Attenuation correction in confocal laser microscopes: a novel two-view approach

被引:22
作者
Can, A
Al-Kofahi, O
Lasek, S
Szarowski, DH
Turner, JN
Roysam, B [1 ]
机构
[1] Rensselaer Polytech Inst, Troy, NY 12180 USA
[2] New York State Dept Hlth, Wadsworth Ctr, Albany, NY 12201 USA
关键词
attenuation correction; confocal microscopy; light-refraction; light-scattering; spherical aberration; two-view imaging;
D O I
10.1046/j.1365-2818.2003.01195.x
中图分类号
TH742 [显微镜];
学科分类号
摘要
Confocal microscopy is a three-dimensional (3D) imaging modality, but the specimen thickness that can be imaged is limited by depth-dependent signal attenuation. Both software and hardware methods have been used to correct the attenuation in reconstructed images, but previous methods do not increase the image signal-to-noise ratio (SNR) using conventional specimen preparation and imaging. We present a practical two-view method that increases the overall imaging depth, corrects signal attenuation and improves the SNR. This is achieved by a combination of slightly modified but conventional specimen preparation, image registration, montage synthesis and signal reconstruction methods. The specimen is mounted in a symmetrical manner between a pair of cover slips, rather than between a slide and a cover slip. It is imaged sequentially from both sides to generate two 3D image stacks from perspectives separated by approximately 180degrees with respect to the optical axis. An automated image registration algorithm performs a precise 3D alignment, and a model-based minimum mean squared algorithm synthesizes a montage, combining the content of both the 3D views. Experiments with images of individual neurones contrasted with a space-filling fluorescent dye in thick brain tissue slices produced precise 3D montages that are corrected for depth-dependent signal attenuation. The SNR of the reconstructed image is maximized by the method, and it is significantly higher than in the single views after applying our attenuation model. We also compare our method with simpler two-view reconstruction methods and quantify the SNR improvement. The reconstructed images are a more faithful qualitative visualization of the specimen's structure and are quantitatively more accurate, providing a more rigorous basis for automated image analysis.
引用
收藏
页码:67 / 79
页数:13
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