Display Settings:

Items per page
We are sorry, but NCBI web applications do not support your browser and may not function properly. More information

Results: 6

1.
Fig. 6

Fig. 6. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

Fluorescence EEM of retinol acetate (R-7882, Sigma-Aldrich Co.)

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.
2.
Fig. 4

Fig. 4. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

EEMs of fluorescing components (a) F1, (b) F2, and (c) F3 obtained from a three-component MCR analysis on intrinsic EEMs of sample set 2.

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.
3.
Fig. 2

Fig. 2. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

(a) Raw and (b) intrinsic fluorescence EEMs of a representative malignant tissue sample, each normalized to the integrated intensity of the EEM and plotted on a log scale.

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.
4.
Fig. 3

Fig. 3. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

Average intrinsic fluorescence spectra obtained at excitation wavelengths of (a) 340 and (b) 360 nm, for malignant (n=37), fibrous/benign (n=8), and adipose (n=38) tissues in sample set 2.

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.
5.
Fig. 1

Fig. 1. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

(a) Average absorption coefficient and (b) average reduced scattering coefficient as a function of wavelength, for malignant (n=37), fibrous/benign (n=8) and adipose (n=38) tissues in sample set 2.

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.
6.
Fig. 5

Fig. 5. From: Diagnosis of breast cancer using fluorescence and diffuse reflectance spectroscopy: a Monte-Carlo-model-based approach.

Bar graphs of (a) β-carotene concentration, (b) mean reduced scattering coefficient (mean ), (c) hemoglobin saturation (HbO2%), and (d) relative fluorophore contribution of individual fluorophores (F1, F2, and F3), as a function of tissue type for samples combined from sets 2 and 3.

Changfang Zhu, et al. J Biomed Opt. ;13(3):034015-034015.

Display Settings:

Items per page

Supplemental Content

Recent activity

Your browsing activity is empty.

Activity recording is turned off.

Turn recording back on

See more...
Write to the Help Desk