eeg equipment Search Results


xltek brain monitor eeg amplifier  (Natus Medical)
90
Natus Medical xltek brain monitor eeg amplifier
Xltek Brain Monitor Eeg Amplifier, supplied by Natus Medical, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/xltek brain monitor eeg amplifier/product/Natus Medical
Average 90 stars, based on 1 article reviews
xltek brain monitor eeg amplifier - by Bioz Stars, 2026-03
90/100 stars
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eeg equipment  (BioSemi)
90
BioSemi eeg equipment
Eeg Equipment, supplied by BioSemi, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment/product/BioSemi
Average 90 stars, based on 1 article reviews
eeg equipment - by Bioz Stars, 2026-03
90/100 stars
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multichannel eeg equipment (64 channels)  (Compumedics Neuroscan)
90
Compumedics Neuroscan multichannel eeg equipment (64 channels)
Multichannel Eeg Equipment (64 Channels), supplied by Compumedics Neuroscan, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/multichannel eeg equipment (64 channels)/product/Compumedics Neuroscan
Average 90 stars, based on 1 article reviews
multichannel eeg equipment (64 channels) - by Bioz Stars, 2026-03
90/100 stars
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digital eeg equipment sam 32  (Micromed Inc)
90
Micromed Inc digital eeg equipment sam 32
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Digital Eeg Equipment Sam 32, supplied by Micromed Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/digital eeg equipment sam 32/product/Micromed Inc
Average 90 stars, based on 1 article reviews
digital eeg equipment sam 32 - by Bioz Stars, 2026-03
90/100 stars
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eeg equipment  (Brain Vision LLC)
90
Brain Vision LLC eeg equipment
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Eeg Equipment, supplied by Brain Vision LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment/product/Brain Vision LLC
Average 90 stars, based on 1 article reviews
eeg equipment - by Bioz Stars, 2026-03
90/100 stars
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eeg equipment  (brain products gmbh)
90
brain products gmbh eeg equipment
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Eeg Equipment, supplied by brain products gmbh, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment/product/brain products gmbh
Average 90 stars, based on 1 article reviews
eeg equipment - by Bioz Stars, 2026-03
90/100 stars
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eeg equipment  (Compumedics Neuroscan)
90
Compumedics Neuroscan eeg equipment
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Eeg Equipment, supplied by Compumedics Neuroscan, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment/product/Compumedics Neuroscan
Average 90 stars, based on 1 article reviews
eeg equipment - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier
digital eeg system  (Nihon Kohden corporation)
90
Nihon Kohden corporation digital eeg system
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Digital Eeg System, supplied by Nihon Kohden corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/digital eeg system/product/Nihon Kohden corporation
Average 90 stars, based on 1 article reviews
digital eeg system - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier
eeg equipment  (Micromed Inc)
90
Micromed Inc eeg equipment
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Eeg Equipment, supplied by Micromed Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment/product/Micromed Inc
Average 90 stars, based on 1 article reviews
eeg equipment - by Bioz Stars, 2026-03
90/100 stars
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ez eeg 2.1 equipment  (Cadwell Laboratories Inc)
90
Cadwell Laboratories Inc ez eeg 2.1 equipment
Parietal tSMS increases <t>EEG</t> alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and <t>C3′</t> <t>electrodes.</t> Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.
Ez Eeg 2.1 Equipment, supplied by Cadwell Laboratories Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ez eeg 2.1 equipment/product/Cadwell Laboratories Inc
Average 90 stars, based on 1 article reviews
ez eeg 2.1 equipment - by Bioz Stars, 2026-03
90/100 stars
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eeg acquisition equipment  (plexon inc)
90
plexon inc eeg acquisition equipment
( A ) Self-developed 32-channel <t>EEG</t> <t>electrode</t> and its size. ( B ) The electrode circuit diagram; the yellow frame is the position reserved for the ultrasound transducer, shown inside the yellow frame. ( C ) The relative position of the electrode on the skull surface. ( D ) Implantation with the EEG electrode. ( E ) A rat undergoing ultrasound neuromodulation.
Eeg Acquisition Equipment, supplied by plexon inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg acquisition equipment/product/plexon inc
Average 90 stars, based on 1 article reviews
eeg acquisition equipment - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier
eeg equipment siesta wireless eeg amplifier  (Compumedics)
90
Compumedics eeg equipment siesta wireless eeg amplifier
( A ) Self-developed 32-channel <t>EEG</t> <t>electrode</t> and its size. ( B ) The electrode circuit diagram; the yellow frame is the position reserved for the ultrasound transducer, shown inside the yellow frame. ( C ) The relative position of the electrode on the skull surface. ( D ) Implantation with the EEG electrode. ( E ) A rat undergoing ultrasound neuromodulation.
Eeg Equipment Siesta Wireless Eeg Amplifier, supplied by Compumedics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/eeg equipment siesta wireless eeg amplifier/product/Compumedics
Average 90 stars, based on 1 article reviews
eeg equipment siesta wireless eeg amplifier - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier

Image Search Results


Parietal tSMS increases EEG alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and C3′ electrodes. Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.

Journal: The Journal of Neuroscience

Article Title: Static Magnetic Field Stimulation over Parietal Cortex Enhances Somatosensory Detection in Humans

doi: 10.1523/JNEUROSCI.2123-16.2017

Figure Lengend Snippet: Parietal tSMS increases EEG alpha activity (Experiment 1). A, Schematic illustration of experimental setup. Left, Somatosensory evoked potentials were recorded from C4′ and C3′ electrodes. Right, The experimental protocol consisted of recording 3 min with eyes open, 3 min with eyes closed, 10 min at baseline, a 20 min intervention, and 10 min after intervention. Left S1 was the area stimulated with real or sham stimulation. Three hertz electrical stimulation at the median right nerve was elicited during baseline, intervention, and postintervention blocks. Rest periods of 2 min were present at 5–6 min during baseline, at 7–8 min and 13–14 min during intervention, and at 5–6 min after intervention. B, Time course representation of the log-transformed relative alpha band, normalized to minute 6–7 of baseline. There was a significant power increment in the alpha band during real stimulation compared to sham stimulation (curly bracket refers to the ANOVA factor Intervention), and the effect persisted 2 min after the end of the real stimulation (time point 13, the asterisk indicates Tukey's post hoc test after significant Intervention × Time interaction). Dotted lines represent rest periods. Time points represent 2 min each. C, Time course representation of the log-transformed relative alpha band during rest periods (“pauses”), normalized to the minute 4–5 of baseline. There was a significant power increment in alpha band during real stimulation compared to sham stimulation, and the effect persisted after the end of the real stimulation (curly bracket refers to the ANOVA factor Intervention). Time points represent 2 min each. D, Grand average representation of the EEG power spectral density, for 2 min baseline (dotted lines) and 2 min time point 12 (solid lines), aligned to the IAF of each subject. There was an increase of alpha power after real stimulation but not after sham stimulation. E, Time course representation of the log-transformed relative beta band, normalized to minute 6–7 of baseline. No changes were present between real and sham conditions. Dotted lines represent rest periods. Time points represent 2 min each. F, Grand average representation of C3′/C4′ SEPs during baseline in sham condition (dotted blue lines) and real condition (dotted red lines) and during sham intervention (blue lines) and real intervention (red lines). There were no differences in the N20 component of the SEPs. G, Time course representation of the mean of the N20 amplitude. No differences were present in the real and sham group. *p < 0.05. Error bars indicate 95% confidence intervals.

Article Snippet: The EEG was continuously recorded from two Ag/AgCl electrodes (using a commercial EEG cap) and by digital EEG equipment (SAM 32, MicroMed; high-pass filter, 0.15 Hz; sampling frequency, 2048 Hz).

Techniques: Activity Assay, Transformation Assay

Scalp topography of average EEG alpha power (Experiment 2). Real/sham EEG alpha power ratio of the tSMS intervention session in Experiment 2 (10 min eyes-open resting EEG). Real relative to sham tSMS over the C3′ electrode produced a focal increase in scalp EEG alpha power of the left parietal cortex.

Journal: The Journal of Neuroscience

Article Title: Static Magnetic Field Stimulation over Parietal Cortex Enhances Somatosensory Detection in Humans

doi: 10.1523/JNEUROSCI.2123-16.2017

Figure Lengend Snippet: Scalp topography of average EEG alpha power (Experiment 2). Real/sham EEG alpha power ratio of the tSMS intervention session in Experiment 2 (10 min eyes-open resting EEG). Real relative to sham tSMS over the C3′ electrode produced a focal increase in scalp EEG alpha power of the left parietal cortex.

Article Snippet: The EEG was continuously recorded from two Ag/AgCl electrodes (using a commercial EEG cap) and by digital EEG equipment (SAM 32, MicroMed; high-pass filter, 0.15 Hz; sampling frequency, 2048 Hz).

Techniques: Produced

( A ) Self-developed 32-channel EEG electrode and its size. ( B ) The electrode circuit diagram; the yellow frame is the position reserved for the ultrasound transducer, shown inside the yellow frame. ( C ) The relative position of the electrode on the skull surface. ( D ) Implantation with the EEG electrode. ( E ) A rat undergoing ultrasound neuromodulation.

Journal: Micromachines

Article Title: Different Modes of Low-Frequency Focused Ultrasound-Mediated Attenuation of Epilepsy Based on the Topological Theory

doi: 10.3390/mi12081001

Figure Lengend Snippet: ( A ) Self-developed 32-channel EEG electrode and its size. ( B ) The electrode circuit diagram; the yellow frame is the position reserved for the ultrasound transducer, shown inside the yellow frame. ( C ) The relative position of the electrode on the skull surface. ( D ) Implantation with the EEG electrode. ( E ) A rat undergoing ultrasound neuromodulation.

Article Snippet: After the electrode was fixed, a special adapter was used to connect the electrode to the EEG acquisition equipment (Plexon OmniPlex, Hong Kong Plexon Co., Ltd., Hong Kong, China).

Techniques: