Multimodal brain imaging has become an established clinical and research tool for diagnosis and disease progression of brain disorders. Among available imaging modalities, magnetic resonance imaging (MRI) and positron emission tomography (PET) can provide a wide spectrum of data for the in vivo mapping of neurobiological functions and brain morphology while demonstrating to relationships between behavioral and neurobiological factors. Since MRI mostly uses endogenous contrast mechanisms to visualize and quantify tissue characteristics, optimal sequence design is essential for the diagnostic information of MRI. On the other hand, PET imaging is always based on the exogenous contrast of an injected PET tracer. Therefore, characteristics of the PET tracer determine the quantitative and diagnostic potential of PET. This chapter will focus on both of these modalities and shortly discuss the potential of multimodal or hybrid MR/PET imaging. We will not cover MR spectroscopy nor specific applications of H2 15O PET since this will be discussed in other chapters of this book.
CITATION STYLE
Koole, M., Vunckx, K., Verhaeghe, J., Van Laere, K., & Jan Van Laar, P. (2014). MRI/PET brain imaging. In Pet and Spect in Neurology (pp. 93–137). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-54307-4_5
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