Abstract
With the continuous development of science and technology, informatization has begun to blend into people’s daily lives. In today’s era, medical treatment has also begun to develop in the direction of digitalization and informatization. Blood sample collection is a common detection method in clinical treatment. At present, blood sample collection is still dominated by manual collection. Since the last century, there have been a number of researchers in the field of venous location and venipuncture, to assist medical personnel to carry out puncture or to achieve the purpose of robotic venipuncture. At this stage, robotic puncture is already technically possible. However, the current design of automatic blood collection device does not consider the user’s psychological level and using the process, which is easy to bring psychological pressure to the user. Therefore, from product design point of view, this project designs an automatic blood sampling device with the consideration of ergonomics and user journey. The device can not only reduce the working pressure and training cost of medical staff, but also improve the user’s experience.
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References
Ping, X., Xue, Z., Shuang, Z.: Observation on the application effect of peripheral blood and venous blood in routine blood test. Contemp. Med. 25(24), 182–184 (2019)
Hui, L., et al.: Investigation on the status quo of venous needle injury in Chinese nurses. Chin. J. Infect. Control 16(09), 816–819 (2017)
Lina, H., Jie, L.: Investigation and analysis of sleep and health status of nurses during COVID-19 epidemic. J. Changchun Univ. Chin. Med.
Shuo, T., et al.: Smart healthcare: making medical care more intelligent. Glob. Health J. 03(03), 62–65 (2019)
Nosari, E.R.: Method of locating vein: U.S. Patent 3,998,210 (1976)
Katsogridakis, Y.L., Seshadri, R., Sullivan, C., et al.: Veinlite transillumination in the pediatric emergency department: a therapeutic interventional trial. Pediatr. Emerg. Care 24(2), 83–88 (2008)
Steiner, J.W., Szmuk, P., Farrow-Gillespie, A., et al.: Skilled nurses are more successful when using standard techniques than the vein viewer for first attempt of intravenous cannulation in pediatric patients with difficult access. In: Anesthesiology 2011, Chicago, pp. 15–19 (2012)
Chengdong, L., Xiaoyong, H., Ma, Z.: Simple vein development instrument (2012)
Fan, Z., Xiangdong, L.: Subcutaneous vein display device based on dual-wavelength laser scanning (2010)
Brunette, W., Gerard, W., Hicks, M.A., et al.: Portable antenatal ultrasound platform for village midwives. In: Proceedings of the First ACM Symposium on Computing for Development, p. 23. ACM (2010)
Fuller, M.I., Owen, K., Blalock, T.N., Hossack, J.A., Walker, W.F.: Real time imaging with the sonic window: a pocket-sized, C-scan, medical ultrasound device. In: 2009 IEEE International Ultrasonics Symposium, pp. 196–199. IEEE (2009)
Xu, M., Wang, L.V.: Photoacoustic imaging in biomedicine. Rev. Sci. Instrum. 77(4), 305–598 (2006)
Niederhauser, J.J., Jaeger, M., Frenz, M.: Real-time three-dimensional optoacoustic imaging using an acoustic lens system. Appl. Phys. Lett. 85(5), 846–848 (2004)
Okuno, D., Togawa, T., Saito, H., et al.: Development of an automatic blood sampling system: control of the puncturing needle by measuring forces. In: Proceedings of the 20th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, pp. 1811–1812 (2000)
Zivanovic, A., Davies, B.: The development of a haptic robot to take blood samples from the forearm. In: Niessen, W.J., Viergever, M.A. (eds.) MICCAI 2001. LNCS, vol. 2208, pp. 614–620. Springer, Heidelberg (2001). https://doi.org/10.1007/3-540-45468-3_74
De Boer, T., Steinbuch, M., Neerken, S., et al.: Laboratory study on needle–tissue interaction: towards the development of an instrument for automatic venipuncture. J. Mech. Med. Biol. 7(03), 325–335 (2007)
Carvalho, P., Kesari, A., Weaver, S., et al.: Robotic assistive device for phlebotomy. In: ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers (2015)
Perry, T.S.: Profile: veebot drawing blood faster and more safely than a human can. IEEE Spectr. 50(8), 23 (2013)
Balter, M.L.: Robotic devices for automated venipuncture and diagnostic blood analysis. Rutgers The State University of New Jersey-New Brunswick (2017)
Zhigang, C., Ming, L., et al.: Clinical research of automatic venous sampling robot for automatic identification and location of blood vessels. Chin. J. Clin. Pharmacol. 36(19), 3148–3150 (2020)
Qianwen, C.: Discussion on the application of ergonomics in medical device design. Sci. Technol. Innov. Her. 17(15), 62–63 (2020)
Yulan, D.: Ergonomics. Beijing Institute of Technology, Beijing (2017)
Lili, Z.: Application of dorsal hand venous blood collection in group health examination. J. Community Med. 13(06), 87–88 (2015)
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Chen, R., Luo, J., Luximon, Y. (2021). A Conceptual Design and Research of Automatic Blood Sampling Device. In: Gao, Q., Zhou, J. (eds) Human Aspects of IT for the Aged Population. Supporting Everyday Life Activities. HCII 2021. Lecture Notes in Computer Science(), vol 12787. Springer, Cham. https://doi.org/10.1007/978-3-030-78111-8_15
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DOI: https://doi.org/10.1007/978-3-030-78111-8_15
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