Time-Resolved Synchronous Fluorescence for Biomedical Diagnosis.


Autoria(s): Zhang, X; Fales, A; Vo-Dinh, T
Data(s)

31/08/2015

Formato

21746 - 21759

Identificador

http://www.ncbi.nlm.nih.gov/pubmed/26404289

s150921746

Sensors (Basel), 2015, 15 (9), pp. 21746 - 21759

http://hdl.handle.net/10161/11299

1424-8220

Relação

Sensors (Basel)

10.3390/s150921746

Palavras-Chave #cancer diagnosis #imaging #synchronous fluorescence #time-resolved #ultrafast #Diagnostic Imaging #Methylene Blue #Oxazines #Spectrometry, Fluorescence #Time Factors
Tipo

Journal Article

Cobertura

Switzerland

Resumo

This article presents our most recent advances in synchronous fluorescence (SF) methodology for biomedical diagnostics. The SF method is characterized by simultaneously scanning both the excitation and emission wavelengths while keeping a constant wavelength interval between them. Compared to conventional fluorescence spectroscopy, the SF method simplifies the emission spectrum while enabling greater selectivity, and has been successfully used to detect subtle differences in the fluorescence emission signatures of biochemical species in cells and tissues. The SF method can be used in imaging to analyze dysplastic cells in vitro and tissue in vivo. Based on the SF method, here we demonstrate the feasibility of a time-resolved synchronous fluorescence (TRSF) method, which incorporates the intrinsic fluorescent decay characteristics of the fluorophores. Our prototype TRSF system has clearly shown its advantage in spectro-temporal separation of the fluorophores that were otherwise difficult to spectrally separate in SF spectroscopy. We envision that our previously-tested SF imaging and the newly-developed TRSF methods will combine their proven diagnostic potentials in cancer diagnosis to further improve the efficacy of SF-based biomedical diagnostics.

Idioma(s)

ENG