Temperature Dependence of Paramagnetic Species in the Human Brain Tissue: An X‐Band EPR Study
André Avanzine, José Henrique Monteiro de Azevedo, Martina Huber, Fábio Seiji Otsuka, Maria Concepción García Otaduy, Roberta Diehl Rodriguez, Carlos Ernesto Garrido Salmon

TL;DR
This study uses EPR to analyze how temperature affects paramagnetic ions like iron and copper in human brain tissue, revealing temperature-dependent changes in their signals.
Contribution
The novel contribution is the detailed analysis of temperature dependence of paramagnetic species in human brain tissue using X-band EPR and simulations.
Findings
EPR absorption of Cu(II) showed linear temperature dependence across all brain structures.
Fe(III) and ferritin signals exhibited nonlinear and heterogeneous temperature dependence.
Simulated EPR spectra revealed significant amplitude changes with decreasing temperature.
Abstract
Paramagnetic ions are distributed throughout the human brain. The increased accumulation of these metals, such as iron and copper, can induce cellular death and the development of neurological diseases. Electron Paramagnetic Resonance (EPR) is a spectroscopic technique capable of detecting these ions in a given biological sample. Samples from 17 human brain structures of 8 ex vivo subjects were extracted, lyophilized, and triturated for EPR measurements at variable temperatures ranging from 193 to 293 K. Simulations were performed using the EasySpin toolbox to calculate qualitative parameters and the EPR absorption of high‐spin iron (Fe(III)), copper ion (Cu(II)), and ferritin (Ft) signals in all obtained EPR spectra. The simulated parameters showed a considerable percentage variation relative to the input values, which resulted in spectral visual changes of each paramagnetic ion…
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Taxonomy
TopicsElectron Spin Resonance Studies · Advanced MRI Techniques and Applications · Radiation Effects and Dosimetry
