Using simulation techniques to raise the level of cardiopulmonary resuscitation competence among clinical residents and post-graduate students

Authors

  • A.I. Datsyuk M.I. Pirogov Vinnytsia National Medical University, Vinnytsia, Ukraine M.I. Pirogov Regional Сlinical Hospital, Vinnytsia, Ukraine
  • O.L. Ocheretna M.I. Pirogov Vinnytsia National Medical University, Vinnytsia, Ukraine
  • H.V. Bevz M.I. Pirogov Vinnytsia National Medical University, Vinnytsia, Ukraine
  • L.V. Datsyuk Vinnytsia Regional Clinical Oncological Dispensary, Vinnytsia, Ukraine
  • V.A. Ozymyi Ukrainian Military Medical Academy, Kyiv, Ukraine

DOI:

https://doi.org/10.22141/2224-0586.6.85.2017.111615

Keywords:

cardiopulmonary resuscitation, simulation trai­ning

Abstract

Background. Simulation in medical education is a modern teaching method based on realistic modeling and simulation of clinical situation or particular physiological system, and can be used for evaluation of practical skills, abilities and knowledge. Biological, mechanical, electronic and virtual/computer models may be applied for this purpose. Nowadays, simulation is one of the most effective ways to reduce the incidence of complications and mortality. This technique allows to acquire clinical practical skills and to improve teamwork cooperation (non-technical skills) due to work on simulators. The purpose of the study was evaluating the effectiveness of simulation technology in education and maintenance of practical skills in cardiopulmonary resuscitation (CRP) and the first aid competence among clinical residents and post-graduate students. Materials and methods. Prospective analyses of CRP learning, memorization of theoretical knowledge and practical skills were conducted among clinical residents and post-graduate students by the educational and training center of Vinnytsia National Medical University. 243 clinical residents and post-graduate students of their first year (2014–2016 years) were enrolled in the study. The average age of students is 30.2 ± 1.4 years. 6-hour simulation training course was carried out in groups of 6–8 people. 7-stage simulation training course included: primary evaluation of knowledge (pre-test); briefing; simulation training; debriefing (analysis of an educational process, including the series of questions asked by a teacher); final test (post-test); summarizing; anonymous questionnaires. During the training, there were used II–III realistic level dummies, original chambers of intensive therapy, as well as tools and supplies. Attitude/behavior was assessed by the questionnaire. A test control was used to check the qualifications of clinical residents and post-graduate students, i.e. pre-tests were compared with the results of the final tests. A checklist was used to estimate the clinical residents’ and graduate students’ CRP skills, and to correct the implementation of the basic algorithm. The checklist included: check of consciousness, carotid pulse, CPR start with chest compressions (C-A-B algorithm), restoration of breathing, ventilation and compression ratio (30 : 2) etc. Attitude/behavior assessment was conducted by the questionnaire. Excel and statistical data processing SPSS 13 (© SPSS Inc.) were used for statistical analysis. Results. Basic and final theoretical levels were compared, and the following information was received: an average score for basic knowledge (pre-test) was 4.30 ± 1.81, the final test (post-test) showed 10.78 ± 1.64. The survey results indicate that the final assessment of knowledge among students who participated in the training simulation (p < 0.001) showed a significant increase by 2.5 times compared to their basic level. As a result of finding the basic practical skills level to provide intensive care among residents and post-graduate students, the following data arouse: the average score for conducting artificial respiration after the lecture and practical skills increased by 22 %, the conducting of indirect heart massage increased by 25 % (p < 0.05). Checklists results analysis shows that the most frequent errors during CPR are as follows: low frequency of chest compression per minute (58 %), long intervals between chest compression and ventilation (22.2 %), failure of chest compression/ventilation ratio (25.1% ), incorrect support of respiratory tract (37.9 %), high frequency ventilation (50.6 %). Conclusions. Using CRP simulation technologies in practice helps objectively evaluate basic professional qualification, quickly accumulate practical skills, and raise the level of competence. Simulation technology in the frame of practical courses emphasizes the importance of the ability to work in a team.

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References

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Published

2022-01-27

How to Cite

Datsyuk, A., Ocheretna, O., Bevz, H., Datsyuk, L., & Ozymyi, V. (2022). Using simulation techniques to raise the level of cardiopulmonary resuscitation competence among clinical residents and post-graduate students. EMERGENCY MEDICINE, (6.85), 98–102. https://doi.org/10.22141/2224-0586.6.85.2017.111615

Issue

Section

The Problems of the Higher School