Neurosurgical Education Using Cadaver-Free Brain Models and Augmented Reality: First Experiences from a Hands-On Simulation Course for Medical Students

Efe, Ibrahim E.; Çinkaya, Emre; Kuhrt, Leonard D.; Bruesseler, Melanie M. T.; Mührer-Osmanagic, Armin

doi:10.3390/medicina59101791

Cited by 8 publications

(1 citation statement)

References 33 publications

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“…It allows educators to develop and evaluate new teaching methods, curricula, and assessment tools ( 39 , 40 ). Additionally, advancements in technology, such as virtual reality ( 41 ) and augmented reality ( 42 ), continue to expand the possibilities of simulation-based training in healthcare education ( 43 ).…”

Section: Introductionmentioning

confidence: 99%

Early introduction of simulation in the medical curriculum: the MedInTo perspective

Lembo,

Abate Daga,

Calì

et al. 2024

Front. Med.

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Despite the increasing body of evidence supporting the use of simulation in medicine, a question remains: when should we introduce it into the medical school's curriculum? We present the experience and future perspectives of the MD program in Medicine and Surgery of University of Turin-MedInTo. Since its launch, MedInTo has been dedicated to integrating innovative teaching approaches at the early stages into the medical curriculum. Herewith, we describe a case-based approach for our activities, which includes the utilization of simulation for emergency medical care training for students and the integration of virtual and augmented reality technology. Dedicated surgical training activities using virtual-augmented reality and life-like simulator for students are also described.

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Section: Introductionmentioning

confidence: 99%

Early introduction of simulation in the medical curriculum: the MedInTo perspective

Lembo,

Abate Daga,

Calì

et al. 2024

Front. Med.

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Augmented Reality in Neurosurgery

van Doormaal,

van Doormaal

2024

Advances in Experimental Medicine and Biology

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Evaluation of training models for intraventricular neuroendoscopy

Senger,

Lepshokov,

Tschernig

et al. 2024

Neurosurg Rev

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Structured surgical education has become increasingly important in recent years. Intraventricular neuroendoscopic procedures have been widely established. However, training surgical skills with these techniques is crucial for young residents due to the potential harm to adjacent tissue. Therefore, we evaluated two different training models. Participants in two different international workshops were trained on a prefixed cadaver model and on a living murine intraabdominal model. Crucial neuroendoscopic techniques such as membrane perforation and tissue biopsy were performed. A blinded questionnaire evaluated both models. Sixty-three participants were trained on the animal model. Forty of these were trained on the cadaver model. The training effect was evaluated almost equally, with 8.5/10 for the animal model and 8.9/10 for the cadaver model. The tissue properties were rated higher regarding realism in the animal model, whereas the anatomic realism was rated higher in the cadaver model. The animal model is a valid alternative to cadaver models for teaching endoscopic neurosurgical skills. This model benefits from the simulation of real surgical tissue properties, including bleeding. The low costs and availability of this technique make it more ubiquitous and can help train further generations of neurosurgeons.

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Neurosurgical Education Using Cadaver-Free Brain Models and Augmented Reality: First Experiences from a Hands-On Simulation Course for Medical Students

Cited by 8 publications

References 33 publications

Early introduction of simulation in the medical curriculum: the MedInTo perspective

Early introduction of simulation in the medical curriculum: the MedInTo perspective

Augmented Reality in Neurosurgery

Evaluation of training models for intraventricular neuroendoscopy

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