstract

Background: Auditory electrophysiological tests of the cortex, which are processed in or close to the auditory cortex, are brain reactions to sound. A variation in a continuous stimulus causes the acoustic change complex potential (ACC), which is a wave following the P1-N1-P2 response. Objective: To measure the amplitude and latency of different components of ACC in normal subjects and across individuals with mild and moderate degrees of sensorineural hearing loss (SNHL). Patients and methods: The study includes 100 individuals with the age ranged from 10 to 50 years with different degrees of SNHL. The ACC was evoked by a change of second formant in the middle of ongoing steady-state synthetic, 3 formant vowels (ooee). The total duration was 500 ms. Changing occurred at 250 ms. Results: The SNHL subgroups showed statistically significantly longer P1 and N1 latencies. N1 and P2 amplitudes of ACC onset response were larger with a statistical significance as compared to controls. Post hoc analysis revealed no statistically significant difference between mild and moderate SNHL on ACC parameters. Age showed a significant negative correlation with ACC N1 and P2 latency, ACC P1 and N1 amplitude, and onset P2 latency. Onset response P1 latency was significantly higher in children than adults. Median ACC P1 amplitude significantly increased in children than adults. Conclusion: ACC is a reliable tool for testing the auditory cortex function of detecting difference in sounds presented that can be recorded readily in patients with mild and moderate SNHL. [ABSTRACT FROM AUTHOR]

Published

2024

2. Does experience with hearing aid amplification influence electrophysiological measures of speech comprehension?

Author

Deshpande, Pushkar, Brandt, Christian, Debener, Stefan, and Neher, Tobias

Abstract

Objective: To explore if experience with hearing aid (HA) amplification affects speech-evoked cortical potentials reflecting comprehension abilities. Design: N400 and late positive complex (LPC) responses as well as behavioural response times to congruent and incongruent digit triplets were measured. The digits were presented against stationary speech-shaped noise 10 dB above individually measured speech recognition thresholds. Stimulus presentation was either acoustic (digits 1-3) or first visual (digits 1-2) and then acoustic (digit 3). Study sample: Three groups of older participants (N = 3 × 15) with (1) pure-tone average hearing thresholds <25 dB HL from 500-4000 Hz, (2) mild-to-moderate sensorineural hearing loss (SNHL) but no prior HA experience, and (3) mild-to-moderate SNHL and >2 years of HA experience. Groups 2-3 were fitted with test devices in accordance with clinical gain targets. Results: No group differences were found in the electrophysiological data. N400 amplitudes were larger and LPC latencies shorter with acoustic presentation. For group 1, behavioural response times were shorter with visual-then-acoustic presentation. Conclusion: When speech audibility is ensured, comprehension-related electrophysiological responses appear intact in individuals with mild-to-moderate SNHL, regardless of prior experience with amplified sound. Further research into the effects of audibility versus acclimatisation-related neurophysiological changes is warranted. [ABSTRACT FROM AUTHOR]

Published

2024

3. Speech Comprehension by Cochlear Implant Users Assessed with Evoked Potentials and Response Times.

Author

Deshpande, Pushkar, Van Yper, Lindsey, Christiansen, Stine, Brandt, Chrisitian, Debener, Stefan, and Neher, Tobias

Abstract

Introduction: Cochlear implant (CI) users differ greatly in their rehabilitation outcomes, including speech understanding in noise. This variability may be related to brain changes associated with intact senses recruiting cortical areas from stimulation-deprived senses. Numerous studies have demonstrated such cross-modal reorganization in individuals with untreated hearing loss. How it is affected by regular use of hearing devices remains unclear, however. To shed light on this, the current study measured cortical responses reflecting comprehension abilities in experienced CI users and normal-hearing controls. Methods: Using multichannel electroencephalography, we tested CI users who had used their devices for at least 12 months and closely matched controls (N = 2 × 13). Cortical responses reflecting comprehension abilities – the N400 and late positive complex (LPC) components – were evoked using congruent and incongruent digit-triplet stimuli. The participants’ task was to assess digit-triplet congruency by means of timed button presses. All measurements were performed in speech-shaped noise 15 dB above individually measured speech recognition thresholds. Three stimulus presentation modes were used: auditory-only, visual-only, and visual-then-auditory. Results: The analyses revealed no group differences in the N400 and LPC responses. In terms of response times, the CI users were slower and differentially affected by the three stimulus presentation modes relative to the controls. Conclusion: Compared to normal-hearing controls, experienced CI users may need more time to comprehend speech in noise. Response times can serve as a proxy for speech comprehension by CI users. [ABSTRACT FROM AUTHOR]

Published

2024

4. Acoustic change complex findings in mild and moderate sensorineural hearing loss

Author

Mona Hamdy, Amira El Shennawy, Noha Hosny, Aya Salah Ezz Elregal, and Hussein Sherif Hamdy

Subjects

Sensorineural, Acoustic change complex, Cortical evoked potentials, Hearing loss, Otorhinolaryngology, RF1-547

Abstract

Abstract Background Auditory electrophysiological tests of the cortex, which are processed in or close to the auditory cortex, are brain reactions to sound. A variation in a continuous stimulus causes the acoustic change complex potential (ACC), which is a wave following the P1-N1-P2 response. Objective To measure the amplitude and latency of different components of ACC in normal subjects and across individuals with mild and moderate degrees of sensorineural hearing loss (SNHL). Patients and methods The study includes 100 individuals with the age ranged from 10 to 50 years with different degrees of SNHL. The ACC was evoked by a change of second formant in the middle of ongoing steady-state synthetic, 3 formant vowels (ooee). The total duration was 500 ms. Changing occurred at 250 ms. Results The SNHL subgroups showed statistically significantly longer P1 and N1 latencies. N1 and P2 amplitudes of ACC onset response were larger with a statistical significance as compared to controls. Post hoc analysis revealed no statistically significant difference between mild and moderate SNHL on ACC parameters. Age showed a significant negative correlation with ACC N1 and P2 latency, ACC P1 and N1 amplitude, and onset P2 latency. Onset response P1 latency was significantly higher in children than adults. Median ACC P1 amplitude significantly increased in children than adults. Conclusion ACC is a reliable tool for testing the auditory cortex function of detecting difference in sounds presented that can be recorded readily in patients with mild and moderate SNHL.

Published

2024

5. Myogenic and cortical evoked potentials vary as a function of stimulus pulse geometry delivered in the subthalamic nucleus of Parkinson's disease patients.

Author

Campbell, Brett A., Bocca, Leonardo Favi, Tiefenbach, Jakov, Hogue, Olivia, Nagel, Sean J., Rammo, Richard, Sanabria, David Escobar, Machado, Andre G., and Baker, Kenneth B.

Subjects

EVOKED potentials (Electrophysiology), PARKINSON'S disease, SUBTHALAMIC nucleus, BRAIN stimulation, DEEP brain stimulation, DIFFERENTIAL geometry

Abstract

Introduction: The therapeutic efficacy of deep brain stimulation (DBS) of the subthalamic nucleus (STN) for Parkinson's disease (PD) may be limited for some patients by the presence of stimulation-related side effects. Such effects are most often attributed to electrical current spread beyond the target region. Prior computational modeling studies have suggested that changing the degree of asymmetry of the individual phases of the biphasic, stimulus pulse may allow for more selective activation of neural elements in the target region. To the extent that different neural elements contribute to the therapeutic vs. side-effect inducing effects of DBS, such improved selectivity may provide a new parameter for optimizing DBS to increase the therapeutic window. Methods: We investigated the effect of six different pulse geometries on cortical and myogenic evoked potentials in eight patients with PD whose leads were temporarily externalized following STN DBS implant surgery. DBS-cortical evoked potentials were quantified using peak to peak measurements and wavelets and myogenic potentials were quantified using RMS. Results: We found that the slope of the recruitment curves differed significantly as a function of pulse geometry for both the cortical- and myogenic responses. Notably, this effect was observed most frequently when stimulation was delivered using a monopolar, as opposed to a bipolar, configuration. Discussion: Manipulating pulse geometry results in differential physiological effects at both the cortical and neuromuscular level. Exploiting these differences may help to expand DBS' therapeutic window and support the potential for incorporating pulse geometry as an additional parameter for optimizing therapeutic benefit. [ABSTRACT FROM AUTHOR]

Published

2023

6. Myogenic and cortical evoked potentials vary as a function of stimulus pulse geometry delivered in the subthalamic nucleus of Parkinson’s disease patients

Author

Brett A. Campbell, Leonardo Favi Bocca, Jakov Tiefenbach, Olivia Hogue, Sean J. Nagel, Richard Rammo, David Escobar Sanabria, Andre G. Machado, and Kenneth B. Baker

Subjects

deep brain stimulation, Parkinson’s disease, cortical evoked potentials, pulse geometry, motor evoked potential, subthalamic nucleus, Neurology. Diseases of the nervous system, RC346-429

Abstract

IntroductionThe therapeutic efficacy of deep brain stimulation (DBS) of the subthalamic nucleus (STN) for Parkinson’s disease (PD) may be limited for some patients by the presence of stimulation-related side effects. Such effects are most often attributed to electrical current spread beyond the target region. Prior computational modeling studies have suggested that changing the degree of asymmetry of the individual phases of the biphasic, stimulus pulse may allow for more selective activation of neural elements in the target region. To the extent that different neural elements contribute to the therapeutic vs. side-effect inducing effects of DBS, such improved selectivity may provide a new parameter for optimizing DBS to increase the therapeutic window.MethodsWe investigated the effect of six different pulse geometries on cortical and myogenic evoked potentials in eight patients with PD whose leads were temporarily externalized following STN DBS implant surgery. DBS-cortical evoked potentials were quantified using peak to peak measurements and wavelets and myogenic potentials were quantified using RMS.ResultsWe found that the slope of the recruitment curves differed significantly as a function of pulse geometry for both the cortical- and myogenic responses. Notably, this effect was observed most frequently when stimulation was delivered using a monopolar, as opposed to a bipolar, configuration.DiscussionManipulating pulse geometry results in differential physiological effects at both the cortical and neuromuscular level. Exploiting these differences may help to expand DBS’ therapeutic window and support the potential for incorporating pulse geometry as an additional parameter for optimizing therapeutic benefit.

Published

2023

7. Evoked potentials generated by deep brain stimulation for Parkinson's disease

Author

Jahrane Dale, Stephen L. Schmidt, Kyle Mitchell, Dennis A. Turner, and Warren M. Grill

Subjects

DBS, Parkinson's disease, Cortical evoked potentials, DBS local Evoked potentials, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background and objectives: The goal of this review is to describe the general features, mechanisms, technical recording factors, and clinical applications of brain evoked potentials (EPs) generated by deep brain stimulation (DBS) for Parkinson's disease (PD). Results: Evoked potentials in response to DBS pulses occur on the timescale of milliseconds and are found both locally at the site of stimulation and remotely in the cortex. DBS evoked potentials arise from a complex integration of antidromic and orthodromic conduction pathway responses, and provide information valuable for understanding the mechanisms and circuits involved in symptom treatment. Furthermore, these signals may provide biomarkers for improving DBS outcomes and function. For example, evoked potentials may have utility as control signals for DBS programming or adaptive DBS. Despite their promise there are still critical gaps in our understanding of the mechanisms by which evoked potentials arise and how these signals may be measured and applied in the clinical setting. Technical challenges of recording a highly transient signal at sufficient resolution without the interference of stimulation artifact present a barrier to understanding better DBS-induced EPs. Conclusions: We describe the current scientific landscape of evoked potentials to facilitate and stimulate further investigation.

Published

2022

8. LA-TT-EALR / PromCERA: Comparison of preoperatively performed electrically evoked auditory potentials at the brainstem and cortical level during local anesthesia

Author

Polterauer Daniel, Mandruzzato Giacomo, Neuling Maike, Polak Marek, Müller Joachim, and Hempel John-Martin

Subjects

promontory stimulation, electrical stimulation, electrical auditory brainstem response, electrical auditory late response, cortical evoked potentials, trans-tympanic, cochlear implant, auditory nerve, Medicine

Abstract

Introduction: In the past years, some groups established methods to use promontory stimulation and subjective responses as a tool for preoperative stimulation of the cochlea before cochlear implant (CI) surgery by a temporary transtympanic needle placed on the middle ear. Our research group tested CI candidates when the presence of the auditory nerve could not be confirmed by other pre-operative tests and analyzed objective results of electrical auditory brainstem response recorded with trans-tympanic promontory stimulation in local anesthesia (LA-TT-EABR) with a “golfclub” electrode placed on the round window niche (Polterauer et al. 2018). However, EABR recording suffers from an electrical artifact from the stimulation and focuses on the excitability of the solely auditory nerve. We hypothesize that late evoked potential response (EALR) can be used for the assessment of the auditory pathway up to the cortical area with less electrical artifact interference. Methods: The trans-tympanic electrically evoked auditory late response in local anesthesia (LA-TT-EALR) was added to our protocol right after the LA-TT-EABR in a unique recording session. In this study, we investigated the feasibility of LA-TT-EALR using MED-EL hardware and software. These two pre-operative trans-tympanic measurements, LATT- EABR and LA-TT-EALR, were compared. Results: In a total n=18 tested subjects, it could be possible to record LA-TT-EABR in 10 and LA-TT-EALR in 13. In contrast to the fact that acoustically evoked auditory late responses are often hard to detect, and an electrical artifact heavily affects LA-TT-EABR, we did not experience these problems on LA-TT-EALR recordings. The matching between two measurements was present in 67% of the cases. Conclusion: LA-TT-EALR may be a complement to the existing state-of-the-art LA-TT-EABR for pre-operative assessment before cochlear implantation offering information about auditory pathways in the auditory brainstem and cortex with a small increase of recording time. The equivalency of these two methods is encouraging.

Published

2022

9. Neurophysiological Evaluation: Techniques and Clinical Evaluation

Author

Patel, Mitul, Thiruppathy, Kumaran, Emmanuel, Anton, Santoro, Giulio A., editor, Wieczorek, Andrzej P., editor, and Sultan, Abdul H., editor

Published

2021

10. Comparing Clinically Applicable Behavioral and Electrophysiological Measures of Speech Detection, Discrimination, and Comprehension.

Author

Deshpande, Pushkar, Brandt, Christian, Debener, Stefan, and Neher, Tobias

Subjects

SPEECH perception, AUDITORY evoked response, MEMORY, HEARING levels, ELECTROENCEPHALOGRAPHY, PHYSIOLOGICAL aspects of speech, INTELLIGIBILITY of speech, NOISE, ELECTROPHYSIOLOGY, DESCRIPTIVE statistics, REACTION time, VISUAL evoked response

Abstract

Effective communication requires good speech perception abilities. Speech perception can be assessed with behavioral and electrophysiological methods. Relating these two types of measures to each other can provide a basis for new clinical tests. In audiological practice, speech detection and discrimination are routinely assessed, whereas comprehension-related aspects are ignored. The current study compared behavioral and electrophysiological measures of speech detection, discrimination, and comprehension. Thirty young normal-hearing native Danish speakers participated. All measurements were carried out with digits and stationary speech-shaped noise as the stimuli. The behavioral measures included speech detection thresholds (SDTs), speech recognition thresholds (SRTs), and speech comprehension scores (i.e., response times). For the electrophysiological measures, multichannel electroencephalography (EEG) recordings were performed. N100 and P300 responses were evoked using an active auditory oddball paradigm. N400 and Late Positive Complex (LPC) responses were evoked using a paradigm based on congruent and incongruent digit triplets, with the digits presented either all acoustically or first visually (digits 1–2) and then acoustically (digit 3). While no correlations between the SDTs and SRTs and the N100 and P300 responses were found, the response times were correlated with the EEG responses to the congruent and incongruent triplets. Furthermore, significant differences between the response times (but not EEG responses) obtained with auditory and visual-then-auditory stimulus presentation were observed. This pattern of results could reflect a faster recall mechanism when the first two digits are presented visually rather than acoustically. The visual-then-auditory condition may facilitate the assessment of comprehension-related processes in hard-of-hearing individuals. [ABSTRACT FROM AUTHOR]

Published

2022

11. The Aging Auditory System: Electrophysiology

Author

Harris, K. C., Fay, Richard R., Series Editor, Popper, Arthur N., Series Editor, Avraham, Karen, Editorial Board Member, Bass, Andrew, Editorial Board Member, Cunningham, Lisa, Editorial Board Member, Fritzsch, Bernd, Editorial Board Member, Groves, Andrew, Editorial Board Member, Hertzano, Ronna, Editorial Board Member, Le Prell, Colleen, Editorial Board Member, Litovsky, Ruth, Editorial Board Member, Manis, Paul, Editorial Board Member, Manley, Geoffrey, Editorial Board Member, Moore, Brian, Editorial Board Member, Simmons, Andrea, Editorial Board Member, Yost, William, Editorial Board Member, Helfer, Karen S., editor, and Bartlett, Edward L., editor

Published

2020

12. Evoked potentials generated by deep brain stimulation for Parkinson's disease.

Author

Dale, Jahrane, Schmidt, Stephen L., Mitchell, Kyle, Turner, Dennis A., and Grill, Warren M.

Abstract

The goal of this review is to describe the general features, mechanisms, technical recording factors, and clinical applications of brain evoked potentials (EPs) generated by deep brain stimulation (DBS) for Parkinson's disease (PD). Evoked potentials in response to DBS pulses occur on the timescale of milliseconds and are found both locally at the site of stimulation and remotely in the cortex. DBS evoked potentials arise from a complex integration of antidromic and orthodromic conduction pathway responses, and provide information valuable for understanding the mechanisms and circuits involved in symptom treatment. Furthermore, these signals may provide biomarkers for improving DBS outcomes and function. For example, evoked potentials may have utility as control signals for DBS programming or adaptive DBS. Despite their promise there are still critical gaps in our understanding of the mechanisms by which evoked potentials arise and how these signals may be measured and applied in the clinical setting. Technical challenges of recording a highly transient signal at sufficient resolution without the interference of stimulation artifact present a barrier to understanding better DBS-induced EPs. We describe the current scientific landscape of evoked potentials to facilitate and stimulate further investigation. • DBS evoked potentials arise from antidromic and orthodromic conduction. • Evoked potentials may have utility in DBS programming, lead placement, and adaptive DBS. • Gaps in mechanistic knowledge and technical barriers presently limit their clinical application. [ABSTRACT FROM AUTHOR]

Published

2022

13. Recurrent inhibition in the cerebral cortex.

Author

Béjar-Alonso, Javier, Martínez-Lorenzana, Guadalupe, González-Hernández, Abimael, Cortes, Ulises, and Condés-Lara, Miguel

Subjects

*CEREBRAL cortex, *TRANSCRANIAL magnetic stimulation, *SENSORY stimulation, *ACTION potentials, *PAIN perception

Abstract

Highlights • Electrocorticogram nociceptive responses are related to a recurrent cortical control. • Electrocorticogram responses could change without correlation with sensorial input. • Local cortical control changes the nociceptive related responses amplitudes. Abstract Neuronal activity can be modulated by endogenous control mechanisms that either facilitate or suppress it. With this idea in mind, we attempted to evaluate and correlate spinal neuronal activity with the amplitude of corticogram (ECoG) event related potentials (ERP) in the presence of nociceptive stimulation in rats. We evaluated the ERP in response to noxious stimuli, endogenous analgesic actions, different frequencies, and heterotopic nociceptive stimulation, as well as in conjunction with recordings from neurons in the spinal cord that are activated by noxious stimuli. Computational tasks enabled us to establish correlations between the amplitude of ERP and neuronal firing of cells in the spinal dorsal horn. Our results show that the ERP amplitude could be modified by previous activity in the cerebral cortex, but the activity in the spinal cord did not change. Previous activity could originate spontaneously or could be driven by sensory stimulation. A recurrent inhibitory cortical action is proposed that could explain the suppression of pain perception during electrical or magnetic transcranial stimulation, as well as during heterotopic stimulation. This study aims to uncover a local recurrent inhibitory cortical action that could modify the sensory information. [ABSTRACT FROM AUTHOR]

Published

2019

14. Untangling wave characteristics in direct axono-cortical evoked potentials to understand cortico-cortical evoked potentials

Author

Giampiccolo, Davide, Cattaneo, Luigi, and Sala, Francesco

Subjects

cortical evoked potentials

Published

2023

15. Does experience with hearing aid amplification influence electrophysiological measures of speech comprehension?

Author

Deshpande P, Brandt C, Debener S, and Neher T

Abstract

Objective: To explore if experience with hearing aid (HA) amplification affects speech-evoked cortical potentials reflecting comprehension abilities., Design: N400 and late positive complex (LPC) responses as well as behavioural response times to congruent and incongruent digit triplets were measured. The digits were presented against stationary speech-shaped noise 10 dB above individually measured speech recognition thresholds. Stimulus presentation was either acoustic (digits 1-3) or first visual (digits 1-2) and then acoustic (digit 3)., Study Sample: Three groups of older participants ( N  = 3 × 15) with (1) pure-tone average hearing thresholds <25 dB HL from 500-4000 Hz, (2) mild-to-moderate sensorineural hearing loss (SNHL) but no prior HA experience, and (3) mild-to-moderate SNHL and >2 years of HA experience. Groups 2-3 were fitted with test devices in accordance with clinical gain targets., Results: No group differences were found in the electrophysiological data. N400 amplitudes were larger and LPC latencies shorter with acoustic presentation. For group 1, behavioural response times were shorter with visual-then-acoustic presentation., Conclusion: When speech audibility is ensured, comprehension-related electrophysiological responses appear intact in individuals with mild-to-moderate SNHL, regardless of prior experience with amplified sound. Further research into the effects of audibility versus acclimatisation-related neurophysiological changes is warranted.

Published

2023

16. Patterned low-frequency deep brain stimulation induces motor deficits and modulates cortex-basal ganglia neural activity in healthy rats.

Author

Oza, Chintan S., Brocker, David T., Behrend, Christina E., and Grill, Warren M.

Abstract

Deep brain stimulation (DBS) is an effective therapy for movement disorders, including Parkinson's disease (PD), although the mechanisms of action remain unclear. Abnormal oscillatory neural activity is correlated with motor symptoms, and pharmacological or DBS treatment that alleviates motor symptoms appears to suppress abnormal oscillations. However, whether such oscillatory activity is causal of motor deficits such as tremor remains unclear. Our goal was to generate abnormal oscillatory activity in the cortex-basal ganglia loop using patterned subthalamic nucleus DBS and to quantify motor behavior in awake healthy rats. Stimulation patterns were designed via model-based optimization to increase power in the low-frequency (7-11 Hz) band because these oscillations are associated with the emergence of motor symptoms in the 6-hydroxydopamine lesioned rat model of parkinsonism. We measured motor activity using a head-mounted accelerometer, as well as quantified neural activity in cortex and globus pallidus (GP), in response to 5 stimulation patterns that generated a range of 7- to 11-Hz spectral power. Stimulation patterns induced oscillatory activity in the low-frequency band in the cortex and GP and caused tremor, whereas control patterns and regular 50-Hz DBS did not generate any such effects. Neural and motor-evoked responses observed during stimulation were synchronous and time-locked to stimulation bursts within the patterns. These results identified elements of irregular patterns of stimulation that were correlated with tremor and tremor-related neural activity in the cortex and basal ganglia and may lead to the identification of the oscillatory activity and structures associated with the generation of tremor activity. NEW & NOTEWORTHY Subthalamic nucleus deep brain stimulation is a promising therapy for movement disorders such as Parkinson's disease. Several groups reported correlation between suppression of abnormal oscillatory activity in the cortex-basal ganglia and motor symptoms, but it remains unclear whether such oscillations play a causal role in the emergence of motor symptoms. We demonstrate generation of tremor and pathological oscillatory activity in otherwise healthy rats by stimulation with patterns that produced increases in low-frequency oscillatory activity. [ABSTRACT FROM AUTHOR]

Published

2018

17. Model-based deconstruction of cortical evoked potentials generated by subthalamic nucleus deep brain stimulation.

Author

Kumaravelu, Karthik, Oza, Chintan S., Behrend, Christina E., and Grill, Warren M.

Abstract

Parkinson's disease is associated with altered neural activity in the motor cortex. Chronic high-frequency deep brain stimulation (DBS) of the subthalamic nucleus (STN) is effective in suppressing parkinsonian motor symptoms and modulates cortical activity. However, the anatomical pathways responsible for STN DBS-mediated cortical modulation remain unclear. Cortical evoked potentials (cEP) generated by STN DBS reflect the response of cortex to subcortical stimulation, and the goal of this study was to determine the neural origin of STN DBS-generated cEP using a two-step approach. First, we recorded cEP over ipsilateral primary motor cortex during different frequencies of STN DBS in awake healthy and unilateral 6-OHDA-lesioned parkinsonian rats. Second, we used a detailed, biophysically based model of the thalamocortical network to deconstruct the neural origin of the recorded cEP. The in vivo cEP included short (R1)-, intermediate (R2)-, and long-latency (R3) responses. Model-based cortical responses to simulated STN DBS matched remarkably well the in vivo responses. The short-latency response was generated by antidromic activation of layer 5 pyramidal neurons, whereas recurrent activation of layer 5 pyramidal neurons via excitatory axon collaterals reproduced the intermediate-latency response. The long-latency response was generated by polysynaptic activation of layer 2/3 pyramidal neurons via the cortico-thalamic-cortical pathway. Antidromic activation of the hyperdirect pathway and subsequent intracortical and cortico-thalamo-cortical synaptic interactions were sufficient to generate cortical potential evoked by STN DBS, and orthodromic activation through basal ganglia-thalamus-cortex pathways was not required. These results demonstrate the utility of cEP to determine the neural elements activated by STN DBS that might modulate cortical activity and contribute to the suppression of parkinsonian symptoms. NEW & NOTEWORTHY Subthalamic nucleus (STN) deep brain stimulation (DBS) is increasingly used to treat Parkinson's disease (PD). Cortical potentials evoked by STN DBS in patients with PD exhibit consistent short-latency (1-3 ms), intermediate-latency (5-15 ms), and long-latency (18-25 ms) responses. The short-latency response occurs as a result of antidromic activation of the hyperdirect pathway comprising corticosubthalamic axons. However, the neural origins of intermediate- and long-latency responses remain elusive, and the dominant view is that these are produced through the orthodromic pathway (basal ganglia-thalamus-cortex). By combining in vivo electrophysiology with computational modeling, we demonstrate that antidromic activation of the cortico-thalamic-cortical pathway is sufficient to generate the intermediate- and long-latency cortical responses to STN DBS. [ABSTRACT FROM AUTHOR]

Published

2018

18. Modulation of specific sensory cortical areas by segregated basal forebrain cholinergic neurons demonstrated by neuronal tracing and optogenetic stimulation in mice

Author

Irene eChaves-Coira, Natali eBarros-Zulaica, Margarita eRodrigo-Angulo, and Angel eNunez

Subjects

Diagonal Band of Broca, Transgenic mice, nucleus basalis magnocellularis, cortical evoked potentials, Cholinergic projections, cholinergic facilitation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neocortical cholinergic activity plays a fundamental role in sensory processing and cognitive functions. Previous results have suggested a refined anatomical and functional topographical organization of basal forebrain (BF) projections that may control cortical sensory processing in a specific manner. We have used retrograde anatomical procedures to demonstrate the existence of specific neuronal groups in the BF involved in the control of specific sensory cortices. Fluoro-gold and Fast Blue fluorescent retrograde tracers were deposited into the primary somatosensory (S1) and primary auditory (A1) cortices in mice. Our results revealed that the BF is a heterogeneous area in which neurons projecting to different cortical areas are segregated into different neuronal groups. Most of the neurons located in the horizontal limb of the diagonal band of Broca (HDB) projected to the S1 cortex, indicating that this area is specialized in the sensory processing of tactile stimuli. However, the nucleus basalis magnocellularis (B) nucleus shows a similar number of cells projecting to the S1 as to the A1 cortices. In addition, we analyzed the cholinergic effects on the S1 and A1 cortical sensory responses by optogenetic stimulation of the BF neurons in urethane-anesthetized transgenic mice. We used transgenic mice expressing the light-activated cation channel, channelrhodopsin-2, tagged with a fluorescent protein (ChR2-YFP) under the control of the choline-acetyl transferase promoter (ChAT). Cortical evoked potentials were induced by whisker deflections or by auditory clicks. According to the anatomical results, optogenetic HDB stimulation induced more extensive facilitation of tactile evoked potentials in S1 than auditory evoked potentials in A1, while optogenetic stimulation of the B nucleus facilitated either tactile or auditory evoked potentials equally. Consequently, our results suggest that cholinergic projections to the cortex are organized into segregated pools of neurons that may modulate specific cortical areas.

Published

2016

19. Reversal of sensory deficit through sacral neuromodulation in an animal model of fecal incontinence.

Author

Evers, J., Devane, L., Carrington, E. V., Scott, S. M., Knowles, C. H., O'Connell, P. R., and Jones, J. F. X.

Subjects

*TREATMENT of fecal incontinence, *SACRAL nerves, *ELECTRIC stimulation, *ANIMAL models in research, *PUDENDAL nerve, *BRAIN physiology, *CEREBRAL cortex

Abstract

Background Sacral neuromodulation ( SNM) is a treatment option for intractable fecal incontinence. The mechanism of action is unclear, however, increasing evidence for afferent somatosensory effects exists. This study's aim was to elucidate effects of acute SNM on the cerebral cortex in a rodent model of pudendal nerve injury. Methods The effects of 14 Hz and 2 Hz SNM on sensory cortical activation were studied. In 32 anesthetized rats, anal canal evoked potentials ( EPs) were recorded over the primary somatosensory cortex. Pudendal nerve injury was produced by 1-hour inflation of two intra-pelvic balloons. Four groups were studied: balloon injury, balloon injury plus either 14 Hz or 2 Hz SNM, sham operation. Immunohistochemistry for the neural plasticity marker polysialylated neural cell adhesion molecule ( PSA- NCAM) positive cells (numerical density and location) in the somatosensory cortex was performed. Key Results Anal EP amplitudes diminished during balloon inflation; 14 Hz SNM restored diminished anal EPs to initial levels and 2 Hz SNM to above initial levels. Evoked potential latencies were prolonged during balloon inflation. The numerical density of PSA- NCAM positive cells increased in the SNM groups, but not in sham or balloon injury without SNM. Stimulated cortices showed clusters of PSA- NCAM positive cells in layers II, IV, and V. Post SNM changes were similar in both SNM groups. Conclusions & Inferences Sacral neuromodulation augments anal representation in the sensory cortex and restores afferent pathways following injury. PSA- NCAM positive cell density is increased in stimulated cortices and positive cells are clustered in layers II, IV, and V. [ABSTRACT FROM AUTHOR]

Published

2016

20. Modulation of Specific Sensory Cortical Areas by Segregated Basal Forebrain Cholinergic Neurons Demonstrated by Neuronal Tracing and Optogenetic Stimulation in Mice.

Author

Chaves-Coira, Irene, Barros-Zulaica, Natali, Rodrigo-Angulo, Margarita, and Núñez, Ángel

Subjects

SENSORY neurons, COGNITIVE ability, PROSENCEPHALON, OPTOGENETICS, SOMATOSENSORY cortex, AUDITORY cortex, LABORATORY mice

Abstract

Neocortical cholinergic activity plays a fundamental role in sensory processing and cognitive functions. Previous results have suggested a refined anatomical and functional topographical organization of basal forebrain (BF) projections that may control cortical sensory processing in a specific manner. We have used retrograde anatomical procedures to demonstrate the existence of specific neuronal groups in the BF involved in the control of specific sensory cortices. Fluoro-Gold (FlGo) and Fast Blue (FB) fluorescent retrograde tracers were deposited into the primary somatosensory (S1) and primary auditory (A1) cortices in mice. Our results revealed that the BF is a heterogeneous area in which neurons projecting to different cortical areas are segregated into different neuronal groups. Most of the neurons located in the horizontal limb of the diagonal band of Broca (HDB) projected to the S1 cortex, indicating that this area is specialized in the sensory processing of tactile stimuli. However, the nucleus basalis magnocellularis (B) nucleus shows a similar number of cells projecting to the S1 as to the A1 cortices. In addition, we analyzed the cholinergic effects on the S1 and A1 cortical sensory responses by optogenetic stimulation of the BF neurons in urethaneanesthetized transgenic mice. We used transgenic mice expressing the light-activated cation channel, channelrhodopsin-2, tagged with a fluorescent protein (ChR2-YFP) under the control of the choline-acetyl transferase promoter (ChAT). Cortical evoked potentials were induced by whisker deflections or by auditory clicks. According to the anatomical results, optogenetic HDB stimulation induced more extensive facilitation of tactile evoked potentials in S1 than auditory evoked potentials in A1, while optogenetic stimulation of the B nucleus facilitated either tactile or auditory evoked potentials equally. Consequently, our results suggest that cholinergic projections to the cortex are organized into segregated pools of neurons that may modulate specific cortical areas. [ABSTRACT FROM AUTHOR]

Published

2016

21. Electrophysiological and behavioural processing of complex acoustic cues.

Author

Mathew, Abin Kuruvilla, Purdy, Suzanne C., Welch, David, Pontoppidan, Niels H., and Rønne, Filip Marchman

Subjects

*ELECTROPHYSIOLOGY, *ABSOLUTE pitch, *HEARING impaired, *INFORMATION processing, *ACOUSTIC stimulation, *AUDITORY perception

Abstract

Objectives: To examine behavioural and neural processing of pitch cues in adults with normal hearing (NH) and adults with sensorineural hearing loss (SNHL). Methods: All participants completed a test of behavioural sensitivity to pitch cues using the TFS1 test (Moore and Sek, 2009a). Cortical potentials (N1, P2 and acoustic change complex) were recorded in response to frequency shifted (deltaF) tone complexes in an 'ABA' pattern. Results: The SNHL group performed more poorly than the NH group for the TFS1 test. P2 was more reflective of pitch differences between the complexes than N1. The presence of acoustic change complex in response to the TFS transitions in the ABA stimulus varied with deltaF. Acoustic change complex amplitudes were reduced for the group with SNHL compared to controls. Conclusion: Behavioural performance and cortical responses reflect pitch processing depending on the salience of pitch cues. [ABSTRACT FROM AUTHOR]

Published

2016

22. Cortical encoding of speech acoustics: Effects of noise and amplification.

Author

Kuruvilla-Mathew, Abin, Purdy, Suzanne C, and Welch, David

Subjects

*ANALYSIS of variance, *EVOKED potentials (Electrophysiology), *HEARING aids, *NOISE, *RESEARCH funding, *STATISTICS, *T-test (Statistics), *DATA analysis, *REPEATED measures design, PHYSIOLOGICAL aspects of speech

Abstract

Objective:To investigate speech stimuli and background-noise-dependent changes in cortical auditory-evoked potentials (CAEPs) in unaided and aided conditions, and determine amplification effects on CAEPs.Design:CAEPs to naturally produced syllables in quiet and in multi-talker babble were recorded, with and without a hearing aid in the right ear. At least 300 artifact-free trials for each participant were required to measure latencies and amplitudes of CAEPs. Acoustic characteristics of the hearing-aid-transduced stimuli were measured using in-the-canal probe microphone measurements to determine unaided versus aided SNR and to compare stimulus acoustic characteristics to CAEP findings.Study sample:Ten participants with normal hearing, aged 19 to 35 years.Results:CAEP latencies and amplitudes showed significant effects of speech contrast, background noise, and amplification. N1 and P2 components varied differently across conditions. In general, cortical processing in noise was influenced by SNR and the spectrum of the speech stimuli. Hearing-aid-induced spectral and temporal changes to the speech stimuli affected P1-N1-P2 components. Amplification produced complex effects on latencies and amplitudes across speech stimuli and CAEP components, and for quiet versus noise conditions.Conclusion:CAEP components reflect spectral and temporal characteristics of speech stimuli and acoustic changes induced by background noise and amplification. [ABSTRACT FROM PUBLISHER]

Published

2015

23. Rapid balloon distension as a tool to study cortical processing of visceral sensations and pain.

Author

Lelic, D., Nissen, T. D., Brock, C., Aziz, Q., and Drewes, A. M.

Subjects

*VISCERAL pain, *CENTRAL nervous system physiology, *EVOKED potentials (Electrophysiology), *ANALGESICS, *DRUG efficacy

Abstract

Background The processing of discomfort and pain in the central nervous system is normally studied with experimental methods, but it is mandatory that they are reliable over time to ensure that any interventions will result in valid results. We investigated reliability of rapid balloon distension in the rectum to elicit cortical evoked potentials ( CEPs) to study the reliability of central processing of visceral sensation and discomfort/pain. Methods Eighteen healthy volunteers had two series of rectal balloon distensions performed on two separate days. Individualized balloon pressure, corresponding to pain detection threshold or to the maximum possible distension (30 psi), was used. Within- and between days reliability was measured in terms of amplitudes and latencies of the CEP global field power, topography and underlying brain networks. Key Results There were two prominent peaks in the CEP recordings at mean latencies of 157 and 322 ms. There were no differences in latencies or amplitudes ( p = 0.3) and they passed the Bland-Altman test for reproducibility. There were no differences in topographies ( p > 0.7). Brain source connectivity revealed the cingulate-operculum network as the most consistent network within and between subjects. There were no differences in the location of brain sources in this network ( p = 0.9) and the source coordinates were reproducible. Finally, the cingulate source generally had higher strength than operculum source ( p < 0.001). Conclusions & Inferences A reliable method to study central mechanisms underlying visceral sensation and pain was established. The method may improve our understanding of visceral pain and could be an objective method for studying efficacy of analgesics on visceral pain. [ABSTRACT FROM AUTHOR]

Published

2015

24. Aided cortical response, speech intelligibility, consonant perception and functional performance of young children using conventional amplification or nonlinear frequency compression.

Author

Zhang, Vicky W., Ching, Teresa Y.C., Van Buynder, Patricia, Hou, Sanna, Flynn, Christopher, Burns, Lauren, McGhie, Karen, and Wong, Angela O.C.

Subjects

*INTELLIGIBILITY of speech, *HEARING disorders in children, *HEARING aids, *CONSONANTS, *SENSORY perception, *PERFORMANCE evaluation, *NONLINEAR analysis

Abstract

Objective The aim of this study was to compare conventional processing with nonlinear frequency compression (NLFC) in hearing aids for young children with bilateral hearing loss. Methods Sixty-four children aged between 2 and 7 years with bilateral hearing aids were recruited. Evaluations of cortical responses, speech intelligibility rating, consonant perception and functional performance were completed with the children wearing their personal hearing aids with conventional processing. The children were then refitted with new hearing aids with NLFC processing. Following a six-week familiarization period, they were evaluated again while using their hearing aids with NLFC activated. Results The mean speech intelligibility rating and the number of cortical responses present for /s/were significantly higher when children were using NLFC processing than conventional processing in their hearing aids ( p < 0.05). Parents judged the children's functional real life performance with the NLFC hearing aids to be similar or better than that with the children's own hearing aids in both quiet and noisy situations. The mean percent consonant score was higher with NLFC processing compared to conventional processing, but the difference did not reach the 5% significance level ( p = 0.056). An overall figure of merit (FOM) was calculated by averaging the standardized difference scores between processing schemes for all measures. Regression analysis revealed that, on average, greater advantage for NLFC processing was associated with poorer hearing at 4 kHz. Conclusions Compared to conventional processing, the use of NLFC was, on average, effective in increasing audibility of /s/as measured by cortical evaluations, and higher ratings on speech intelligibility and functional performance in real life by parents. On average, greater benefits from NLFC processing was associated with poorer hearing at 4 kHz. [ABSTRACT FROM AUTHOR]

Published

2014

25. The Acoustic Change Complex in Young Children with Hearing Loss: A Preliminary Study.

Author

Martinez, Amy S., Eisenberg, Laurie S., and Boothroyd, Arthur

Subjects

*AUDITORY cortex, *AUDITORY evoked response, *ELECTRODES, *ELECTROENCEPHALOGRAPHY, *HEARING disorders in children, *RESEARCH funding, *SPEECH perception, *CONTINUING education units, *ACOUSTIC stimulation

Abstract

The acoustic change complex (ACC) is a cortical auditory evoked potential elicited in response to a change in an ongoing sound. The ACC may have promise for assessing speech perception in infants and toddlers. In this preliminary study, the ACC was elicited in adults and young children in response to changes in speech stimuli representing vowel height /u/-/a/ and vowel place /u/-/i/ contrasts. The participants were adults with normal hearing (n = 3), children with normal hearing (n = 5), and children with mild to moderately severe bilateral sensorineural hearing loss (n = 5). The children with hearing loss were hearing aid users. The ages ranged from 2 years 3 months to 6 years 3months for the children and 44 to 55 years for the adults. Robust P1-N1-P2 responses were present for the adults and P1-N2 responses were present for all but the youngest child with hearing loss. The ACC response for the vowel place contrast was less robust than that for the vowel height contrast in one child with substantial hearing loss. The findings from this preliminary study support the conclusion that the ACC can be used successfully to assess auditory resolution in most young children. [ABSTRACT FROM AUTHOR]

Published

2013

26. Recurrent inhibition in the cerebral cortex

Author

Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Universitat Politècnica de Catalunya. KEMLG - Grup d'Enginyeria del Coneixement i Aprenentatge Automàtic, Béjar Alonso, Javier, Martínez Lorenzana, Guadalupe, González Hernández, Abimael, Cortés García, Claudio Ulises, Condés Lara, Miguel, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Universitat Politècnica de Catalunya. KEMLG - Grup d'Enginyeria del Coneixement i Aprenentatge Automàtic, Béjar Alonso, Javier, Martínez Lorenzana, Guadalupe, González Hernández, Abimael, Cortés García, Claudio Ulises, and Condés Lara, Miguel

Abstract

Neuronal activity can be modulated by endogenous control mechanisms that either facilitate or suppress it. With this idea in mind, we attempted to evaluate and correlate spinal neuronal activity with the amplitude of corticogram (ECoG) event related potentials (ERP) in the presence of nociceptive stimulation in rats. We evaluated the ERP in response to noxious stimuli, endogenous analgesic actions, different frequencies, and heterotopic nociceptive stimulation, as well as in conjunction with recordings from neurons in the spinal cord that are activated by noxious stimuli. Computational tasks enabled us to establish correlations between the amplitude of ERP and neuronal firing of cells in the spinal dorsal horn. Our results show that the ERP amplitude could be modified by previous activity in the cerebral cortex, but the activity in the spinal cord did not change. Previous activity could originate spontaneously or could be driven by sensory stimulation. A recurrent inhibitory cortical action is proposed that could explain the suppression of pain perception during electrical or magnetic transcranial stimulation, as well as during heterotopic stimulation. This study aims to uncover a local recurrent inhibitory cortical action that could modify the sensory information., Postprint (author's final draft)

Published

2019

27. Visceral pain readouts in experimental medicine.

Author

Blackshaw, L. A.

Subjects

*VISCERA, *PAIN, *SPINAL cord, *BRAIN imaging, *EVOKED potentials (Electrophysiology)

Abstract

Visceral pain is studied at the level of the primary afferent fiber, spinal cord, subcortical, and cortical levels electrophysiologically and using brain imaging, which provides an objective measure of excitation at each level. However, correlation of these with actual perception of pain in conscious animal models has been problematic, and we rely on indirect measures in most preclinical research. The main method is electromyographic recording of abdominal muscle contractions in response to colorectal distension (CRD), which may reflect reflexes set up at several levels of the above pathway. Several experimental treatments for visceral pain have failed in clinical trials, possibly because of failure to translate from preclinical observations on CRD responses in animals to perception of spontaneous events in patients. Therefore, we need more objective outcomes. In this NGM issue, Hultin et al. show feasibility of routine recordings of cortical evoked electrical potentials (CEP) using implanted cranial electrodes in response to graded CRD in rats. CEP comprised three temporal components with latencies of approximately 20-50 ms, 90-180 ms, and 300 ms, which were reproducible and graded in intensity and latency with distension pressure. From this basic study it is clear that colorectal evoked potentials can be recorded reliably in awake rats and may serve as an objective marker for centrally projecting visceral sensory signals in rodents. It remains to be seen how these responses are affected by drugs under development for clinical management of visceral pain, and if there is improved translation. [ABSTRACT FROM AUTHOR]

Published

2012

28. A bi-directional assessment of the human brain-anorectal axis.

Author

REMES-TROCHE, J. M., TANTIPHLACHIVA, K., ATTALURI, A., VALESTIN, J., YAMADA, T., HAMDY, S., and RAO, S. S. C.

Subjects

*ATTENTION-deficit hyperactivity disorder, *GASTROINTESTINAL diseases, *EVOKED potentials (Electrophysiology), *ELECTRODES, SEX differences (Biology)

Abstract

Brain-gut dysfunction has been implicated in gastrointestinal disorders but a comprehensive test of brain-gut axis is lacking. We developed and tested a novel method for assessing both afferent anorectal-brain function using cortical evoked potentials (CEP), and efferent brain-anorectal function using motor evoked potentials (MEP). Cortical evoked potentials was assessed following electrical stimulations of anus and rectum with bipolar electrodes in 26 healthy subjects. Anorectal MEPs were recorded following transcranial magnetic stimulation (TMS) over paramedian motor cortices bilaterally. Anal and rectal latencies/amplitudes for CEP and MEP responses and thresholds for first sensation and pain (mA) were analyzed and compared. Reproducibility and interobserver agreement of responses were examined. Reproducible polyphasic rectal and anal CEPs were recorded in all subjects, without gender differences, and with negative correlation between BMI and CEP amplitude (r −0.66, P = 0.001). Transcranial magnetic stimulation evoked triphasic rectal and anal MEPs, without gender differences. Reproducibility for CEP and MEP was excellent (CV <10%). The inter-rater CV for anal and rectal MEPs was excellent (ICC 97-99), although there was inter-subject variation. Combined CEP and MEP studies offer a simple, inexpensive and valid method of examining bidirectional brain-anorectal axes. This comprehensive method could provide mechanistic insights into lower gut disorders. [ABSTRACT FROM AUTHOR]

Published

2011

29. Effects of ethylenediamine – a putative GABA-releasing agent – on rat hippocampal slices and neocortical activity in vivo

Author

Stone, Trevor W., Lui, Caleb, and Addae, Jonas I.

Subjects

*ETHYLENEDIAMINE, *GABA, *HIPPOCAMPUS (Brain), *EVOKED potentials (Electrophysiology), *BRAIN function localization, *LABORATORY rats

Abstract

Abstract: The simple diamine diaminoethane (ethylenediamine, EDA) has been shown to activate GABA receptors in the central and peripheral nervous systems, partly by a direct action and partly by releasing endogenous GABA. These effects have been shown to be produced by the complexation of EDA with bicarbonate to form a carbamate. The present work has compared EDA, GABA and β-alanine responses in rat CA1 neurons using extracellular and intracellular recordings, as well as neocortical evoked potentials in vivo. Superfusion of GABA onto hippocampal slices produced depolarisation and a decrease of field epsps, both effects fading rapidly, but showing sensitivity to blockade by bicuculline. EDA produced an initial hyperpolarisation and increase of extracellular field epsp size with no fade and only partial sensitivity to bicuculline, with subsequent depolarisation, while β-alanine produces a much larger underlying hyperpolarisation and increase in fepsps, followed by depolarisation and inhibition of fepsps. The responses to β-alanine, but not GABA or EDA, were blocked by strychnine. In vivo experiments, recording somatosensory evoked potentials, confirmed that EDA produced an initial increase followed by depression, and that this effect was not fully blocked by bicuculline. Overall the results indicate that EDA has actions in addition to the activation of GABA receptors. These actions are not attributable to activation of β-alanine-sensitive glycine receptors, but may involve the activation of sites sensitive to adipic acid, which is structurally equivalent to the dicarbamate of EDA. The results emphasise the complex pharmacology of simple amines in bicarbonate-containing solutions. [ABSTRACT FROM AUTHOR]

Published

2011

30. Cortical mechanisms underlying stretch reflex adaptation to intention: A combined EEG–TMS study

Author

Spieser, L., Meziane, H.B., and Bonnard, M.

Subjects

*CEREBRAL cortex, *REFLEXES, *ELECTROENCEPHALOGRAPHY, *SENSORIMOTOR cortex, *PERTURBATION theory, *TRANSCRANIAL magnetic stimulation, *BRAIN physiology

Abstract

Abstract: During voluntary motor acts, potential perturbations due to transient external forces are counteracted very quickly by short- and long-latency stretch reflexes (SLSR and LLSR, respectively). The LLSR, presumably linked to a transcortical loop, can be modulated by the subjects'' intention. Here, we used combined TMS–EEG to study cortical mechanisms involved in this intention-related modulation both before and during the reaction to a mechanical perturbation. Subjects had to prepare for a brisk wrist extension under the instruction either to ‘resist’ the perturbation or to ‘let-go’. Following the perturbation, the early cortical evoked activity (45–75ms) was greater in the ‘let-go’ condition; moreover, its amplitude was negatively correlated with the LLSR amplitude, regardless of condition. After 100ms the pattern reversed, the late evoked activity (presumably linked to the voluntary reaction) was greater in the ‘resist’ condition. The early and late evoked activities also differed in their topography. Therefore, the cortical mechanisms involved in the intention-related LLSR modulation differ from those involved in the voluntary reaction. In addition, in response to a single-pulse TMS delivered during the expectation of the mechanical perturbation, the TMS-evoked N100 amplitude decreased when subjects intended to ‘let-go’, suggesting anticipatory decreased activity of intracortical inhibitory sensorimotor networks. Taken together, these results support the idea that anticipatory processes preset the sensorimotor cortex so as to adapt its early reaction to the perturbation relative to the subjects'' intention. [Copyright &y& Elsevier]

Published

2010

31. Neurophysiological evaluation of convergent afferents innervating the human esophagus and area of referred pain on the anterior chest wall.

Author

Hobson, Anthony R., Chizh, Boris, Hicks, Kirsty, Aziz, Qasim, Worthen, Sian, Lawrence, Philip, Dewit, Odile, Boyle, Yvonne, and Dukes, George

Subjects

*ESOPHAGUS diseases, *CHEST pain, *SPINAL cord abnormalities, *HEAT pulses, *NEUROPHYSIOLOGY, *EVOKED potentials (Electrophysiology), *MORPHOLOGY

Abstract

Noxious stimuli in the esophagus cause pain that is referred to the anterior chest wall because of convergence of visceral and somatic afferents within the spinal cord. We sought to characterize the neurophysiological responses of these convergent spinal pain pathways in humans by studying 12 healthy subjects over three visits (V1, V2, and V3). Esophageal pain thresholds (Eso-PT) were assessed by electrical stimulation and anterior chest wall pain thresholds (ACW-PT) by use of a contact heat thermode. Esophageal evoked potentials (EEP) were recorded from the vertex following 200 electrical stimuli, and anterior chest wall evoked potentials (ACWEP) were recorded following 40 heat pulses. The fear of pain questionnaire (FPQ) was administered on Vi. Statistical data are shown as point estimates of difference ± 95% confidence interval. Pain thresholds increased between V1 and V3 [Eso-PT: V1-V3 -17.9 mA (-27.9, -7.9) P < 0.001; ACW-PT: V1-V3 = -3.38°C (-5.33,-1.42) P = 0.001]. The morphology of cortical responses from both sites was consistent and equivalent [P1, N1, P2, N2 complex, where P1 and P2 are is the first and second positive (downward) components of the CEP waveform, respectively, and N1 and N2 are the first and second negative (upward) components, respectively], indicating activation of similar cortical networks. For EEP, N1 and P2 latencies decreased between V1 and V3 [N1: V1-V3 = 13.7 (1.8, 25.4) P = 0.02; P2: V1-V3 = 32.5 (11.7, 53.2) P = 0.003], whereas amplitudes did not differ. For ACWEP, P2 latency increased between V1 and V3 [-35.9 (-60, -11.8) P 0.005] and amplitudes decreased [P1-NI: V1-V3 = 5.4 (2.4, 8.4)P 0.01; P2-N2: 6.8 (3.4, 10.3) P < 0.001]. The mean P1 latency of EEP over three visits was 126.6 ms and that of ACWEP was 101.6 ms, reflecting afferent transmission via Aδ fibers. There was a significant negative correlation between FPQ scores and Eso-PT on V1 (r -0.57, P = 0.05). These data provide the first neurophysiological evidence of convergent esophageal and somatic pain pathways in humans. [ABSTRACT FROM AUTHOR]

Published

2010

32. Cortical potentials as predictors of outcomes with adult cochlear implant recipients – preliminary findings.

Author

PSARROS, C., BATE, K., SANLI, H., AMOS, C., BRAY, M., and STAWSKI, R.

Subjects

*COCHLEAR implants, *SPEECH perception, *ELECTROPHYSIOLOGY, *AUDIOMETRY, *HEARING

Abstract

A proportion of adult cochlear implant recipients report an inability to use the signal from their cochlear implant effectively at varying post-operative intervals following cochlear implantation. Some of these recipients report deterioration in their ability to use the implant signal and do not benefit from map optimization. Others never attain the level of outcome that they had expected. Speech perception, functional listening in certain circumstances and EABR may demonstrate high performance with the cochlear implant. However recipients report extreme difficulty in noise and distortion of the signal with the cochlear implant. Commonly, environmental sounds overshadow speech. Cortical evoked potentials were measured in a group of recipients who had been reporting such difficulties. They revealed potential processing abnormalities at the level of the cortex in some of these cases. This paper will review the five result profiles that were obtained based on pre-operative, intra-operative and post-operative outcomes. It will begin to explore the value of predictive factors that may indicate the difficulties these recipients would experience post-operatively. Further, management strategies to evaluate and assist in optimizing performance will be addressed. Copyright © 2009 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2009

33. Oesophageal afferent pathway sensitivity in non-erosive reflux disease.

Author

HOBSON, A. R., FURLONG, P. L., and AZIZ, Q.

Subjects

*AFFERENT pathways, *ESOPHAGUS, *EVOKED potentials (Electrophysiology), *ELECTROENCEPHALOGRAPHY, *GASTROESOPHAGEAL reflux

Abstract

Patients with non-erosive reflux disease (NERD) report symptoms which commonly fail to improve on conventional antireflux therapies. Oesophageal visceral hyperalgaesia may contribute to symptom generation in NERD and we explore this hypothesis using oesophageal evoked potentials. Fifteen endoscopically confirmed NERD patients (four female, 29–56 years) plus 15 matched healthy volunteers (four female, 23–56 years) were studied. All patients had oesophageal manometry/24-h pH monitoring and all subjects underwent evoked potential and sensory testing, using electrical stimulation of the distal oesophagus. Cumulatively, NERD patients had higher sensory thresholds and increased evoked potential latencies when compared to controls ( P = 0.01). In NERD patients, there was a correlation between pain threshold and acid exposure as determined by DeMeester score ( r = 0.63, P = 0.02), with increased oesophageal sensitivity being associated with lower DeMeester score. Reflux negative patients had lower pain thresholds when compared to both reflux positive patients and controls. Evoked potentials were normal in reflux negative patients but significantly delayed in the reflux positive group ( P = 0.01). We demonstrate that NERD patients form a continuum of oesophageal afferent sensitivity with a correlation between the degree of acid exposure and oesophageal pain thresholds. We provide objective evidence that increased oesophageal pain sensitivity in reflux negative NERD is associated with heightened afferent sensitivity as normal latency evoked potential responses could be elicited with reduced afferent input. Increased oesophageal afferent pain sensitivity may play an important role in a subset of NERD and could offer an alternate therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2008

34. Conceptual and perceptual memory: Retrieval orientations reflected in event-related potentials

Author

Stenberg, Georg, Johansson, Mikael, and Rosén, Ingmar

Subjects

*EVOKED potentials (Electrophysiology), *MEMORY, *ELECTROPHYSIOLOGY, *NEUROPSYCHOLOGY

Abstract

Abstract: In memory retrieval, search can be guided by mental sets towards different subsets of the available evidence. Such retrieval orientations have been suggested to leave an imprint on event-related potentials (ERPs). The present study aimed at characterizing orientations towards perceptual and conceptual evidence in a recognition task, where pictures and words were studied. In the recognition test, items were presented in either the same format as at study or in the opposite format. A between-subjects manipulation modified the task, instructing an Exclusion group to endorse only items that preserved their format from study, and an Inclusion group to endorse both formats of a studied item. It was hypothesized that exclusion instructions would instil a perceptual and inclusion instructions a conceptual orientation. As a corollary, instructions were expected to dissociate the high end from the low end of the picture–word mirror effect. This expectation was confirmed in a behavioural experiment. In an ERP experiment, retrieval orientations were examined in their effects on correct rejections of new pictures and words. Confirming earlier findings [Hornberger, M., Morcom, A. M., & Rugg, M. D. (2004). Neural correlates of retrieval orientation: effects of study-test similarity. Journal of Cognitive Neuroscience, 16(7), 1196–1210], a perceptual orientation was accompanied by more positive-going amplitudes over widespread areas. The difference was larger for pictures than for words, supporting behavioural evidence that new pictures are more easily rejected on perceptual grounds than are new words. The Exclusion group showed no ERP evidence of cross-format old–new effects, despite reaction times indicative of involuntary conceptual recognition. The results indicate that perceptual and conceptual retrieval orientations imprint distinct signatures on ERPs. They further suggest that the examined old–new effects in ERPs are mainly linked to voluntary aspects of memory, even in a task where involuntary memory exerts effects on reaction times. [Copyright &y& Elsevier]

Published

2006

35. Characterization of cortical potentials evoked by oesophageal balloon distention and acid perfusion in patients with functional heartburn.

Author

Yang, M., Li, Z-S., Xu, X-R., Fang, D-C., Zou, D-W., Xu, G-M., Sun, Z-X., and Tu, Z-X.

Subjects

*HEARTBURN, *SYMPTOMS, *NEUROPHYSIOLOGY, *EVOKED potentials (Electrophysiology), *ELECTROENCEPHALOGRAPHY

Abstract

Oesophageal visceral hypersensitivity is thought to be important in generating symptoms in functional heartburn (FH). However, the neurophysiological mechanisms involved are poorly understood. The aim of this study was to compare the characteristics of oesophageal cortical evoked potentials (CEPs) induced by balloon distension and acid perfusion in FH and controls. We studied 21 FH patients and 12 healthy volunteers. Oesophageal mechanical stimulation was performed using the specially constructed mechanical pump. CEPs were recorded using the 10–20 international system of electroencephalogram recording. Oesophageal distention elicited recognizable, reproducible and muti-peak CEPs. CEP latencies for N1, P1 and N2 components were significantly shorter ( P = 0.016, P = 0.003 and P = 0.031, respectively) in FH than in controls before perfusion. Acid perfusion significantly decreased the latencies of N1, P1 and N2 ( P = 0.022, P = 0.007 and P = 0.041, respectively) and significantly increased the amplitude of P1–N2 components ( P = 0.020) in FH patients, but not in controls. In conclusion, cortical evoked potential responses evoked by oesophageal distention and acid perfusion were greater in FH than in controls, suggesting that dysfunction of visceral neural pathways and/or alterations in cortical processing may produce and mediate oesophageal hypersensitivity in FH. These findings provide the evidence that central sensitization contributes to the development and maintenance of oesophageal hypersensitivity. [ABSTRACT FROM AUTHOR]

Published

2006

36. Cortical auditory evoked potentials in autism: a review

Author

Bomba, Marie D. and Pang, Elizabeth W.

Subjects

*AUDITORY evoked response, *GENOMES, *ETIOLOGY of diseases, *AUTISM

Abstract

The question of etiology in autism remains elusive primarily due to the fact that autism does not result from a single dysfunction but is multi-faceted in nature. Investigations into etiology have ranged from identifying abnormalities in the genome to describing structural/functional brain abnormalities. Bearing in mind the risk of over-simplification, there is still utility in isolating a specific deficit to examine its etiologic contribution. It is known that individuals with autism have difficulty processing auditory information at the cortical level but this is not consistently seen subcortically. In recent years, cortical auditory processing has been extensively researched using event-related potentials (ERPs); however, these results in relation to autism have not been reviewed. This paper will examine this literature and discuss implications for future research. [Copyright &y& Elsevier]

Published

2004

37. Electrophysiological evidence for the existence of a posterior cortical–prefrontal–basal forebrain circuitry in modulating sensory responses in visual and somatosensory rat cortical areas

Author

Golmayo, L., Nuñez, A., and Zaborszky, L.

Subjects

*PREFRONTAL cortex, *VISUAL cortex

Abstract

The prefrontal cortex (PFC) receives input from sensory neocortical regions and sends projections to the basal forebrain (BF). The present study tested the possibility that pathways from sensory cortical regions via the PFC-BF and from the BF back to specific sensory cortical areas could modulate sensory responses. Two prefrontal areas that responded to stimulation of the primary somatosensory and visual cortices were delineated: an area encompassing the rostral part of the cingulate cortex that responded to visual cortex stimulation, and a region dorso-lateral to the first in the precentral-motor association area that reacted to somatosensory cortex stimulation. Moreover, BF neurons responded to PFC electrical stimulation. They were located in the ventral pallidum, substantia innominata and the horizontal limb of the diagonal-band areas. Of the responsive BF neurons 42% reacted only to stimulation of ‘visually-responsive,’ 33% responded only to the ‘somatosensory-responsive’ prefrontal sites and the remaining neurons reacted to both prefrontal cortical areas. The effect of BF and PFC stimulations on somatosensory and visual-evoked potentials was tested. BF stimulation increased the amplitude of both sensory-evoked potentials. However, stimulation of the ‘somatosensory-responsive’ prefrontal area increased only somatosensory-evoked potentials while ‘visually-responsive’ prefrontal-area stimulation increased only visual-evoked potentials. Atropine blocked both facilitatory effects.The proposed cortico–prefronto–basalo–cortical circuitry may have an important role in cortical plasticity and selective attention. [Copyright &y& Elsevier]

Published

2003

38. Cerebral Response to Electric Stimulation of the Colon and Abdominal Skin in Healthy Subjects and Patients with Irritable Bowel Syndrome.

Author

Rössel, P., Pedersen, P., Niddam, D., Arendt-Nielsen, L., Chen, A. C. N., and Drewes, A. M.

Subjects

*IRRITABLE colon, *EVOKED potentials (Electrophysiology), *ELECTRIC stimulation, *PAIN

Abstract

Background: Visceral hyperalgesia may play an important part in the pathophysiology of the irritable bowel syndrome (IBS). We investigated the neuronal afferent pathways in healthy volunteers and IBS patients by recording evoked potentials (EPs) elicited by electrical stimulation of the colon and abdominal skin inside and outside the referred pain area. Methods: Six healthy subjects and nine IBS patients met the inclusion criteria. Morphology and topography of EPs to painful electrical stimuli were estimated in the rectosigmoid junction and on the skin inside/outside the referred pain areas. Results: The EPs to painful stimuli of the gut showed a shorter latency and a smaller amplitude of the first positive peak (P1) in the IBS group. The controls had a mid-latency frontal positive component after 100 ms, whereas no reliable early activation was seen in the IBS patients. In controls, a single late (> 150 ms) positive component was seen, whereas the late component was biphasic in the IBS group. The EPs to painful stimuli of the two skin areas differed in IBS patients, but not in controls. Conclusion: Differences in the EPs to electrical painful stimulation of the sigmoid colon and skin inside/outside the experimentally evoked referred pain area were seen comparing healthy subjects and IBS patients. The results indicate altered central nervous system responses. [ABSTRACT FROM AUTHOR]

Published

2001

39. Comparison of cortical potentials evoked by mechanical and electrical stimulation of the rectum.

Author

Hobday, D. I., Hobson, A., Furlong, P. L., Thompson, D. G., and Aziz, Q.

Subjects

*EVOKED potentials (Electrophysiology), *RECTUM, *ELECTRIC stimulation, *SENSES

Abstract

Patients with irritable bowel syndrome have heightened perception of gut sensation. The mechanisms responsible for this remain unknown, due to current poor knowledge of the central processing of gut sensation. Cortical evoked potentials (CEPs) have been recorded following both electrical rectal stimulation (ERS) and mechanical rectal stimulation (MRS). Because of the lack of a direct comparison of these two methods, their robustness for future clinical use remains unknown. The aim of our study was to compare the characteristics of CEPs following ERS and MRS. CEPs were recorded from the vertex in 14 healthy volunteers following ERS with bipolar ring electrodes, and MRS by repeated rectal distension. CEPs were recorded in all subjects following electrical stimulation, but only in 11 subjects following mechanical stimulation. In comparison with electrical stimulation, mechanical stimulation produced CEPs with a smaller amplitude and longer latency. However, the morphology of CEPs following electrical and mechanical rectal stimulation was similar, with no difference in the interpeak latencies. In conclusion, we have demonstrated that electrical rectal stimulation is a more reliable stimulus for recording CEPs. The similarity of the morphology and interpeak latencies of the CEPs suggests that both stimuli are activating a similar network of cortical neurones. [ABSTRACT FROM AUTHOR]

Published

2000

40. Recurrent inhibition in the cerebral cortex

Author

Miguel Condés-Lara, Guadalupe Martínez-Lorenzana, Javier Béjar-Alonso, Ulises Cortés, Abimael González-Hernández, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, and Universitat Politècnica de Catalunya. KEMLG - Grup d'Enginyeria del Coneixement i Aprenentatge Automàtic

Subjects

0301 basic medicine, Nociception, Action Potentials, Pain, Stimulation, Sensory system, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Enginyeria electrònica::Instrumentació i mesura::Sensors i actuadors [Àrees temàtiques de la UPC], Informàtica::Aplicacions de la informàtica [Àrees temàtiques de la UPC], Noxious stimulus, Animals, Medicine, Premovement neuronal activity, Rats, Wistar, Evoked Potentials, Cerebral Cortex, Neurons, Spinal cord, Sensory stimulation therapy, business.industry, General Neuroscience, Cerebral cortex, Cortical evoked potentials, Electric Stimulation, Unitary activity, Escorça cerebral, 030104 developmental biology, medicine.anatomical_structure, Biosensors, Medul·la espinal, Spinal Cord, business, Neuroscience, 030217 neurology & neurosurgery, Cortical control

Abstract

Neuronal activity can be modulated by endogenous control mechanisms that either facilitate or suppress it. With this idea in mind, we attempted to evaluate and correlate spinal neuronal activity with the amplitude of corticogram (ECoG) event related potentials (ERP) in the presence of nociceptive stimulation in rats. We evaluated the ERP in response to noxious stimuli, endogenous analgesic actions, different frequencies, and heterotopic nociceptive stimulation, as well as in conjunction with recordings from neurons in the spinal cord that are activated by noxious stimuli. Computational tasks enabled us to establish correlations between the amplitude of ERP and neuronal firing of cells in the spinal dorsal horn. Our results show that the ERP amplitude could be modified by previous activity in the cerebral cortex, but the activity in the spinal cord did not change. Previous activity could originate spontaneously or could be driven by sensory stimulation. A recurrent inhibitory cortical action is proposed that could explain the suppression of pain perception during electrical or magnetic transcranial stimulation, as well as during heterotopic stimulation. This study aims to uncover a local recurrent inhibitory cortical action that could modify the sensory information.

Published

2019

41. Human cerebrocortical potentials evoked by stimulation of the dorsal nerve of the penis.

Author

Bradley, William E., Farrell, Donald F., and Ojemann, George A.

Subjects

*SENSORY neurons, *PENIS physiology, *EVOKED potentials (Electrophysiology)

Abstract

Cortical evoked potentials resulting from stimulation of the dorsal nerve of the penis (DNP) provide a unique opportunity to document the cortical localization of sexual sensory representation in man. The DNP supplies sensory axons to the major portion of the human phallus, including the penile shaft and glans. Animal and human studies indicate that this nerve plays a crucial role in erection and ejaculation. Direct cortical evoked responses to DNP electrical stimulation were recorded in patients undergoing preoperative evaluation for resection of epileptic foci. These studies provided evidence that the primary sensory cortex contains a large area of cortex devoted to the afferent fibers of the DNP and that the sensory field is in a different location than previously described. The location and distribution of this response indicated the need for revision of the traditional concept of the sensory cortical homunculus. [ABSTRACT FROM AUTHOR]

Published

1998

42. Estimation of habituation and signal-to-noise ratio of cortical evoked potentials to oesophageal electrical and mechanical stimulation.

Author

Kamath, M., Tougas, G., Hollerbach, S., Premji, R., Fitzpatrick, D., Shine, G., Upton, A., Kamath, M V, and Upton, A R

Abstract

Electrical and mechanical stimulation of the oesophagus has been recently proposed to examine the physiological effects of autonomic stimulation in humans. Cortical evoked potentials (EPs) to oesophageal stimulation provide an assessment of afferent fibres and central processing. However, habituation takes place during averaging of cortical EPs and reduces the signal-to-noise ratio (SNR) as the number of stimuli increases. The SNR of cortical EPs to oesophageal stimulation is computed for 15 normal subjects. Habituation is characterised by the Euclidean distance between the EEG response to single stimuli and the averaged EP, to serve as an objective measure of similarity between the averaged EP and the single-stimulus EEG. With electrical stimulation, the SNR is highest (0.41 +/- 0.21) for 1-12 stimuli and then significantly decreases to 0.2 +/- 0.08 for 13-24 stimuli (p < 0.001). With balloon distension (BD), the SNR is highest (0.22 +/- 0.16) for 1-12 stimuli and lowest (0.12 +/- 0.14) for 13-24 stimuli, but these SNRs are not significantly different from each other. Both electrical and mechanical stimulation of the oesophagus produce rapidly adapting EPs. The SNR of the EPs is higher with electrical stimulation than with BD. The EPs response to BD has a higher variability and is more noisy. Consequently, these results suggest that the overall cortical EP response to electrical stimulation of the oesophagus is more reproducible than that due to balloon distension. [ABSTRACT FROM AUTHOR]

Published

1997

43. Artificial activation and degeneration of the cochlear nerve in guinea pigs.

Author

Cazals, Yves, Aran, Jean-Marie, and Charlet de Sauvage, Renaud

Abstract

Degeneration of the cochlear nerve was produced in guinea pigs after treatment with high doses of ototoxic antibiotics completely destroying the cochlear receptor. An effective electric stimulation of the inner ear inducing evoked potentials at the auditory cortex was applied over a period of 3.5 months in half of the animals, while the other half was kept for control. The artificial stimulation had no effect on the sensitivity of the inner ear to electric stimulation and did not modify the extent of degeneration of the cochlear nerve. [ABSTRACT FROM AUTHOR]

Published

1983

44. Habituation and rate effect in the auditory cortical potentials evoked by trains of stimuli.

Author

Prosser, S., Arslan, E., and Michelini, S.

Abstract

The effects of the stimulus repetition rate over the habituated auditory cortical evoked responses were studied. The stimulation pattern consisted of trains of pure tone bursts with interstimulus interval (ISI) of 1 s, and intertrain interval (ITI) of 5 s, delivered with constant time and intensity parameters during 93 min. The analysis of the responses was based upon across averaging of the trains, each single response being evaluated in the latency and amplitude parameters. Two time-dependent factors affected the responses in a distinct way: the habituation throughout the whole stimulation and the rate effect within the train. The linear regressions of the time/amplitude functions of the responses were calculated in relation to the duration of ISI and ITI. By introducing a correction factor depending on the repetition rate it was possible to evaluate the relationships between habituation and repetition rate. Changes in the repetition rate do not have any effect on the habituation process. The two phenomena are completely distinct, and they probably have neurophysiologic substrates corresponding to different levels in the central nervous system (CNS). [ABSTRACT FROM AUTHOR]

Published

1981

45. Somatosensible Leitungsmessungen bei neurologischen Systemerkrankungen.

Author

Sauer, Manfred

Abstract

Copyright of Archiv für Psychiatrie und Nervenkrankheiten is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1980

46. Misonidazole neurotoxicity in rats: Part I.

Author

Edwards, Michael, Gordon, Deborah, Levin, Victor, and Phillips, Theodore

Abstract

The effects of misonidazole (MISO) on brain stem evoked potentials (BAEPs) and cortical evoked potentials (CEPs) were evaluated in 16 Sprague-Dawley rats treated with the agent. As found in previous studies, serial BAEP'values were diagnostic of the onset of MISO toxicity before clinical signs and symptoms appeared. However, MISO had no effects on CEPs, which remained essentially unchanged through the course of the experiment. At histologic examination, significant changes were found in the area of the brain stem, but there was no histologic evidence of damage to cortical or subcortical structures caused by MISO administration. The results of this study suggest that the neurotoxic effects of MISO are species-specific, and that while the rat model may be useful for comparison of the relative toxic effects of nitroimidazole radiosensitizers, it is not a model suited for measurement of neurotoxicity caused by MISO in humans and nonhuman primates. [ABSTRACT FROM AUTHOR]

Published

1984

47. Possible mechanisms of delay in initiation of voluntary movements.

Author

Krylov, I.

Abstract

Studies were made of psychomotor responses and accompanying cortical evoked potentials in healthy subjects and patients with Parkinson’s disease. Measurements showed that delays in a variety of psychomotor responses resulted from delays in movement initiation. The frontal regions showed increases in the N2 component of evoked potentials and delayed development of P3 waves. It is suggested that delayed initiation of movements in patients with Parkinson’s disease might be associated with strengthening of frontal inhibitory systems, preventing the onset of movements. [ABSTRACT FROM AUTHOR]

Published

1998

48. Deliberate hypotension for spinal fusion: Prospective randomized study with evoked potential monitoring.

Author

Grundy, Betty, Nash, Clyde, and Brown, Richard

Abstract

Copyright of Canadian Anaesthetists' Society Journal is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1982

49. Cortical responses to impulses from single Pacinian corpuscles in the cat's hind limb.

Author

McIntyre, A., Holman, M., and Veale, J.

Abstract

Individual Pacinian corpuscles situated near the cat's crural interosseous membrane were exposed and stimulated with weak mechanical pulses delivered by a piezo-electric transducer element, impulses so initiated being monitored in the interosseous nerve. With the nerve intact, single impulses were found to be capable of evoking in contralateral area II small predominantly surface-positive cortical potentials, usually less than 40 μV in amplitude. In some instances, use of an averaging computer was necessary to reveal their presence. When two impulses from the same or from different corpuscles were set up at various time intervals, summation or occasionally facilitation of cortical response occurred at short intervals followed by depression persisting for several hundred msec: single impulses also depressed the response to subsequent electrical stimulation of the nerve. These observations confirm the great security of transmission at synapses interposed on pathways to cortex, and demonstrate the occurrence of considerable spatial and temporal spread of action from the single active input fibre. [ABSTRACT FROM AUTHOR]

Published

1967

50. The visual evoked potential can save sight in patients with radiation-induced optic neuropathy.

Author

Nouraeinejad A

Abstract

Radiation-induced optic neuropathy (RION) is a late complication of radiation therapy for brain and skull base tumors. RION leads to the devastating total vision loss in one or both eyes. Therefore, the early detection of RION is vital. Since visual symptoms and clinical signs of RION are not present at early stages of the radiation injury, it is essential to apply a diagnostic test to detect RION as early as possible in order to start therapeutic interventions. The author proposes to apply visual evoked potential (VEP) as a diagnostic test in the interval time after radiation therapy.

Published

2021