Medical Visualization and Applications of Technology ‒ Volume III
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Beschreibung
This book showcases novel research endeavors that explore the use of digital technologies to improve understanding and teaching within biomedical sciences. By designing and developing user-friendly experiences, these contributions make complex knowledge more accessible and engaging, benefiting learners, educators, clinicians, patients, and carers.
The chapters cover a range of topics, including Extended Reality, web-based interactive applications, and 3D interactive models to enhance medical communication and educational outcomes. Readers will discover how Virtual, Augmented, and Mixed Reality can be utilized to improve training and understanding of anatomy, surgery, and clinical assessment. For instance, the book explores the use of fully immersive VR to support anatomy learning among undergraduate diagnostic radiography students and to enhance understanding during complex surgical procedures. Additionally, it examines educational applications that combine AR and 3D animations to foster patient compliance during radiotherapy and support dental students' learning of procedures like manual scaling and root planing. Interactive 3D models are also discussed for their applications in supporting neuroscience understanding and aiding neuropathic pain research. The book highlights how these models can enhance learning in areas such as renal pathology and embryology, and assist parents in understanding congenital urethral conditions.
This volume is an essential resource for researchers, educators, and practitioners in the biomedical field. It offers valuable insights into the transformative potential of digital technologies in healthcare education and practice. Whether you are a student, clinician, or educator, this book provides a comprehensive guide to the innovative applications of digital tools in the biomedical sciences, making it a must-read for anyone interested in the future of healthcare education.
This book showcases novel research endeavors that explore the use of digital technologies to improve understanding and teaching within biomedical sciences. By designing and developing user-friendly experiences, these contributions make complex knowledge more accessible and engaging, benefiting learners, educators, clinicians, patients, and carers.
The chapters cover a range of topics, including Extended Reality, web-based interactive applications, and 3D interactive models to enhance medical communication and educational outcomes. Readers will discover how Virtual, Augmented, and Mixed Reality can be utilized to improve training and understanding of anatomy, surgery, and clinical assessment. For instance, the book explores the use of fully immersive VR to support anatomy learning among undergraduate diagnostic radiography students and to enhance understanding during complex surgical procedures. Additionally, it examines educational applications that combine AR and 3D animations to foster patient compliance during radiotherapy and support dental students' learning of procedures like manual scaling and root planing. Interactive 3D models are also discussed for their applications in supporting neuroscience understanding and aiding neuropathic pain research. The book highlights how these models can enhance learning in areas such as renal pathology and embryology, and assist parents in understanding congenital urethral conditions.
This volume is an essential resource for researchers, educators, and practitioners in the biomedical field. It offers valuable insights into the transformative potential of digital technologies in healthcare education and practice. Whether you are a student, clinician, or educator, this book provides a comprehensive guide to the innovative applications of digital tools in the biomedical sciences, making it a must-read for anyone interested in the future of healthcare education.
Presents digital technologies in medical visualization, and translational and precision medicine Explores Extended Reality, interactive applications and 3D models to support the medical practice and anatomy education Showcases how virtual and augmented reality can be utilized to improve training and understanding in biomedical sciences
Autor*in
Matthieu Poyade
Themen in »Medical Visualization and Applications of Technology ‒ Volume III«
Virtual Reality Augmented Reality 3D Animations Radiography Education Anatomy Education Anatomy Biomedical Visualization Dental Anatomy interactive Applications 3D Models