Neuroscience of Neurofeedback

Explore the Therapeutic Benefits of Neurofeedback with Insights Into the Brain's Functional Mechanisms. 

Dr. Tomas Ros, PhD, a cognitive neuroscientist at the University of Geneva & long-time neurofeedback researcher, shares the neuroscientific theories behind brain function and how neurofeedback can help to modify patterns of dysfunction in the brain.

$475 | Eight-Hour Lecture Series | Not Eligible for CEs
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Broaden Your Understanding of Brain Health

Neuroscience of Neurofeedback delves into the 'hows' and 'whys' of neurofeedback from the perspective of the latest neuroscientific research on therapeutic benefits.  Participants will learn more about the brain's mechanisms for learning and growing, the patterns observed through research on how the brain functions, and how different populations can benefit from EEG neurofeedback.

Dr. Ros approaches these topics in a comfortable way appropriate for those with basic knowledge of the brain and EEG, although no prior neurofeedback experience is required.

The 'Neuro' of Neurofeedback Learn how EEG is generated from synaptic activity and how spectral power changes through life.

Identifying Patterns of Activity Explore current thinking on the functional mechanisms by which healthy brain function can be disrupted, and the dominant qEEG signatures associated.

Why Neurofeedback Works Dr. Ros speaks on the current understanding of how neurofeedback can reverse pathological qEEG signatures, and its utility for achieving optimal brain dynamics.

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$475

  • Immediate Access to Course Material and Videos on EEG Learn
  • Complete Quizzes to Test Your Understanding of the Material
  • Read More About Dr. Ros’ Work, Research, and Past Publications
  • Included With Registration: Access to the EEGer Online Community to Join the Discussion & Ask Questions
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Dr. Tomas Ros, PhD

Dr. Tomas Ros is a cognitive neuroscientist at the University of Geneva, Switzerland, with an interdisciplinary background in physics, neuroscience, and psychology. His academic career has focused on exploring cognitive function and neuroplasticity using various brain imaging techniques such as EEG, TMS, fMRI, and PET.

His primary goal is to further investigate neurofeedback at the intersection of engineering and neuropsychology, aiming to contribute to safer, non-pharmacological treatments in psychiatry, neurology, and rehabilitation.
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