The visual sensory thalamus is a key region that connects the eyes with the cerebral cortex. It contains two major compartments. Symptoms of many diseases are associated with alterations in this region. So far, it has been very difficult to assess these two compartments in living humans, because they are tiny and located very deep inside the brain.
This difficulty of investigating the visual sensory thalamus in detail has hampered the understanding of the function of visual sensory processing tremendously in the past. By coincidence, Christa Müller-Axt, PhD student in the lab of neuroscientist Professor Katharina von Kriegstein at Technische Universität Dresden, discovered structures that she thought might resemble the two visual sensory thalamus compartments in neuroimaging data.
The neuroimaging data was unique because it had an unprecedented high spatial resolution obtained on a specialised magnetic resonance imaging (MRI) machine at the Max Planck Institute for Human Cognitive and Brain Sciences in Leipzig, where the group was researching developmental dyslexia. She followed up this discovery in a series of novel experiments involving analysis of high spatial resolution in-vivo and post-mortem MRI data as well as post-mortem histology and was soon sure to have discovered the two major compartments of the visual sensory thalamus.
The results showed that the two major compartments of the visual sensory thalamus are characterised by different amounts of brain white matter (myelin). This information can be detected in novel MRI data and thus, can be used to investigate the two compartments of the visual sensory thalamus in living humans.
‘The finding that we can display visual sensory thalamus compartments in living humans is fantastic, as it will be a great tool for understanding visual sensory processing both in health and disease in the near future,’ claims first author Christa Müller-Axt and explains, ‘Post-mortem studies in developmental dyslexia have shown that there are alterations specifically in one of the two compartments of the visual sensory thalamus.
However, there are very few of these post-mortem studies, so it is difficult to say whether all dyslexics are characterised by this kind of visual sensory thalamus alterations. Also, post-mortem data cannot reveal anything about the functional impact of these alterations and their specific contribution to developmental dyslexia symptoms. Therefore, we expect that our novel in-vivo approach will be a great asset in facilitating research on the role of the visual sensory thalamus in developmental dyslexia.’
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