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Multifunctional in vivo vascular imaging using near-infrared II fluorescence.


ABSTRACT: In vivo real-time epifluorescence imaging of mouse hind limb vasculatures in the second near-infrared region (NIR-II) is performed using single-walled carbon nanotubes as fluorophores. Both high spatial (?30 ?m) and temporal (<200 ms per frame) resolution for small-vessel imaging are achieved at 1-3 mm deep in the hind limb owing to the beneficial NIR-II optical window that affords deep anatomical penetration and low scattering. This spatial resolution is unattainable by traditional NIR imaging (NIR-I) or microscopic computed tomography, and the temporal resolution far exceeds scanning microscopic imaging techniques. Arterial and venous vessels are unambiguously differentiated using a dynamic contrast-enhanced NIR-II imaging technique on the basis of their distinct hemodynamics. Further, the deep tissue penetration and high spatial and temporal resolution of NIR-II imaging allow for precise quantifications of blood velocity in both normal and ischemic femoral arteries, which are beyond the capabilities of ultrasonography at lower blood velocities.

SUBMITTER: Hong G 

PROVIDER: S-EPMC3595196 | biostudies-literature | 2012 Dec

REPOSITORIES: biostudies-literature

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Multifunctional in vivo vascular imaging using near-infrared II fluorescence.

Hong Guosong G   Lee Jerry C JC   Robinson Joshua T JT   Raaz Uwe U   Xie Liming L   Huang Ngan F NF   Cooke John P JP   Dai Hongjie H  

Nature medicine 20121118 12


In vivo real-time epifluorescence imaging of mouse hind limb vasculatures in the second near-infrared region (NIR-II) is performed using single-walled carbon nanotubes as fluorophores. Both high spatial (∼30 μm) and temporal (<200 ms per frame) resolution for small-vessel imaging are achieved at 1-3 mm deep in the hind limb owing to the beneficial NIR-II optical window that affords deep anatomical penetration and low scattering. This spatial resolution is unattainable by traditional NIR imaging  ...[more]

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