Mapping the Microscale Origins of MRI Contrast with Subcellular NV Diamond Magnetometry

Aadyot Bhatnagar; Audrey Lee-Gosselin; David R. Glenn; Hunter C. Davis; John F. Barry; Mikhail G. Shapiro; Pradeep Ramesh; Ronald L. Walsworth

arxiv: 1610.01924 · v1 · pith:F2PERANNnew · submitted 2016-10-06 · ⚛️ physics.med-ph · physics.bio-ph· quant-ph

Mapping the Microscale Origins of MRI Contrast with Subcellular NV Diamond Magnetometry

Hunter C. Davis , Pradeep Ramesh , Aadyot Bhatnagar , Audrey Lee-Gosselin , John F. Barry , David R. Glenn , Ronald L. Walsworth , Mikhail G. Shapiro This is my paper

classification ⚛️ physics.med-ph physics.bio-phquant-ph

keywords contrastimagingmagneticdiamondfieldmagnetometrymicroscalesubcellular

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Magnetic resonance imaging (MRI) is a widely used biomedical imaging modality that derives much of its contrast from microscale magnetic field gradients in biological tissues. However, the connection between these sub-voxel field patterns and MRI contrast has not been studied experimentally. Here, we describe a new method to map subcellular magnetic fields in mammalian cells and tissues using nitrogen vacancy diamond magnetometry and connect these maps to voxel-scale MRI contrast, providing insights for in vivo imaging and contrast agent design.

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Mapping the Microscale Origins of MRI Contrast with Subcellular NV Diamond Magnetometry

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