Illustrating the histology of tumors and the tissue-level details in basic science studies has long been a challenge. Until recently, readers were usually subjected to the few fields of view that the author chose to photograph. The more senior among you may remember with nostalgia attempting to make sense of fuzzy, black-and-white, circular, histology images viewed as if seen through an antique monocular microscope (Fig. 1). The advent of color printing (often at the author’s extra expense) and eventually digital photographs improved somewhat the quality of each image, but readers were still required to accept that the author had selected fields of view that were truly representative of the subject matter.
In their case report titled “Morphological Transformation of Giant-Cell Tumor of Bone After Treatment with Denosumab,” Zhang et al. include two links to whole-slide images. In the first, readers can link from a conventional digital photograph of a core needle biopsy to the whole-slide image of the giant cell tumor. The authors also include several conventional photographs of the tumor after resection, along with a link to the corresponding scanned microscope slide.
The use of a viewing algorithm similar to that used by Google Earth allows readers to navigate and zoom in on not just the few isolated fields of view selected by the authors, but the hundreds to thousands of additional fields contained in the original microscope slide of this complicated tumor. While it’s very helpful for illustrating tumor histology, we anticipate that WSI technology will be even more valuable when applied to basic science studies of fracture healing or cartilage, nerve, and tendon repair—as well as many other possible applications.
Thomas Bauer, MD
JBJS Case Connector Co-Editor
Reference
- Glassy EF, Rebooting the Pathology Journal. Learning in the Age of Digital Pathology. Archiv Pathol Lab Med 2014;138:728-729.