Molecular characterization of scant lung tumor cells using iron-oxide nanoparticles and micro-nuclear magnetic resonance super()

Advances in nanotechnology and microfluidics are enabling the analysis of small amounts of human cells. We tested whether recently developed micro-nuclear magnetic resonance ( mu NMR) technology could be leveraged for diagnosing pulmonary malignancy using fine needle aspirate (FNA) of primary lesion...

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Bibliographic Details
Published in:Nanomedicine 2014-04, Vol.10 (3), p.661-668
Main Authors: Ghazani, Arezou A, Pectasides, Melina, Sharma, Amita, Castro, Cesar M, Mino-Kenudson, Mari, Lee, Hakho, Shepard, Jo-Anne O, Weissleder, Ralph
Format: Article
Language:English
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Summary:Advances in nanotechnology and microfluidics are enabling the analysis of small amounts of human cells. We tested whether recently developed micro-nuclear magnetic resonance ( mu NMR) technology could be leveraged for diagnosing pulmonary malignancy using fine needle aspirate (FNA) of primary lesions and/or peripheral blood samples. We enrolled a cohort of 35 patients referred for CT biopsy of primary pulmonary nodules, liver or adrenal masses and concurrently obtained FNA and peripheral blood samples. FNA sampling yielded sufficient material for mu NMR analysis in 91% of cases and had a sensitivity and specificity of 91.6% and 100% respectively. Interestingly, among blood samples with positive circulating tumor cells (CTC), mu NMR analysis of each patient's peripheral blood led to similar diagnosis (malignant vs benign) and differential diagnosis (lung malignancy subtype) in 100% and 90% (18/20) of samples, respectively. mu NMR appears to be a valuable, non-invasive adjunct in the diagnosis of lung cancer.
ISSN:1549-9634
DOI:10.1016/j.nano.2013.10.008