| scholarly article | Q13442814 |
| P2093 | author name string | Atsushi Sugiura | |
| Toshihiro Kitama | |||
| Xiaoyang Mao | |||
| Masahiro Toyoura | |||
| P2860 | cites work | Learning retention of thoracic pedicle screw placement using a high-resolution augmented reality simulator with haptic feedback | Q30503373 |
| The role of the pathological anatomy museum: past glory, present crisis, and future prospects | Q30702941 | ||
| "Indecent and demoralising representations": public anatomy museums in mid-Victorian England | Q33313579 | ||
| An Initial Evaluation of the Impact of Pokémon GO on Physical Activity | Q33454516 | ||
| Role of the medical museum in teaching medical students | Q33538730 | ||
| The role of medical museums in contemporary medical education | Q33683492 | ||
| Evaluation of a teaching strategy based on integration of clinical subjects, virtual autopsy, pathology museum, and digital microscopy for medical students | Q34077496 | ||
| Anatomical education and surgical simulation based on the Chinese Visible Human: a three-dimensional virtual model of the larynx region | Q34353537 | ||
| Influence of Pokémon Go on Physical Activity: Study and Implications | Q34546762 | ||
| Teaching musculoskeletal examination skills to UK medical students: a comparative survey of Rheumatology and Orthopaedic education practice | Q35134188 | ||
| The museums of pathologic anatomy: a very much neglected sector of scientific museology, worth of reconsideration | Q36843513 | ||
| Three-dimensional printing: review of application in medicine and hepatic surgery | Q37596675 | ||
| 3-D visualization and animation technologies in anatomical imaging | Q37650859 | ||
| Pokémon Go and augmented virtual reality games: a cautionary commentary for parents and pediatricians | Q38914842 | ||
| Stereoscopic neuroanatomy lectures using a three-dimensional virtual reality environment | Q38977295 | ||
| Development of a virtual reality training system for endoscope-assisted submandibular gland removal | Q39315223 | ||
| Learning anatomy via mobile augmented reality: Effects on achievement and cognitive load. | Q39942431 | ||
| A low-cost surgical application of additive fabrication | Q40163201 | ||
| Three-Dimensional Modeling May Improve Surgical Education and Clinical Practice | Q40318570 | ||
| Evaluating a technology supported interactive response system during the laboratory section of a histology course. | Q40483660 | ||
| Utility of 3D Reconstruction of 2D Liver Computed Tomography/Magnetic Resonance Images as a Surgical Planning Tool for Residents in Liver Resection Surgery. | Q40497380 | ||
| Medical education in the anatomical sciences: the winds of change continue to blow | Q43601448 | ||
| The production of anatomical teaching resources using three-dimensional (3D) printing technology. | Q43618511 | ||
| Pokémon GO-A New Distraction for Drivers and Pedestrians | Q46238871 | ||
| Classic versus millennial medical lab anatomy | Q46247822 | ||
| Medical information on the Internet: Quality assessment of lumbar puncture and neuroaxial block techniques on YouTube | Q48189327 | ||
| The effectiveness of virtual and augmented reality in health sciences and medical anatomy. | Q48262975 | ||
| Audio-visual aid in teaching "fatty liver". | Q48908507 | ||
| "Let's get physical": advantages of a physical model over 3D computer models and textbooks in learning imaging anatomy. | Q50726270 | ||
| CD-ROM continuous medical education model for the management of urinary tract infections in family practice. | Q50796109 | ||
| Pokémon GO: Healthy or Harmful? | Q52263952 | ||
| Pokémon GO May Increase Physical Activity and Decrease Sedentary Behaviors. | Q52263955 | ||
| The medical museum and its relevance to modern medicine. | Q53669543 | ||
| The future of medical museums: threatened but not extinct | Q81379237 | ||
| P433 | issue | 5 | |
| P921 | main subject | augmented reality | Q254183 |
| P304 | page(s) | 561-571 | |
| P577 | publication date | 2018-11-19 | |
| P1433 | published in | Anatomical Sciences Education | Q15749417 |
| P1476 | title | The Use of Augmented Reality Technology in Medical Specimen Museum Tours | |
| P478 | volume | 12 |
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