Литература
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4. Higgins C. Applications and challenges of digital pathology and whole slide imaging // Biotech. Histochem. 2015. Vol. 90, N 5. P. 341-347.
5. Prochorec-Sobieszek M. Future perspectives of digital pathology // Nowotwory J. Oncol. 2016. Vol. 66, N 4. P. 277-284.
6. Saco A. et al. Current status of whole-slide imaging in education // Pathobiology. 2016. Vol. 83, N 2-3. P. 79-88.
7. Sağol Ö. et al. Transition to virtual microscopy in medical undergraduate pathology education: first experience of Turkey in Dokuz Eylül University Hospital // Turk. Patoloji Derg. 2015. Vol. 31, N 3. P. 175-180.
8. Fung K.-M. et al. Whole slide images and digital media in pathology education, testing, and practice: the Oklahoma experience // Anal. Cell. Pathol. (Amst.). 2012. Vol. 35, N 1. P. 37-40.
9. Fónyad L. et al. Shifting gears higher - digital slides in graduate education - 4 years experience at Semmelweis University // Diagn. Pathol. 2010. Vol. 5. P. 73.
10. Fonseca F.-P. et al. Transition from glass to digital slide microscopy in the teaching of oral pathology in a Brazilian dental school // Med. Oral Patol. Oral Cir. Bucal. 2015. Vol. 20, N 1. P. 17-22.
11. Braun M.W., Kearns K.D. Improved learning efficiency and increased student collaboration through use of virtual microscopy in the teaching of human pathology // Anat. Sci. Educ. 2008. Vol. 1, N 6. P. 240-246.
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16. Sander B., Golas M.M. HistoViewer: an interactive e-learning platform facilitating group and peer group learning // Anat. Sci. Educ. 2013. Vol. 6, N 3. P. 182-190.
17. Иванченко Д.А., Хмельков И.А. Перспективы использования принципов BYOD в высших учебных заведениях // Ученые записки ИСГЗ. 2013. Т. 11, № 1-1. С. 132-137.
18. Shin D. et al. PathEdEx - uncovering high-explanatory visual diagnostics heuristics using digital pathology and multiscale gaze data // J. Pathol. Inform. 2017. Vol. 8, N 1. P. 29.
19. Hamilton P.W., Wang Y., McCullough S.J. Virtual microscopy and digital pathology in training and education // APMIS. 2012. Vol. 120, N 4. P. 305-315.
20. Marsch A.F. et al. The effectiveness of annotated (vs non-annotated) digital pathology slides as a teaching tool during dermatology and pathology residencies. // J. Cutan. Pathol. 2014. Vol. 41, N 6. P. 513-518.
21. Chen Z.W. et al. Web-based oil immersion whole slide imaging increases efficiency and clinical team satisfaction in hematopathology tumor board // J. Pathol. Inform. 2014. Vol. 5, N 1. P. 41.
22. Onega T. et al. Use of digital whole slide imaging in dermatopathology // J. Digit. Imaging. 2016. Vol. 29, N 2. P. 243-253.
23. Pantanowitz L. et al. Whole slide imaging for educational purposes // J. Pathol. Inform. 2012. Vol. 3, N 1. P. 46.
24. Yin F. et al. Educational value of digital whole slides accompanying published online pathology journal articles: a multi-institutional study // Arch. Pathol. Lab. Med. 2016. Vol. 140, N 7. P. 694-697.
25. Foster K. Medical education in the digital age: digital whole slide imaging as an e-learning tool // J. Pathol. Inform. 2010. Vol. 1, N 1. P. 14.
26. Paulsen F.P., Eichhorn M., Bräuer L. Virtual microscopy - the future of teaching histology in the medical curriculum? // Ann. Anat. (Anat. Anzeiger). 2010. Vol. 192, N 6. P. 378-382.
27. Williams B.J. et al. Digital pathology access and usage in the UK: results from a national survey on behalf of the National Cancer Research Institute’s CM-Path initiative // J. Clin. Pathol. 2018. Vol. 71, N 5. P. 463-466.
28. Al-Janabi S., Huisman A., Van Diest P.J. Digital pathology: current status and future perspectives // Histopathology. 2012. Vol. 61, N 1. P. 1-9.
29. Huang Y.-N. et al. Development of whole slide imaging on smartphones and evaluation with ThinPrep Cytology Test Samples: follow-up study // JMIR mHealth uHealth. 2018. Vol. 6, N 4. P. 82.
30. Kumar R.K. et al. Virtual microscopy for learning and assessment in pathology // J. Pathol. 2004. Vol. 204, N 5. P. 613-618.
31. Pfeifer J.D. Whole Slide Imaging: Efficiencies and Cost [Электронный ресурс]. URL: http://uscapknowledgehub.org/site~/100th/pdf/companion06h05.pdf. (дата обращения: 04.01.2019)
32. SlideDriver 3DHistech [Электронный ресурс]. URL: https://www.3dhistech.com/slidedriver. (дата обращения: 04.01.2019)
33. Whole Slide Imaging Repository [Электронный ресурс]. URL: https://digitalpathologyassociation.org/whole-slide-imaging-repository (дата обращения: 04.01.2019).
34. Rossner M. и др. [Pathowiki. A free expert database for pathology] // Pathologe. 2012. Vol. 33, № 2. P. 124-128.
35. Flash & The Future of Interactive Content [Электронный ресурс]. URL: https://theblog.adobe.com/adobe-flash-update/ (дата обращения: 04.01.2019)
36. Владзимирский А.В. Телемедицина: curatio sine tempora et distantia. М. : Aegitas, 2016. 663 с.
37. Boyce B.F. An update on the validation of whole slide imaging systems following FDA approval of a system for a routine pathology diagnostic service in the United States // Biotech. Histochem. 2017. Vol. 92, N 6. P. 381-389.
38. IntelliSite Pathology Solution (PIPS, Philips Medical Systems) [Электронный ресурс]. 2017. URL: https://www.fda.gov/Drugs/InformationOnDrugs/ApprovedDrugs/ucm553358.htm. (дата обращения: 04.01.2019)
39. Федеральный закон от 29 июля 2017 г. № 242-ФЗ "О внесении изменений в отдельные законодательные акты Российской Федерации по вопросам применения информационных технологий в сфере охраны здоровья" [Электронный ресурс]. 2017. URL: https://rg.ru/2017/08/04/zdorovie-dok.html. (дата обращения: 04.01.2019)
References
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