Kamau, N.R.;                     Tamplin, M.R.;                     Lee, C.-Y.;                     Axelson, E.D.;                     Grumbach, I.M.;                     Petronek, M.S.    
        Combined MR Volumetry and T2* Relaxometry Reveals the Olfactory System as an Iron-Dependent Structure Affected by Radiation. Neurol. Int. 2025, 17, 53.
    https://doi.org/10.3390/neurolint17040053
    AMA Style
    
                                Kamau NR,                                 Tamplin MR,                                 Lee C-Y,                                 Axelson ED,                                 Grumbach IM,                                 Petronek MS.        
                Combined MR Volumetry and T2* Relaxometry Reveals the Olfactory System as an Iron-Dependent Structure Affected by Radiation. Neurology International. 2025; 17(4):53.
        https://doi.org/10.3390/neurolint17040053
    
    Chicago/Turabian Style
    
                                Kamau, Njenga R.,                                 Michelle R. Tamplin,                                 Chu-Yu Lee,                                 Eric D. Axelson,                                 Isabella M. Grumbach,                                 and Michael S. Petronek.        
                2025. "Combined MR Volumetry and T2* Relaxometry Reveals the Olfactory System as an Iron-Dependent Structure Affected by Radiation" Neurology International 17, no. 4: 53.
        https://doi.org/10.3390/neurolint17040053
    
    APA Style
    
                                Kamau, N. R.,                                 Tamplin, M. R.,                                 Lee, C.-Y.,                                 Axelson, E. D.,                                 Grumbach, I. M.,                                 & Petronek, M. S.        
        
        (2025). Combined MR Volumetry and T2* Relaxometry Reveals the Olfactory System as an Iron-Dependent Structure Affected by Radiation. Neurology International, 17(4), 53.
        https://doi.org/10.3390/neurolint17040053