Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging

Slyfield Jr. CR, Niemeyer KE, Tkachenko EV, Tomlinson RE, Steyer GG, Patthanacharoenphon CG, Kazakia GJ, Wilson DL, Hernandez CJ. Journal of Microscopy 236 (1) :52–59 (2009).
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Abstract

Serial block face imaging is a microscopy technique in which the top of a specimen is cut or ground away and a mosaic of images is collected of the newly revealed cross-section. Images collected from each slice are then digitally stacked to achieve 3D images. The development of fully automated image acquisition devices has made serial block face imaging more attractive by greatly reducing labour requirements. The technique is particularly attractive for studies of biological activity within cancellous bone as it has the capability of achieving direct, automated measures of biological and morphological traits and their associations with one another. When used with fluorescence microscopy, serial block face imaging has the potential to achieve 3D images of tissue as well as fluorescent markers of biological activity. Epifluorescence-based serial block face imaging presents a number of unique challenges for visualizing bone specimens due to noise generated by sub-surface signal and local variations in tissue autofluorescence. Here we present techniques for processing serial block face images of trabecular bone using a combination of non-uniform illumination correction, precise tiling of the mosaic in each cross-section, cross-section alignment for vertical stacking, removal of sub-surface signal and segmentation. The resulting techniques allow examination of bone surface texture that will enable 3D quantitative measures of biological processes in cancellous bone biopsies.

BibTeX

 @article{SlyfieldJr:2009,
  Author = {Slyfield Jr, CR and Niemeyer, Kyle Evan and Tkachenko, EV and Tomlinson, RE and Steyer, GG and Patthanacharoenphon, CG and Kazakia, GJ and Wilson, DL and Hernandez, CJ},
  Title = {Three-dimensional surface texture visualization of bone tissue through epifluorescence-based serial block face imaging},
  Journal = {J. Microscopy},
  Volume = {236},
  Number = {1},
  Month = oct,
  Pages = {52--59},
  Year = 2009,
  Doi = {10.1111/j.1365-2818.2009.03204.x}
}