Anatomical endoscopic retrograde cholangiopancreatography simulator using moulded meshed silicone: A novel simulator pilot study

Brodaric, Alen M; Wong, Ngar Lok Joshua; Falon, Jessica; Wong, Jean; Cheng, Kai; Whereat, Sarah; Storey, David

doi:10.1111/ans.18495

ANZ Journal of Surgery

2023

DOI: 10.1111/ans.18495

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Anatomical endoscopic retrograde cholangiopancreatography simulator using moulded meshed silicone: A novel simulator pilot study

Alen M Brodaric

Ngar Lok Joshua Wong

Jessica Falon

et al.

Abstract: Introduction Endoscopic retrograde cholangio‐pancreatography (ERCP) has higher rates of morbidity and mortality compared to upper or lower gastrointestinal tract endoscopy. The availability of magnetic resonance cholangiopancreatography means ERCP is usually performed for therapeutic purposes. Simulation could provide an adjunct to patient‐based training in ERCP however models to date have been unconvincing. Methods This ERCP simulation model was constructed from moulded meshed silicone by co‐designers: Jean W… Show more

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2024

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Cited by 2 publications

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Dynamic Tactile Synthetic Tissue: from Soft Robotics to Hybrid Surgical Simulators

Thurner,

Maier,

Kaltenbrunner

et al. 2024

Advanced Intelligent Systems

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Surgical simulators are valuable educational tools for physicians, enhancing their proficiency and improving patient safety. However, they typically still suffer from a lack of realism as they do not emulate dynamic tissue biomechanics haptically and fail to convincingly mimic real‐time physiological reactions. This study presents a dynamic tactile synthetic tissue, integrating both sensory and actuatory capabilities within a fully soft unit, as a core component for soft robotics and future hybrid surgical simulators utilizing dynamic physical phantoms. The adaptive surface of the tissue replica, actuated via hydraulics, is assessed by an embedded carbon black silicone sensor layer using electrical impedance tomography to determine internally or externally induced deformations. The integrated fluid chambers enable pressure and force measurements. The combination of these principles enables real‐time tissue feedback as well as closed loop operation, allowing optimal interaction with the environment. Based on the concepts of soft robotics, such artificial tissues find broad applicability, demonstrated via a soft gripper and surgical simulation applications including a dynamic, artificial brain phantom as well as a synthetic, beating heart. These advancements pave the way toward enhanced realism in surgical simulators including reliable performance evaluation and bear the potential to transform the future of surgical training methodologies.

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Dynamic Tactile Synthetic Tissue: from Soft Robotics to Hybrid Surgical Simulators

Thurner,

Maier,

Kaltenbrunner

et al. 2024

Advanced Intelligent Systems

View full text Add to dashboard Cite

show abstract

Simulation of gastroscopy and endoscopic retrograde cholangiopancreatography for medical student education

Falon,

Brodaric,

Whereat

et al. 2024

ANZ Journal of Surgery

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BackgroundSimulation training has become part of medical student education, however endoscopy simulators have mostly been reserved for speciality training. Evidence suggests that simulation training has the potential to educate future doctors about endoscopy procedures and improve their communication with patients. Endoscopic retrograde cholangiopancreatography (ERCP) is an endoscopic procedure that is technically challenging and poorly understood by medical students. This study aimed to investigate whether simulating gastroscopy and ERCP using an anatomical model of the upper gastrointestinal tract improves procedural knowledge, confidence, and performance in medical students.MethodsStudents completed three attempts at gastroscopy and one attempt at ERCP using the model. Participants rated knowledge and confidence relating to endoscopic procedures before and after completing the simulation. Students also reported their attitudes towards endoscopic simulation training after their participation.ResultsThere was a significant increase in self‐perceived knowledge of the purpose of and steps involved in endoscopy (P < 0.001), gastrointestinal anatomy (P = 0.003), and biliary system anatomy (P = 0.002) after using the simulator. Participants also reported significantly increased skills confidence in performing gastroscopy and duodenoscopy (P < 0.001), including in their ability to explain endoscopic procedures to a patient (P < 0.001). All participants agreed (5%) or strongly agreed (95%) that simulation training is a useful addition to their learning, and that they would like more simulation training in the medical curriculum.ConclusionSimulation training is an effective and engaging method of promoting procedural awareness and understanding of basic endoscopic procedures in medical students, with the potential to improve doctor–patient interactions in early clinical practice.

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Anatomical endoscopic retrograde cholangiopancreatography simulator using moulded meshed silicone: A novel simulator pilot study

Cited by 2 publications

References 15 publications

Dynamic Tactile Synthetic Tissue: from Soft Robotics to Hybrid Surgical Simulators

Dynamic Tactile Synthetic Tissue: from Soft Robotics to Hybrid Surgical Simulators

Simulation of gastroscopy and endoscopic retrograde cholangiopancreatography for medical student education

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