A left-prefrontal lateralized, sympathetic mechanism directs attention towards social threat in humans: evidence from repetitive transcranial magnetic stimulation

[1]  Jack van Honk,et al.  1 hz rTMS over the right prefrontal cortex reduces vigilant attention to unmasked but not to masked fearful faces , 2002, Biological Psychiatry.

[2]  J. Lorberbaum,et al.  Unilateral left prefrontal transcranial magnetic stimulation (TMS) produces intensity-dependent bilateral effects as measured by interleaved BOLD fMRI , 2001, Biological Psychiatry.

[3]  E H de Haan,et al.  Effects of slow rTMS at the right dorsolateral prefrontal cortex on EEG asymmetry and mood , 2001, Neuroreport.

[4]  L. V. Doornen,et al.  A single administration of testosterone induces cardiac accelerative responses to angry faces in healthy young women. , 2001, Behavioral neuroscience.

[5]  R. Post,et al.  Opposite effects of high and low frequency rTMS on regional brain activity in depressed patients , 2000, Biological Psychiatry.

[6]  E. D. Haan,et al.  Laterality effects in selective attention to threat after repetitive transcranial magnetic stimulation at the prefrontal cortex in female subjects , 2000, Neuroscience Letters.

[7]  E. Haan,et al.  Correlations among Salivary Testosterone, Mood, and Selective Attention to Threat in Humans , 1999, Hormones and Behavior.

[8]  R. Davidson,et al.  The functional neuroanatomy of emotion and affective style , 1999, Trends in Cognitive Sciences.

[9]  A. Mathews,et al.  A Cognitive Model of Selective Processing in Anxiety , 1998, Cognitive Therapy and Research.

[10]  Alvaro Pascual-Leone,et al.  Transcranial magnetic stimulation and neuroplasticity , 1998, Neuropsychologia.

[11]  Á. Pascual-Leone,et al.  Study and modulation of human cortical excitability with transcranial magnetic stimulation. , 1998, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[12]  A. Booth,et al.  Primacy of organising effects of testosterone , 1998, Behavioral and Brain Sciences.

[13]  John J. B. Allen,et al.  Anger and frontal brain activity: EEG asymmetry consistent with approach motivation despite negative affective valence. , 1998, Journal of personality and social psychology.

[14]  S. Shelton,et al.  Asymmetric frontal brain activity, cortisol, and behavior associated with fearful temperament in rhesus monkeys. , 1998, Behavioral neuroscience.

[15]  Z. Nahas,et al.  Motor threshold in transcranial magnetic stimulation: a comparison of a neurophysiological method and a visualization of movement method. , 1998, The journal of ECT.

[16]  Peter T. Fox,et al.  Imaging human intra‐cerebral connectivity by PET during TMS , 1997, Neuroreport.

[17]  M. al’Absi,et al.  Cardiovascular responses during effortful active coping and acute experience of anger in women. , 1997, Psychophysiology.

[18]  Alan C. Evans,et al.  Transcranial Magnetic Stimulation during Positron Emission Tomography: A New Method for Studying Connectivity of the Human Cerebral Cortex , 1997, The Journal of Neuroscience.

[19]  Craig A. Smith,et al.  Epilogue: Overarching themes and enduring contributions of the Lanzetta research program , 1996 .

[20]  S. Porges Orienting in a defensive world: mammalian modifications of our evolutionary heritage. A Polyvagal Theory. , 1995, Psychophysiology.

[21]  D. Zipes The long QT interval syndrome. A Rosetta stone for sympathetic related ventricular tachyarrhythmias. , 1991, Circulation.

[22]  Peter J. Lang,et al.  Attention and Orienting : Sensory and Motivational Processes , 1997 .

[23]  E. Geus,et al.  Ambulatory assessment of parasympathetic/sympathetic balance by impedance cardiography , 1996 .

[24]  E. Katkin,et al.  Anger expression, hostility, anxiety, and patterns of cardiac reactivity to stress. , 1992, Behavioral medicine.

[25]  T. D. Kemper,et al.  Social structure and testosterone , 1990 .