Signal and noise modeling in confocal laser scanning fluorescence microscopy
Pages 381 - 388
Abstract
Fluorescence confocal laser scanning microscopy (CLSM) has revolutionized imaging of subcellular structures in biomedical research by enabling the acquisition of 3D time-series of fluorescently-tagged proteins in living cells, hence forming the basis for an automated quantification of their morphological and dynamic characteristics. Due to the inherently weak fluorescence, CLSM images exhibit a low SNR. We present a novel model for the transfer of signal and noise in CLSM that is both theoretically sound as well as corroborated by a rigorous analysis of the pixel intensity statistics via measurement of the 3D noise power spectra, signal-dependence and distribution. Our model provides a better fit to the data than previously proposed models. Further, it forms the basis for (i) the simulation of the CLSM imaging process indispensable for the quantitative evaluation of CLSM image analysis algorithms, (ii) the application of Poisson denoising algorithms and (iii) the reconstruction of the fluorescence signal.
References
[1]
Sheppard, C. J. R., Gan, X., Gu, M., Roy, M.: Signal-To-Noise Ratio in Confocal Microscopes. In: Pawley, J. B. (ed.) Handbook of Biological Confocal Microscopy, 3rd edn. ch. 22, pp. 442-452. Springer (2006)
[2]
Rodrigues, I., Sanches, J.: Convex total variation denoising of poisson fluorescence confocal images with anisotropic filtering. IEEE TIP 20(1), 146-160 (2011)
[3]
Kervrann, C., Trubuil, A.: An adaptive window approach for poisson noise reduction and structure preserving in confocal microscopy. In: Proc. ISBI, pp. 788-791 (2004)
[4]
Calapez, A., Rosa, A.: A statistical pixel intensity model for segmentation of confocal laser scanning microscopy images. IEEE TIP 19(9), 2408-2418 (2010)
[5]
Jin, X.: Poisson approximation to image sensor noise. Master's thesis, University of Dayton, Ohio (2010)
[6]
Bell, A. A., Brauers, J., Kaftan, J. N., Meyer-Ebrecht, D., Böcking, A., Aach, T.: High dynamic range microscopy for cytopathological cancer diagnosis. IEEE JSTSP (Special Issue: Dig. Im. Proc. Techniques for Oncology) 3(1), 170-184 (2009)
[7]
Marti, G. E., et al.: Fluorescence calibration and quantitative measurement of fluorescence intensity; approved guideline. NCCLS 24(26) (2004)
[8]
Brauers, J., Aach, T.: Direct PSF estimation using a random noise target. In: IS&T/SPIE Electronic Imaging. SPIE-IST, vol. 7537 (2010)
[9]
Zhang, B., Zerubia, J., Olivo-Marin, J.C.: Gaussian approximations of fluorescence microscope point-spread function models. App. Opt. 46(10), 1819-1829 (2007)
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Published In
October 2012
746 pages
ISBN:9783642334146
Sponsors
- ERC MedYMA: ERC MedYMA
- Canon Median: Canon Median
- Siemens
- GE HEALTHCARE: GE Healthcare
- Philips: Philips
Publisher
Springer-Verlag
Berlin, Heidelberg
Publication History
Published: 01 October 2012
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