Neuroplasticity, the brain's dynamic ability to reorganize and adapt, is pivotal in neuropsychological rehabilitation, especially for individuals recovering from neurological injuries or disorders. The evolving role of neuroimaging has become integral in uncovering and understanding these neuroplastic changes, as it provides a window into the brain's adaptability and response to rehabilitative interventions. Advanced imaging methods like fMRI, EEG, PET, and Diffusion MRI, by revealing the brain's response to treatment, are transforming our approach to rehabilitation. These advancements underscore the interplay between neuroplasticity and rehabilitation, highlighting the need for sophisticated visualization to effectively harness and interpret the rich data from these imaging techniques.
Inspired by recent research, we are also expanding the topic to include neurofeedback visualizations in rehabilitation. Focusing on how neurofeedback, supported by advanced visualization and imaging techniques like fNIRS, can enhance rehabilitation strategies, particularly in real-world settings. This aligns with practical applications of neurofeedback and visualization technologies in rehabilitation, offering a broader scope.
Submissions are invited to cover areas including, but not limited to:
• Advanced visualization in brain imaging and its impact on neuroplasticity understanding.
• Innovative neuroimaging techniques and their visualization in neuroplasticity studies.
• Neurofeedback visualizations and their role in enhancing real-world rehabilitation strategies.
• Correlations between neuroplasticity and effective rehabilitation strategies.
• Interpretation of complex data from imaging techniques and its influence on rehabilitation outcomes.
Studies employing novel visualization and neuroimaging techniques, particularly those enhancing understanding of neuroplasticity in rehabilitation, are especially welcome.
Neuroplasticity, the brain's dynamic ability to reorganize and adapt, is pivotal in neuropsychological rehabilitation, especially for individuals recovering from neurological injuries or disorders. The evolving role of neuroimaging has become integral in uncovering and understanding these neuroplastic changes, as it provides a window into the brain's adaptability and response to rehabilitative interventions. Advanced imaging methods like fMRI, EEG, PET, and Diffusion MRI, by revealing the brain's response to treatment, are transforming our approach to rehabilitation. These advancements underscore the interplay between neuroplasticity and rehabilitation, highlighting the need for sophisticated visualization to effectively harness and interpret the rich data from these imaging techniques.
Inspired by recent research, we are also expanding the topic to include neurofeedback visualizations in rehabilitation. Focusing on how neurofeedback, supported by advanced visualization and imaging techniques like fNIRS, can enhance rehabilitation strategies, particularly in real-world settings. This aligns with practical applications of neurofeedback and visualization technologies in rehabilitation, offering a broader scope.
Submissions are invited to cover areas including, but not limited to:
• Advanced visualization in brain imaging and its impact on neuroplasticity understanding.
• Innovative neuroimaging techniques and their visualization in neuroplasticity studies.
• Neurofeedback visualizations and their role in enhancing real-world rehabilitation strategies.
• Correlations between neuroplasticity and effective rehabilitation strategies.
• Interpretation of complex data from imaging techniques and its influence on rehabilitation outcomes.
Studies employing novel visualization and neuroimaging techniques, particularly those enhancing understanding of neuroplasticity in rehabilitation, are especially welcome.