Automated complete slide digitization: a medium for simultaneous viewing by multiple pathologists

Developments in telepathology robotic systems have evolved the concept of a ‘virtual microscope’ handling ‘digital slides’. Slide digitization is a method of archiving salient histological features in numerical (digital) form. The value and potential of this have begun to be recognized by several international centres. Automated complete slide digitization has application at all levels of clinical practice and will benefit undergraduate, postgraduate, and continuing education. Unfortunately, as the volume of potential data on a histological slide represents a significant problem in terms of digitization, storage, and subsequent manipulation, the reality of virtual microscopy to date has comprised limited views at inadequate resolution. This paper outlines a system refined in the authors’ laboratory, which employs a combination of enhanced hardware, image capture, and processing techniques designed for telepathology. The system is able to scan an entire slide at high magnification and create a library of such slides that may exist on an internet server or be distributed on removable media (such as CD-ROM or DVD). A digital slide allows image data manipulation at a level not possible with conventional light microscopy. Combinations of multiple users, multiple magnifications, annotations, and addition of ancillary textual and visual data are now possible. This demonstrates that with increased sophistication, the applications of telepathology technology need not be confined to second opinion, but can be extended on a wider front. Copyright # 2001 John Wiley & Sons, Ltd.

[1]  Vincenzo Della Mea,et al.  Dynamic robotic telepathology: A preliminary evaluation on frozen sections, histology and cytology , 1999, Journal of telemedicine and telecare.

[2]  P Schwarzmann,et al.  Clinical trial of telepathology as an alternative modality in breast histopathology quality assurance. , 2000, Telemedicine journal and e-health : the official journal of the American Telemedicine Association.

[3]  Tsuchihashi,et al.  Telepathology and Cytology in Kyoto, JAPAN, to Support Regional Medicine, with Special References to Their Need, Accuracy and Cost. , 1998, Advances in clinical pathology : the official journal of Adriatic Society of Pathology.

[4]  C A Beltrami,et al.  Image selection in static telepathology through the Internet , 1998, Journal of telemedicine and telecare.

[5]  AN ADVANCED DIGITAL IMAGE-CAPTURE COMPUTER SYSTEM FOR GROSS SPECIMENS: A SUBSTITUTE FOR GROSS DESCRIPTION , 2000, Pathology.

[6]  A M Marchevsky,et al.  "Virtual microscopy" and the internet as telepathology consultation tools: diagnostic accuracy in evaluating melanocytic skin lesions. , 1999, The American Journal of dermatopathology.

[7]  E Schubert,et al.  A pathologist-designed imaging system for anatomic pathology signout, teaching, and research. , 1994, Seminars in diagnostic pathology.

[8]  G Wolf,et al.  Remote microscopy through the internet. , 1999, Polish journal of pathology : official journal of the Polish Society of Pathologists.

[9]  R P Singson,et al.  Virtual microscopy and the Internet as telepathology consultation tools. A study of gastrointestinal biopsy specimens. , 1999, American journal of clinical pathology.

[10]  Migliore,et al.  A feasibility study of a static-robotic telepathology system for remote diagnosis. , 1998, Advances in clinical pathology : the official journal of Adriatic Society of Pathology.

[11]  B F Burns,et al.  Creating low-power photomicrographs using a 35 mm digital slide scanner. , 1997, The American journal of surgical pathology.

[12]  Y. Tsuchihashi,et al.  The basic diagnostic approaches used in robotic still-image telepathology , 1999, Journal of telemedicine and telecare.

[13]  R S Weinstein,et al.  Pathology consultation services via the Arizona-International Telemedicine Network. , 1995, Archives d'anatomie et de cytologie pathologiques.

[14]  Manfred Dietel,et al.  Telemicroscopy via the Internet , 1998, Nature.

[15]  R S Weinstein,et al.  Dynamic-robotic telepathology: Department of Veterans Affairs feasibility study. , 1997, Human pathology.

[16]  Damir Babić,et al.  Image quality and acceptance of telepathology. , 1998 .

[17]  A M Marchevsky,et al.  Virtual microscopy: high resolution digital photomicrography as a tool for light microscopy simulation. , 1999, Human pathology.

[18]  R S Weinstein,et al.  Human performance studies of the video microscopy component of a dynamic telepathology system. , 1992, Zentralblatt fur Pathologie.

[19]  J. Epstein,et al.  Static image analysis of skin specimens: the application of telepathology to frozen section evaluation. , 1997, Human pathology.

[20]  Daniel B. Hier,et al.  The display of photographic-quality images on the Web: a comparison of two technologies , 1999, IEEE Transactions on Information Technology in Biomedicine.

[21]  R. Weinstein,et al.  Telepathology: a ten-year progress report. , 1997, Human pathology.

[22]  D. Cruz,et al.  A surgical pathology system for gross specimen examination , 1999, AMIA.

[23]  Joel H. Saltz,et al.  Digital dynamic telepathology-the Virtual Microscope , 1998, AMIA.