Philip Lee1, Bingwen Zheng1,
George Radda1, Parasuraman Padmanabhan1, Kishore Bhakoo1
1Singapore Bioimaging Consortium, Biomedical
Sciences Institute, Singapore, Singapore
In
vivo tracking with MRI has become standard in modern therapeutic cell
studies. Typically, cells loaded heavily with iron-oxide nanoparticles, are
identified as signal voids in T2*-weighted imaging. This raises two issues,
namely the detrimental effect of high iron load in terms of cellular function
and viability as well as interpretation ambiguities associated with partial
volume artifacts and local magnetic field inhomogeneities. TAT-IODEX-FITC
nanoparticles offer dual modality detection (MRI and optical) without adverse
impact on cellular biology. By utilizing a multiple-echo ultra-short
echo-time pulse sequence, we obtain high positive contrast of labeled bone
marrow stem cells injected into rats striatum in vivo.