The article is devoted to the development of a laboratory model of the hardwaresoftware complex, which is designed to record droplets in a drop-forming flask through the
arising vibrations from each drop. The developed hardware and software complex will
ensure the proper safety of the patient during the infusion therapy, notifying medical workers
about the violation of the established treatment regimen. The hardware and software
complex consist of a vibration sensor on the SW-420 sensor, a signal processing unit and an
audio warning system. In the future, it is planned to increase the sensitivity of the sensor,
thereby increasing the level of patient safety. Such optical sensors detect obstacles due to
illumination and reflection, respectively. The aim of the work was the development of a
device for controlling the volume of infusion of drugs using volumetric infusion pumps to
ensure the safety of infusion therapy. In the course of the work, the applicability of the device
under development in the conditions of resuscitation chambers and intensive care chambers
was determined. The work includes the development of technical requirements, the
development of a biotechnical system scheme, the presentation of the structural diagram, the
calculation of the applicability of the design, the selection of an appropriate component base,
and the prototype implementation of the device for bench testing. For the tests, an algorithm
was developed that filtered the received data and, after processing the data, transmitting the
control signal. The developed laboratory model of the hardware and software complex will
provide a high level of patient safety with infusion therapy, remotely notifying the medical
staff about the violation of the established infusion regimen. Studies have established that this
system is easy to use, so the doctor can solve the problem on his own and bring the system to
its original working state. In the future, it is planned to increase the sensitivity of the droplet
detection sensor and thereby increase the safety level of patients undergoing infusion therapy
at high infusion rates.
1. B.Braun. Instructions for use infusomat fmS. Available at:
http://www.frankshospitalworkshop.com/equipment/documents/infusion_
pumps/user_manuals/B.Braun%20Infusomat%20fmS%20-
%20User%20manual.pdf, accessed 24. 02. 2017.
2. Bruce McCormick. Control leaf of WHO - safety of surgical intervention
// Update in Anaesthesia. 2009. Vol. 14. P. 5-6
3. Datasheet LM393. [Electronic resource]. - Access mode:
http://datasheetspdf.com/704553/LM393.html (accessed date
05/19/2017)
4. Aleshin i dr. Metody resheniya problemy dorozhno-transportnogo
travmatizma na avtomagistralyakh Rossii s pomoshch'yu tekhnicheskikh
sredstv / Aleshin V.D., Filippova N.A., Matanskiy S.V., Pisareva A.V. //
Tendentsii razvitiya nauki i obrazovaniya. 2016. No. 15-1. pp. 5-8.
5. Barysheva E.Yu., Nikolaenko A.O. Razrabotka metoda kontrolya ob"ema
vlivaniya preparatov dlya bezopasnogo ispol'zovaniya volyumetricheskikh
infuzionnykh nasosov // Molodezhnyy nauchno-tekhnicheskiy vestnik. 2017.
No. 4. pp. 29.
6. Barysheva E.Yu., Nikolaenko A.O., Kudashov I.A. Metod kontrolya ob"ema
vlivaniya preparatov dlya bezopasnogo ispol'zovaniya infuzionnykh nasosov
/ Politekhnicheskiy molodezhnyy zhurnal. 2017. No. 5 (10). p. 1.
7. Vasil'ev i dr. Aspekty patogeneza venoznykh troficheskikh yazv i puti
korrektsii immunologicheskikh narusheniy / Vasil'ev I.M., Muranova A.V.,
Smirnova E.S., Bogdanets L.I., Sinopal'nikov V.I. // Klinicheskaya
meditsina. 2016. Vol. 94. No. 11. pp. 820-826.
8. GOST R MEK 60601-2-24-201. Izdeliya meditsinskie elektricheskie.
Obshchie trebovaniya bezopasnosti s uchetom osnovnykh funktsional'nykh
kharakteristik k nasosam infuzionnym i kontrolleram. Vved. 2015-01-01. M.:
Izd-vo standartov, 2014. 49 p.
9. GOST R. Magistrali infuzionnye odnokratnogo primeneniya. Obshchie
trebovaniya k bezopasnosti i sovmestimosti. Vved. 2015-01-01. M.: Izd-vo
standartov, 2014. 9 p.
10. Efremov A.A., Pisareva A.V., Nikolaev A.P. Primenenie impedansnogo
elektrokhirurgicheskogo apparata v onkokhirurgii i razrabotka modulya
obratnoy svyazi // Tendentsii razvitiya nauki i obrazovaniya. 2016. No. 15-2.
pp. 17-19.
11. Zhuravlev A.K. i dr. Vegetativnyy tonus i regulyatsiya sistemy
krovoobrashcheniya u sportsmenov pri stressovykh situatsiyakh i profilaktika
aritmiy / Zhuravlev A.K., Semikin G.I., Golubev Yu.Yu., Golubeva G.Yu.,
Nechushkin Yu.V. // Zhivaya psikhologiya. 2017. Vol. 4. No 3. pp. 231-240.
12. Filippova N.A. i dr. Sravnitel'nyy analiz sushchestvuyushchikh metodov
monitoringa sostoyaniya voditelya / Filippova N.A., Aleshin V.D.,
Matanskiy S.V., Pisareva A.V. // V sbornike: Fizika i radioelektronika v
meditsine i ekologii – FREME'2016 Doklady XII Mezhdunarodnoy
nauchnoy konferentsii s nauchnoy molodezhnoy sessiey. 2016. pp. 300-303.
Nikolaenko Artyom Olegovich
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Sinopalnikov Vladimir Igorevich
Doctor of Medical Sciences, Professor
Email: sin-vladimir@rambler.ru
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Nikolaev Alexander Petrovich
Doctor of Medical Sciences, Professor
Email: apnikolaev@yandex.ru
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Pisareva Aza Valeryevna
Candidate of Biological Sciences
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Barysheva Ekaterina Yuryevna
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Nemtsova Anna Sergeevna
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation
Vilkova Darya ilyinicha Ilyinichna
Bauman Moscow State Technical University (BMSTU)
Moscow, Russian Federation