The Experts below are selected from a list of 360 Experts worldwide ranked by ideXlab platform
Neil G Muggleton - One of the best experts on this subject based on the ideXlab platform.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Daisy L Hung, Ovid J L Tzeng, Lin Yuan Tseng, Jiaxin Yu, Vincent Walsh, Neil G MuggletonAbstract:article i nfo Article history: The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre- supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.
Daisy L Hung - One of the best experts on this subject based on the ideXlab platform.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Tzu Yu Hsu, Lin Yua Tseng, Wen Jui Kuo, Daisy L Hung, Ovid J L Tzeng, Vince Walsh, Neil G MuggletoAbstract:The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre-supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Daisy L Hung, Ovid J L Tzeng, Lin Yuan Tseng, Jiaxin Yu, Vincent Walsh, Neil G MuggletonAbstract:article i nfo Article history: The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre- supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.
Lin Yuan Tseng - One of the best experts on this subject based on the ideXlab platform.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Daisy L Hung, Ovid J L Tzeng, Lin Yuan Tseng, Jiaxin Yu, Vincent Walsh, Neil G MuggletonAbstract:article i nfo Article history: The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre- supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.
Neil G Muggleto - One of the best experts on this subject based on the ideXlab platform.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Tzu Yu Hsu, Lin Yua Tseng, Wen Jui Kuo, Daisy L Hung, Ovid J L Tzeng, Vince Walsh, Neil G MuggletoAbstract:The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre-supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.
Wen Jui Kuo - One of the best experts on this subject based on the ideXlab platform.
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modulating inhibitory control with direct current stimulation of the superior medial frontal cortex
NeuroImage, 2011Co-Authors: Tzu Yu Hsu, Lin Yua Tseng, Wen Jui Kuo, Daisy L Hung, Ovid J L Tzeng, Vince Walsh, Neil G MuggletoAbstract:The executive control of voluntary action involves not only choosing from a range of possible actions but also the inhibition of responses as circumstances demand. Recent studies have demonstrated that many clinical populations, such as people with attention-deficit hyperactivity disorder, exhibit difficulties in inhibitory control. One prefrontal area that has been particularly associated with inhibitory control is the pre-supplementary motor area (Pre-SMA). Here we applied non-invasive transcranial direct current stimulation (tDCS) over Pre-SMA to test its role in this behavior. tDCS allows for current to be applied in two directions to selectively excite or suppress the neural activity of Pre-SMA. Our results showed that anodal tDCS improved efficiency of inhibitory control. Conversely, cathodal tDCS showed a tendency towards impaired inhibitory control. To our knowledge, this is the first demonstration of non-invasive Intervention tDCS altering subjects' inhibitory control. These results further our understanding of the neural bases of inhibitory control and suggest a possible therapeutic Intervention Method for clinical populations.