Ekkehard Euler scite author profile

Anatomy education is a challenging but vital element in forming future medical professionals. In this work, a personalized and interactive augmented reality system is developed to facilitate education. This system behaves as a "magic mirror" which allows personalized in-situ visualization of anatomy on the user's body. Real-time volume visualization of a CT dataset creates the illusion that the user can look inside their body. The system comprises a RGB-D sensor as a real-time tracking device to detect the user moving in front of a display. In addition, the magic mirror system shows text information, medical images, and 3D models of organs that the user can interact with. Through the participation of 7 clinicians and 72 students, two user studies were designed to respectively assess the precision and acceptability of the magic mirror system for education. The results of the first study demonstrated that the average precision of the augmented reality overlay on the user body was 0.96 cm, while the results of the second study indicate 86.1% approval for the educational value of the magic mirror, and 91.7% approval for the augmented reality capability of displaying organs in three dimensions. The usefulness of this unique type of personalized augmented reality technology has been demonstrated in this paper.

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Massive blood transfusion and outcome in 1062 polytrauma patients: a prospective study based on the Trauma Registry of the German Trauma Society

Huber‐Wagner¹,

Qvick²,

Mussack³

et al. 2006

Vox Sanguinis

113

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Intra-operative disruptions, surgeon’s mental workload, and technical performance in a full-scale simulated procedure

et al. 2015

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Preclinical usability study of multiple augmented reality concepts for K-wire placement

et al. 2016

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Three-dimensional CT with a Modified C-Arm Image Intensifier: Feasibility

Linsenmaier

Rock²,

Euler³

et al. 2002

Radiology

108

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A portable C arm was modified for cone-beam computed tomography (CT). This three-dimensional (3D) CT imaging system facilitated the acquisition of fluoroscopic images during a 190 degrees rotation and computed a 3D data cube (matrix, 256 x 256 x 256; scanning time, 100 seconds) with multiplanar image reformation. The high-contrast resolution, 0.9 line pairs per millimeter, was comparable; the low-contrast resolution, minimal; and the radiation dose, 60%-80% lower, as compared with these parameters at spiral CT. The normal anatomy of small joints could be depicted, and the osteosynthesis screws in the talus were correctly identified.

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Ekkehard Euler

Personalized augmented reality for anatomy education

Massive blood transfusion and outcome in 1062 polytrauma patients: a prospective study based on the Trauma Registry of the German Trauma Society

Intra-operative disruptions, surgeon’s mental workload, and technical performance in a full-scale simulated procedure

Preclinical usability study of multiple augmented reality concepts for K-wire placement

Three-dimensional CT with a Modified C-Arm Image Intensifier: Feasibility

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