Scholars@Duke

The development of an in vivo mobile dynamic microscopy system that images cancerous tumors via fluorescent and phosphorescent nanoparticles

Publication ,  Conference
Rickard, AG; DeRosa, CA; Fraser, CL; Palmer, GM
Published in: Optics InfoBase Conference Papers
January 1, 2017
Published version (DOI)

Hypoxia correlates with reduced radiosensitivity and therapy response. Imaging anesthisized mice using fluorescent nanoparticles causes problems in modeling hypoxia. Therefore, a mobile imaging apparatus was developed to image un-anesthetized mice.

Duke Scholars

Gregory M. Palmer
Author Gregory M. Palmer Radiation Oncology

Published In

Optics InfoBase Conference Papers

DOI

10.1364/OMP.2017.OmM4D.3

EISSN

2162-2701

Publication Date

January 1, 2017

Volume

Part F63-OMP 2017
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Rickard, A. G., DeRosa, C. A., Fraser, C. L., & Palmer, G. M. (2017). The development of an in vivo mobile dynamic microscopy system that images cancerous tumors via fluorescent and phosphorescent nanoparticles. In Optics InfoBase Conference Papers (Vol. Part F63-OMP 2017). https://doi.org/10.1364/OMP.2017.OmM4D.3
Rickard, A. G., C. A. DeRosa, C. L. Fraser, and G. M. Palmer. “The development of an in vivo mobile dynamic microscopy system that images cancerous tumors via fluorescent and phosphorescent nanoparticles.” In Optics InfoBase Conference Papers, Vol. Part F63-OMP 2017, 2017. https://doi.org/10.1364/OMP.2017.OmM4D.3.
Rickard, A. G., et al. “The development of an in vivo mobile dynamic microscopy system that images cancerous tumors via fluorescent and phosphorescent nanoparticles.” Optics InfoBase Conference Papers, vol. Part F63-OMP 2017, 2017. Scopus, doi:10.1364/OMP.2017.OmM4D.3.

Published In

Optics InfoBase Conference Papers

DOI

10.1364/OMP.2017.OmM4D.3

EISSN

2162-2701

Publication Date

January 1, 2017

Volume

Part F63-OMP 2017