Abstract
Current neuroimaging techniques in experimental medicine and clinical diagnosis are limited by low resolution and restricted image depth. Fluorescence in vivo imaging using near-infrared-emitting nanostructures, including nanocrystal quantum dots (QDs) can overcome these limitations. The objective of the present study was to establish if nanocrystals are suitable for repeated live imaging of deep structures (500 µm) in the intact animal. Intranasal instillation of QDs (5 µL) in mice with unilateral cortical microlesions resulted in marked QD accumulation at the microlesion site in the brain. Glial cell activation in response to the local devascularization played a key role in the uptake of QDs. The majority of QDs were taken up by activated microglia, whereas astroglia played a smaller role in this process. Progression and regression of the lesion upon therapeutic interventions were determined in real-time. Intranasal administration of antiinflammatory nanotherapeutics (micelle-incorporated nimodipine or minocycline) was effective in preventing lesion progression as evidenced by the smaller lesion volumes compared to the untreated controls. Moreover, lesion reduction was accompanied by significantly improved motor function. Near-infrared fluorescence imaging using nanocrystals is a valuable addition to current neuropathological methods for the diagnosis of cerebral microlesions and eventually other neurodegenerative diseases, both in experimental models and eventually in humans.
Keywords: Glia, intranasal delivery, ischemia, live brain imaging, micelles, near-infrared fluorescence, quantum dot.
Graphical Abstract
Pharmaceutical Nanotechnology
Title:Intranasal Fluorescent Nanocrystals for Longitudinal In Vivo Evaluation of Cerebral Microlesions
Volume: 1 Issue: 2
Author(s): Angela O. Choi and Dusica Maysinger
Affiliation:
Keywords: Glia, intranasal delivery, ischemia, live brain imaging, micelles, near-infrared fluorescence, quantum dot.
Abstract: Current neuroimaging techniques in experimental medicine and clinical diagnosis are limited by low resolution and restricted image depth. Fluorescence in vivo imaging using near-infrared-emitting nanostructures, including nanocrystal quantum dots (QDs) can overcome these limitations. The objective of the present study was to establish if nanocrystals are suitable for repeated live imaging of deep structures (500 µm) in the intact animal. Intranasal instillation of QDs (5 µL) in mice with unilateral cortical microlesions resulted in marked QD accumulation at the microlesion site in the brain. Glial cell activation in response to the local devascularization played a key role in the uptake of QDs. The majority of QDs were taken up by activated microglia, whereas astroglia played a smaller role in this process. Progression and regression of the lesion upon therapeutic interventions were determined in real-time. Intranasal administration of antiinflammatory nanotherapeutics (micelle-incorporated nimodipine or minocycline) was effective in preventing lesion progression as evidenced by the smaller lesion volumes compared to the untreated controls. Moreover, lesion reduction was accompanied by significantly improved motor function. Near-infrared fluorescence imaging using nanocrystals is a valuable addition to current neuropathological methods for the diagnosis of cerebral microlesions and eventually other neurodegenerative diseases, both in experimental models and eventually in humans.
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Cite this article as:
O. Choi Angela and Maysinger Dusica, Intranasal Fluorescent Nanocrystals for Longitudinal In Vivo Evaluation of Cerebral Microlesions, Pharmaceutical Nanotechnology 2013; 1 (2) . https://dx.doi.org/10.2174/2211738511301020005
DOI https://dx.doi.org/10.2174/2211738511301020005 |
Print ISSN 2211-7385 |
Publisher Name Bentham Science Publisher |
Online ISSN 2211-7393 |
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