Abstract #1213

A Biophysical Model of Iron-Induced Relaxation in Human Substantia Nigra for Early Stage Parkinson Diagnostic

Malte David Brammerloh^1,2, Charlotte Lange^1,2, Tilo Reinert^1,2, Carsten Jäger¹, Filippos Gavriilidis¹, Kerrin Pine¹, Isabel Weigelt³, Robert Trampel¹, Enrico Reimer¹, Markus Morawski³, Thomas Arendt³, Nikolaus Weiskopf^1,2, and Evgeniya Kirilina^1,4

¹Department of Neurophysics, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany, ²Faculty of Physics and Earth Sciences, Leipzig University, Leipzig, Germany, ³Paul Flechsig Institute of Brain Research, Leipzig, Germany, ⁴Center for Cognitive Neuroscience Berlin, Freie Universität Berlin, Berlin, Germany

We present a biophysical model that quantitatively describes gradient and spin echo relaxation in substantia nigra induced by iron accumulated the neuromelanin of dopaminergic neurons. This model was informed by 3D quantitative microscopic iron distributions obtained from classical histology and Proton-Induced X-ray Emission. It was validated by comparison to quantitative MRI on post mortem human brain tissue. We demonstrate that the total iron content of DN can be extracted analytically from relaxometry in nigrosomes. This results provides an important step toward a highly desired early stage biomarker for detecting dopaminergic neurons depletion in Parkinson's disease.

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