Medical Simulation for Team Training
Research on generating neonatal manikins for training medical teams
For training of medical teams, we do research on generating neonatal manikins which are highly realistic for achieving the so-called “Suspension of Disbelieve”.
Highly realistic concerns visual but also tactical aspects of the manikins. Tactically realistic is for instance needed for training ABC (Airway Breathing and Circulation) interventions. The manikin should also be physiologically realistic. For instance, if the oxygenation of the blood is low the manikin should automatically show realistic cyanosis symptoms. If the oxygenation levels are restored, the manikin should again automatically restore the visual characteristics of the manikin.
The neonatal manikins are realised using MRI scans, physiological models, microprocessors, sensors, plus advanced Rapid Prototyping - and other manufacturing techniques.
Maxima Medisch Centrum Veldhoven
Pieken in de Delta
Thielen, M.W.H., Joshi, R., Delbressine, F.L.M., Bambang Oetomo, S. & Feijs, L.M.G. (2017). An innovative design for cardiopulmonary resuscitation manikins based on a human-like thorax and embedded flow sensors. Proceedings of the Institution of Mechanical Engineers. Part H: Journal of Engineering in Medicine, 231(3), 243-249.
Azmi, N.F.B., Delbressine, F.L.M. & Feijs, L.M.G. (2016). Conceptual determination and assessment of cyanosis. International Journal of Bioscience, Biochemistry and Bioinformatics, 6(3), 75-83.
Thielen, M.W.H. & Delbressine, F.L.M. (2016). Rib cage recreation : towards realistic neonatal manikin construction using MRI scanning and 3D printing. Hyperseeing : Proceedings of SMI'2016 Fabrication and Sculpting Event (FASE), 20-23 June 2016, Berlin, Germany (pp. 41-44). s.l.: ISAMA.
Peters, P.J.F., Delbressine, F.L.M. & Feijs, L.M.G. (2013). Designing preterm muscle tone and arm movement simulation. In E. Purshotaman (Ed.), Proceedings of 2013 International Conference on Biological, Medical and Chemical Engineering, December 1-2, 2013, Hong Kong (pp. 147-150). Lancaster: DEStech publications.
Peters, P.J.F., Delbressine, F.L.M. & Feijs, L.M.G. (2010). Design of a Medical Simulator Hard- and Software Architecture. In xx et al. & X Zhang (Eds.), Proceedings of Edutainment 2010 (pp. 235-246). (Lecture Notes in Computer Science, No. 6249). Berlin Heidelberg: Springer.