Diamonds On The Inside: Imaging Nanodiamonds With Hyperpolarized MRI
Access status:
Open Access
Type
ThesisThesis type
Doctor of PhilosophyAuthor/s
Waddington, David Eric JennerAbstract
Nontoxic nanodiamonds (NDs) have proven useful as a vector for therapeutic drug delivery to cancers and as optical bioprobes of subcellular processes. Despite their potential clinical relevance, an effective means of noninvasively imaging NDs in vivo is still lacking. Recent ...
See moreNontoxic nanodiamonds (NDs) have proven useful as a vector for therapeutic drug delivery to cancers and as optical bioprobes of subcellular processes. Despite their potential clinical relevance, an effective means of noninvasively imaging NDs in vivo is still lacking. Recent developments in hyperpolarized MRI leverage an over 10 000 times increase in the nuclear polarization of biomolecules, enabling new molecular imaging applications. This work explores hyperpolarization via intrinsic paramagnetic defects in nanodiamond. We present the results of MRI experiments that enable direct imaging of nanodiamond via hyperpolarized 13C MRI and indirect imaging of nanodiamonds via Overhauser-enhanced MRI. The construction of custom hardware for these experiments is detailed and the path to future in vivo experiments outlined. As nanodiamond has been established as a biocompatible platform for drug delivery, our results will motivate further research into hyperpolarized MRI for tracking nanoparticles in vivo.
See less
See moreNontoxic nanodiamonds (NDs) have proven useful as a vector for therapeutic drug delivery to cancers and as optical bioprobes of subcellular processes. Despite their potential clinical relevance, an effective means of noninvasively imaging NDs in vivo is still lacking. Recent developments in hyperpolarized MRI leverage an over 10 000 times increase in the nuclear polarization of biomolecules, enabling new molecular imaging applications. This work explores hyperpolarization via intrinsic paramagnetic defects in nanodiamond. We present the results of MRI experiments that enable direct imaging of nanodiamond via hyperpolarized 13C MRI and indirect imaging of nanodiamonds via Overhauser-enhanced MRI. The construction of custom hardware for these experiments is detailed and the path to future in vivo experiments outlined. As nanodiamond has been established as a biocompatible platform for drug delivery, our results will motivate further research into hyperpolarized MRI for tracking nanoparticles in vivo.
See less
Date
2017-09-29Licence
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of Science, School of PhysicsAwarding institution
The University of SydneyShare