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Public intent profile towards medical facility visualisation systems in russian federation: a one-stage sociological survey

https://doi.org/10.25207/1608-6228-2021-28-6-59-72

Abstract

Background. Medical facility visualisation systems comprise navigation, information panels and visual operation control elements. Visual perception surveys in medical institutions are of great value in medical sociology. Knowing the today’s visitor intent towards visual content inside healthcare facilities will allow a better formulation of most comfortable arrangement of medical services and improvement of healthcare delivery to various visitor categories.

ObjectivesAn assessment of modern public intent towards medical visualisation systems in the Russian Federation.

Methods. A total of 7,356 citizens across 85 country subjects contributed to a sociological survey. Data of a formalised multistage stratified territorial random sampling survey were taken as main information source. The Kano model was used to organise intent towards attributes of medical visualisation systems. Depending on two parameters (functionality and satisfaction), the attributes were assigned between the categories of attractive, linear, obligatory, indifferent or undesirable.

Results. The highest approval level among the visualisation attributes was found towards accuracy of the information panel content. The high-level of respondent approval were external navigation, compliance to the Russian language style and rules, good-making of the element, content structuring and use of modern information technologies. The lowest approval level was in a visually unified medical institution design. The most contentious respondent intent was observed in relation to colour-coding of visualisation objects.

Conclusion. The survey recovered a generally similar public intent profile towards main visualisation system attributes in the Russian Federation. The mandatory included two attributes, “compliance to the Russian language style and rules” and “good-making of visualisation element”. Mandatory attributes are baseline to medical visualisation systems. They do not improve the visitor’s satisfaction, but their absence negatively impacts perception of healthcare visualisation systems.

About the Authors

A. A. Kurmangulov
Tyumen State Medical University
Russian Federation

Albert A. Kurmangulov — Cand. Sci. (Med.), Head of the Training Centre for Lean Technologies in Healthcare; Assoc. Prof., Chair of Public Health and Healthcare, Institute of Continuous Professional Education

Odesskaya str., 54, Tyumen, 625023



Yu. S. Reshetnikova
Tyumen State Medical University
Russian Federation

Yuliya S. Reshetnikova — Cand. Sci. (Med.), Assoc. Prof., Chair of Public Health and Healthcare, Institute of Continuous Professional Education

Odesskaya str., 54, Tyumen, 625023



References

1. Vermennikova L.V., Lupishko A.N., Veselova D.V. Lean technologies as an effective way of transforming processes and introducing digital technologies in an educational organization. Bulletin of the Udmurt University. Series Economics and Law. 2020; 30(3): 325–332 (In Russ., English abstract). DOI: 10.35634/2412-9593-2020-30-3-325-332

2. Garifullin T.Yu., Avdeeva M.V., Panov V.P., Filatov V.N. Directions and methods of improving the activities of the registry in the implementation of the project «New model of a medical organization providing primary health care». Social aspects of population health. 2020; 66 (3): 4 (In Russ., English abstract). DOI: 10.21045/2071-5021-2020-66-3-3

3. Kurmangulov A.A., Brynza N.S. Prospects for navigation systems standardization in russian medical organizations (A review). Problems of standardization in healthcare. 2020; 11–12: 3–10 (In Russ., English abstract). DOI: 10.26347/1607-2502202011-12003-010

4. Gaivoronskaya T.V., Vermennikova L.V., Chabanets E.A., Rykova A.A. Force field analysis and K. Lewin change model as leverages of “lean university” principles in student environment. Kuban Scientific Medical Bulletin. 2021; 28(1): 152–165 (In Russ., English abstract). DOI: 10.25207/1608-6228-2021-28-1-152-165

5. Alekseenko S.N., Arzhentsov V.F., Vermennikova L.V., Veselova D.V., Degtyarev V.S., Starodubov V.I. Features of change management in a medical organization within the framework of the federal project “Creation of a new model of a medical organization providing primary health care”. Kuban Scientific Medical Bulletin. 2019; 26(5): 18–28 (In Russ., English abstract). DOI: 10.25207/1608-6228-2019-26-5-18-28

6. Starykh N.P., Egorova A.V. The value of the target indicators of the national project “Health” in assessing the effectiveness of regional health care. Central Russian Bulletin of Social Sciences. 2020; 15(1): 143–161 (In Russ., English abstract). DOI: 10.22394/2071-2367-2020-15-1-143-161

7. Miroshnichenko M.A., Goloborod’ko E.O., Sarycheva I.N. Methodology of effective management based on the principles of lean production. Bulletin of the Academy of Knowledge. 2020; 2(37): 178–183 (In Russ., English abstract). DOI: 10.24411/2304-6139-2020-10161

8. Shkarin V.V., Simakov S.V., Ivasheva V.V., Emel’yanova O.S., Chepurina N.G., Bagmetov N.P., Lomovtsev M.S. A new model of a medical organization providing primary health care. experience of the region: problems, solutions. Problems of standardization in healthcare. 2020; 7–8: 20–26 (In Russ., English abstract). DOI: 10.26347/1607-2502202007-08020-026

9. Maev D.V. Development of lean process management at social enterprises. Bulletin of the Udmurt University. Series Economics and Law. 2021; 31 (5): 820–826 (In Russ., English abstract). DOI: 10.35634/2412-9593-2021-31-5-820-826

10. Bitkina O. V., Kim H. K., Park J. Usability and user experience of medical devices: An overview of the current state, analysis methodologies, and future challenges. International Journal of Industrial Ergonomics. 2020; 76: 102932. DOI: 10.1016/j.ergon.2020.102932

11. Manukyan V.K. Application of software applications for modeling physical processes in radio engineering and electronics in the context of distance learning. Physics of wave processes and radio engineering systems. 2021; 24(1): 89–97 (In Russ., English abstract). DOI: 10.18469/1810-3189.2021.24.1.89-97

12. Simon S.S. Castellani M., Belleville S., Dwolatzky T., Hampstead B.M., Bahar-Fuchs A. The design, evaluation, and reporting on non-pharmacological, cognition-oriented treatments for older adults: Results of a survey of experts. Alzheimer’s & Dementia: Translational Research & Clinical Interventions. 2020; 6(1): e12024. DOI: 10.1002/trc2.12024

13. Tarkkanen K., Harkke V. Scope of usability tests in IS development. AIS Transactions on Human-Computer Interaction. 2019; 11(3): 136–156. DOI: 10.17705/1thci.00117

14. Moiseeva A.V. On the issue of experimental methods in psycholinguistics: the method of intent analysis vs “counter text” A.I. Novikov. Trends in the development of science and education. 2020; 65-4: 30–33 (In Russ., English abstract). DOI: 10.18411/lj-09-2020-119

15. Tsilimigras D.I., Mehta R., Merath K., Bagante F., Paredes A.Z., Farooq A., Pawlik T.M. Hospital variation in textbook outcomes following curative-intent resection of hepatocellular carcinoma: an international multi-institutional analysis. Hpb. 2020; 22(9): 1305–1313. DOI: 10.1016/j.hpb.2019.12.005

16. Bronnikov I.A., Gorbachev M.V., Kononenko O.S., Timirchev I.K. Media activism and civic mobilization: genesis and trends. Bulletin of the Moscow State Regional University. 2021; 1: 44–60 (In Russ., English abstract). DOI: 10.18384/2224-0209-2021-1-1061

17. Ding H., He Q., Zhou Y., Dan G., Cui S. An individual finger gesture recognition system based on motion-intent analysis using mechanomyogram signal. Frontiers in neurology. 2017; 8: 573. DOI: 0.3389/fneur.2017.00573

18. Wang S., Bansal C., Nagappan N. Large-scale intent analysis for identifying large-review-effort code changes. Information and Software Technology. 2021; 130: 106408. DOI: 10.1016/j.infsof.2020.106408

19. Blomsma F., Brennan G. The emergence of circular economy: a new framing around prolonging resource productivity. Journal of Industrial Ecology. 2017; 21(3): 603–614. DOI: 10.1111/jiec.12603

20. Yin Z., Wu C., Yang Z., Liu Y. Peer-to-Peer indoor navigation using smartphones. IEEE Journal on Selected Areas in Communications. 2017: 35(5): 1141–1153. DOI: 10.1109/jsac.2017.2680844

21. Kurmangulov A.A., Nabieva K.U., Rakhimzhanova A.K. Substantive navigation systems in medical institutions: a lean perspective Kuban Scientific Medical Bulletin. 2021; 28(1): 70–83 (In Russ., English abstract). DOI: 10.25207/1608-6228-2021-28-1-70-83

22. Samah K.A.F.A., Ibrahim S., Ghazali N., Suffi an M., Mansor M., Latif W.A. Mapping a hospital using Open Street Map and Graphhopper: A navigation system. Bulletin of Electrical Engineering and Informatics. 2020; 9(2): 661–668. DOI: 10.11591/eei.v9i2.2082

23. Ford P., Fisher J., Paxman-Clarke L., Minichiello M. Effective wayfinding adaptation in an older National Health Service hospital in the United Kingdom: insights from mobile eye-tracking. Design for Health. 2020; 4(1): 105–121. DOI: 10.1080/24735132.2020.1729000

24. Wang Q. Su M., Zhang M., Li R. Integrating Digital Technologies and Public Health to Fight Covid-19 Pandemic: Key Technologies, Applications, Challenges and Outlook of Digital Healthcare. International Journal of Environmental Research and Public Health. 2021; 18(11): 6053. DOI: 10.3390/ijerph18116053

25. Shin B.S., Mou X., Mou W., Wang H. Vision-based navigation of an unmanned surface vehicle with object detection and tracking abilities. Machine Vision and Applications. 2018; 29: 95–112. DOI: 10.1007/s00138-017-0878-7

26. Lim L., Kanfer R., Stroebel R.J., Zimring C.M. Backstage staff communication: The effects of different levels of visual exposure to patients. HERD: Health Environments Research & Design Journal. 2020; 13(3): 54–69. DOI: 10.1177/1937586719888903


Review

For citations:


Kurmangulov A.A., Reshetnikova Yu.S. Public intent profile towards medical facility visualisation systems in russian federation: a one-stage sociological survey. Kuban Scientific Medical Bulletin. 2021;28(6):59-72. (In Russ.) https://doi.org/10.25207/1608-6228-2021-28-6-59-72

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ISSN 1608-6228 (Print)
ISSN 2541-9544 (Online)