Quantifying light scattering with single-mode fiber-optic confocal microscopy
Confocal microscopy has become an important option for examining tissues in vivo as a diagnostic tool and a quality control tool for tissue-engineered constructs. Collagen is one of the primary determinants of biomechanical stability.
Since collagen is also the primary scattering element in skin and other soft tissues, we hypothesized that laser-optical imaging methods, particularly confocal scattered-light scanning, would allow us to quantify scattering intensity and determine collagen content in biological layers.
Methods: We built a fully automated confocal scattered-light scanner to examine how light scatters in Intralipid, a common tissue phantom, and three-dimensional collagen gels. Intralipid with 0.5%, 1.0%, 1.5%, and 2.0% concentration was filled between precisely spaced glass coverslips.
Collagen gels at collagen concentrations from 0.30mg/mL to 3.30mg/mL were prepared, and all samples underwent A-mode scanning with multiple averaged scans. In Intralipid samples, light reflected from the upper fluid-glass interface was measured.
In collagen gels, average scattering intensity inside the actual gel was measured. In both cases, intensity was correlated with concentration.
Results: By measuring light attenuation at interface reflections of various thicknesses using our device, we were able to determine that the scattering coefficient at 660nm of Intralipid at increasing concentrations in water to be 39 cm-1 for each percent increase of Intralipid.
We were also able to measure the amount of scattering of various concentrations of collagen in gels directly using backscattered light. The results show a highly linear relationship with an increase of 8.2 arbitrary units in backscattering intensity for every 1mg increase of collagen within a 1mL gel volume.
Conclusion: The confocal scattered-light scanner allows to accurately quantify scattering in Intralipid and collagen gels.
Furthermore, a linear relationship between collagen concentration and intensity was found. Confocal scattered-light scanning therefore promises to allow imaging of collagen content in soft tissue layers.
Author: Jeffrey LaCroixMark Haidekker
Credits/Source: BMC Medical Imaging 2009, 9:19
Published on: 2009-11-19
Copyright by the authors listed above - made available via BioMedCentral (Open Access). Please
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