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Flow Cytometry's in vivo potential:
- Diagnosis of infectious diseases, such as AIDS, SARS
- Identification of epidemics or bioterrorism events
- Real-time health monitoring
- Cancer research, such as metastasis studies
- Pharmaceutical research, such as drug delivery studies
Further information on this technology will be posted soon.
Ye JY, Myaing MT, Norris TB, Thomas TP, Baker JR, Jr.: Biosensing based on two–photon fluorescence measurements through optical fibers. Optic Letters, 2002:27(16), 1412–1414.
Eric R. Tkaczyk, Cheng Frank Zhong, Jing Yong Ye, Steve Katnik, Andrzej Myc, Kathryn E. Luker, Gary D. Luker, James R. Baker, Jr., and Theodore B. Norris, "Two-photon, Two-color in Vivo Flow Cytometry to Noninvasively Monitor Multiple Circulating Cell Lines," Multiphoton Microscopy in the Biomedical Sciences VI, Proceedings of SPIE 6631, 2007. |
Myaing MT, Ye JY, Norris TB, Thomas T, Baker JR Jr., Wadsworth WJ, Bouwmans G, Knight JC, and Russell PS: Enhanced two–photon biosensing with double–clad photonic crystal fibers. Optics Letters, 2003:28(14), 1224–1226.
Eric R. Tkaczyk, Cheng Frank Zhong, Jing Yong Ye, Andrzej Myc, Thommey Thomas, Zhengyi Cao, Raimon Duran-Struuck, Kathryn E. Luker, Gary D. Luker, Theodore B. Norris and James R. Baker, Jr. In Vivo Monitoring of Multiple Circulating Cell Populations Using Two-photon Flow Cytometry. Optics Communication, 2008, In press.
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