Information support model of production trunsfusion processes

Authors

DOI:

https://doi.org/10.15587/1729-4061.2016.71673

Keywords:

production transfusion processes, specialized medical information system, information support model

Abstract

A model of information support of production transfusion processes is offered. Formalization of content of information support of processes is performed for the model with the requirements of the regulatory framework, with the decomposition of production transfusion processes, with the quantitative and qualitative data estimates for the information support of processes. Analysis of global trends of automation of production transfusion processes, properties and functional characteristics of specialized medical information systems for blood services allows formally provide a functional structure of the system which provides information support. A feature of the model is the possibility with different levels of detail to formalize the information support highlighting the data collection control point, and thus, in general (roughly) or deployed (in detail) review evaluated system to meet the requirements. In addition, the model takes into account the varying degrees of importance of the data received for information support, and varying degrees of automation of functional modules of the system.

The resulting model allows for the generalized indicator to access the compliance of information support to the requirements of normative standards of quality blood products, which can be used to determine the value of the reference indicator of the generalized information support and the level of compliance with the information support of the test system to a reference system.

Author Biographies

Alina Mikhnova, National University of Radio Electronics Nauki ave., 14, Kharkiv, Ukraine, 61166

PhD, Associate Professor

Department of information control systems

Dmitro Mikhnov, National University of Radio Electronics Nauki ave., 14, Kharkiv, Ukraine, 61166

PhD, Professor

Department of information control systems

Kateryna Chyrkova, National University of Radio Electronics Nauki ave., 14, Kharkiv, Ukraine, 61166

Postgraduate student

Department of information control systems

References

  1. Diialnist zakladiv sluzhby krovi Ukrainy u 2013 rotsi: dovidnyk (2014). MOZ Ukrainy, NAMN Ukrainy, DU Instytut hematolohii ta transfuziolohii NAMN Ukrainy, 68.
  2. Pro zatverdzhennia poriadku kontroliu za dotrymanniam pokaznykiv bezpeky ta iakosti donorskoi krovi ta ii komponentiv (2010). Nakaz MOZ Ukrainy, 211. Ofitsijnyj visnyk Ukrainy, 44. Available at: http://ovu.com.ua/proceedings/327
  3. Pro zatverdzhennia Polozhennia dlia ustanovy perelyvannia krovi (schodo orhanizatsii upravlinnia systemoiu iakosti i bezpeky donorskoi krovi ta ii komponentiv) (2011). Nakaz MOZ Ukrainy vid, 1112. Ofitsijnyj visnyk Ukrainy, 20. Available at: http://ovu.com.ua/proceedings/421
  4. Chyrkova, K. S. (2015). Osoblyvosti funktsionuvannia informatsijnykh system sluzhby krovi. 19-j mizhnarodnyj molodizhnyj forum «Radioelektronika i molod v XXIv», 160–161.
  5. Hymranov, R. D., Hymranov, R. D., Kholkyn, Y. N. (2015). Podkhod k upravliaemoj evoliutsyy korporatyvnykh ynformatsyonnykh system v paradyhme «Predpryiatyia realnoho vremeni» Real time enterprise. Matematyka y ynformatsyonnye tekhnolohyy v neftehazovom komplekse, 2/2015, 11–28.
  6. Tadokoro, K. (2008). Management of blood programme and quality: Asian approach. ISBT Science Series, 3 (1), 26–29. doi: 10.1111/j.1751-2824.2008.00141.x
  7. Quality management programme. World Health Organization. Available at: http://www.who.int/bloodsafety/quality/en/
  8. Belyshov, D. V., Hulyev, Ya. Y., Malykh, V. L. (2014). Modelyrovanye byznes-protsessov medytsynskoj orhanyzatsyy (lechebno-profylaktycheskoho uchrezhdenyia). Medytsynskye ynformatsyonnye systemy, 5, 78–90.
  9. Hulyev, Ya. Y. (2014). Osnovnye aspekty razrabotky medytsynskykh ynformatsyonnykh system. Vrach y ynformatsyonnye tekhnolohyy, 5, 10–19.
  10. Natsionalne kerivnytstvo z vyrobnychoi transfuziolohii dlia zakladiv, pidrozdiliv ta laboratorij sluzhby krovi (2015). DU «Instytut hematolohii ta transfuziolohii NAMN Ukrainy»; KhMAPO MOZ Ukrainy; Kharkiv. obl. tsentr sluzhby krovi. Kharkiv : Zoloti storinky, 336.
  11. National Patient Safety Agency (2006). Electronic Clinical Transfusion Management System: supporting the automated tracking of blood products: National Patient Safety Agency, 134.
  12. Tashtemirov, K., Imangazinov, S., Tashtemirova, O. (2013). Information system in blood centers: first step for the viral safety. CBU International conference on integration and innovation in science and education, 302–306. doi: 10.12955/cbup.2013.49
  13. Zynherman, B. V., Kobeliatskyj, V. F., Horodetskyj, V. M. (2007). Ynformatsyonnye tekhnolohyy v transfuzyolohyy y zadachy sozdanyia edynoho ynformatsyonnoho prostranstva. Hematol. y transfuzyol, 3, 36–41.
  14. Nzoka, М., Amanda, М. (2014). Blood Bank Management Information System A Case Study of the Kenya National Blood Transfusion Services. International Conference on Sustainable Research and Innovation, 5, 146–149.
  15. Getting the Most from Your Decision: Four Steps to Selecting Donor Management Software. Available at: http://docplayer.net/1238595-Getting-the-most-from-your-decision-four-steps-to-selecting-donor-management-software.html
  16. AYS «Stantsyia perelyvanyia krovy». ICL-KPO VS. Available at: http://www.icl.ru/pages/252
  17. Ynformatsyonnaia systema «Info donor». Inform Consulting. Available at: https://shop.ico.kz/catalog/information_systems/info_donor/
  18. Rousselin, B. (2012). Delphyn© Blood Establishment Computer System. EDQM symposium on blood supply management proceeding.
  19. Waheed, U. (2015). Analysis of Management Information System in Blood Transfusion Services, Pakistan. Journal of Blood Disorders and Transfusion, 6 (3), 1–5. doi: 10.4172/2155-9864.1000283
  20. M.Mostafa, A., E.Youssef, A., Alshorbag, G. (2014). A Framework for a Smart Social Blood Donation System Based on Mobile Cloud Computing. Health Informatics – An International Journal, 3 (4), 1–10. doi: 10.5121/hiij.2014.3401
  21. Piho, G., Tepandi, J., Thompson, D., Woerner, A., Parman, M. (2015). Business Archetypes and Archetype Patterns from the HL7 RIM and openEHR RM Perspectives: Towards Interoperability and Evolution of Healthcare Models and Software Systems. Procedia Computer Science, 63, 553–560. doi: 10.1016/j.procs.2015.08.384
  22. Mikhnova, A. V., Mikhnov, D. K., Chyrkova, K. S. (2015). Metod formuvannia orhanizatsijno-tekhnichnykh struktur sehmentiv IS sluzhby krovi. Systemy obrobky informatsii, 12 (137), 156–160.
  23. Bolotov, A. Y., Zahorujko, Y. N., Mozhzheryn, Yu. V. (2013). Kompleksnaia ynformatsyonnaia systema transfuzyolohyy dlia otdelenyj (stantsyj) perelyvanyia krovy. Hematol. y transfuzyol, 58 (4), 41–44.
  24. MYS Transfuzyolohyia. Medotrejd. Available at: http://medotrade.ru/MIS-Transfuziologiya
  25. Ynformatsyonnaia systema «Sluzhba krovy». Typolohyia, opysanye, Preymuschestva (2013). Portal ynformatsyonnoj podderzhky spetsyalystov LPU. Available at: http://www.zdrav.ru/articles/practice/detail.php?ID=85354
  26. Vanitha, R., Divyarani, P. (2013). BCloud App: Blood Donor Application for Android Mobile. International Journal of Innovations in Engineering and Technology, 2.
  27. Tint, S. S., Mai, H. (2015). Blood Donation System for Online Users. Computer Applications: An International Journal, 2 (1), 29–36. doi: 10.5121/caij.2015.2103
  28. Ongun, G. (2012). How commercial software could help in implementing the blood supply management process. EDQM symposium on blood supply management proceeding.
  29. Donor. ISD Information systems. Available at: http://isd.dp.ua/ru/products-ru/donor-ru.html
  30. Ali, A., Jahan, I., Islam, A., Parvez, S. (2015). Blood Donation Management System . American Journal of Engineering Research, 123–135.

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Published

2016-06-28

How to Cite

Mikhnova, A., Mikhnov, D., & Chyrkova, K. (2016). Information support model of production trunsfusion processes. Eastern-European Journal of Enterprise Technologies, 3(3(81), 36–43. https://doi.org/10.15587/1729-4061.2016.71673

Issue

Section

Control processes