TY - JOUR
T1 - Maximising Undergraduate Medical Radiation Students' Learning Experiences Using Cloud-Based Computed Tomography (CT) Software
AU - Chau, Minh
AU - Arruzza, Elio Stefan
N1 - Publisher Copyright:
© The Author(s) 2023.
PY - 2023/8
Y1 - 2023/8
N2 - Background: Simulation-based learning is a crucial educational tool for disciplines involving work-integrated learning and clinical practice. Though its uptake is becoming increasingly common in a range of fields, this uptake is less profound in diagnostic radiography and computed tomography. Aim: This study explored whether CT simulator software may be a viable option to facilitate the development of practical clinical skills in an effective, safe and supported environment. Methods: A cross-sectional mixed methods design was employed. Students in their third year of study undertook formal simulation CT learning using the Siemens SmartSimulator, prior to a six-week off-campus clinical experience. A pre- (n = 42, response rate = 39%) and post-clinical placement Likert scale survey was completed (n = 21, retention rate = 50%), as well as focus group interviews to gather qualitative data (n = 21). Thematic analysis was employed to explore how the simulator developed students’ knowledge of CT concepts and preparedness for clinical placement. Results: Survey scores were high, particularly in terms of satisfaction and relevancy. Focus groups drew attention to the software’s capacity to build on foundational principles, prepare students for placement and closely emulate the clinical environment. Students highlighted the need for continual guidance and clinical relevance and maintained that interactive simulation was inferior to real-world clinical placement. Conclusion: The integration of CT simulator software has the potential to increase knowledge, confidence, and student preparation for the clinical environment.
AB - Background: Simulation-based learning is a crucial educational tool for disciplines involving work-integrated learning and clinical practice. Though its uptake is becoming increasingly common in a range of fields, this uptake is less profound in diagnostic radiography and computed tomography. Aim: This study explored whether CT simulator software may be a viable option to facilitate the development of practical clinical skills in an effective, safe and supported environment. Methods: A cross-sectional mixed methods design was employed. Students in their third year of study undertook formal simulation CT learning using the Siemens SmartSimulator, prior to a six-week off-campus clinical experience. A pre- (n = 42, response rate = 39%) and post-clinical placement Likert scale survey was completed (n = 21, retention rate = 50%), as well as focus group interviews to gather qualitative data (n = 21). Thematic analysis was employed to explore how the simulator developed students’ knowledge of CT concepts and preparedness for clinical placement. Results: Survey scores were high, particularly in terms of satisfaction and relevancy. Focus groups drew attention to the software’s capacity to build on foundational principles, prepare students for placement and closely emulate the clinical environment. Students highlighted the need for continual guidance and clinical relevance and maintained that interactive simulation was inferior to real-world clinical placement. Conclusion: The integration of CT simulator software has the potential to increase knowledge, confidence, and student preparation for the clinical environment.
KW - Computed tomography
KW - Curriculum
KW - Radiography
KW - Simulation
KW - Undergraduate students
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U2 - 10.1177/10468781231178491
DO - 10.1177/10468781231178491
M3 - Article
SN - 1046-8781
VL - 54
SP - 447
EP - 460
JO - Simulation and Gaming: an international journal of theory, design and research
JF - Simulation and Gaming: an international journal of theory, design and research
IS - 4
ER -