BMC Medical Education (Nov 2024)

Exploring the dynamics of ultrasound training in medical education: current trends, debates, and approaches to didactics and hands-on learning

  • Florian Recker,
  • Ricarda Neubauer,
  • Yi Dong,
  • Anna Maria Gschmack,
  • Christian Jenssen,
  • Kathleen Möller,
  • Michael Blaivas,
  • Prats Michael Ignacio,
  • Claudia Lucius,
  • Johannes Ruppert,
  • Sophie-Luise Sänger,
  • Roxana Sirli,
  • Johannes Weimer,
  • Susan Campbell Westerway,
  • Constantinos Zervides,
  • Christoph Frank Dietrich

DOI
https://doi.org/10.1186/s12909-024-06092-9
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 13

Abstract

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Abstract Introduction Medical education, especially in ultrasound training, is undergoing significant changes. This study examines practical issues in ultrasound medical education, emphasizing state-of-the-art teaching methods, their effectiveness, and implementation challenges. Methods The study analyzed advancements in ultrasound education, including randomized controlled trials comparing peer-to-peer teaching with traditional faculty-led instruction. It evaluated the effectiveness of collaborative small-group training and group size impact in simulation-based training. The study also assessed practical training components outlined in the WFUMB Position Paper Part II. Results Findings indicate that peer-to-peer and collaborative small-group training are effective and cost-efficient. Group size did not significantly affect training outcomes. Key practical training elements, including early hands-on sessions and exposure to various equipment, substantially improved learning outcomes. Simulation tools like virtual reality (VR), augmented reality (AR), and phantoms were crucial for teaching standardized procedures and rare pathologies. Challenges identified include developing robust image acquisition skills, scarcity of qualified student tutors, and the need for reliable ultrasound skill assessment methods. Conclusion Integrating peer-to-peer teaching and advanced simulation technologies significantly advances ultrasound medical education. These methods enhance cognitive and psychomotor skills but also present challenges such as ensuring quality education and developing effective assessment methods. Future research should compare different simulation tools and establish objective ultrasound proficiency assessment criteria. Continual method evaluation and improvement are essential for effective and standardized ultrasound training, ultimately enhancing patient care and clinical outcomes.

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