3D visualization tools have been developed to assist in the anatomical learning of medical students, but the evidence on the effectiveness of these tools is inconsistent. Conventional 3D materials are often displayed on 2D screens, which can limit their educational impact. This study evaluates the effectiveness of the presentation of 3D learning…

To date, neuroanatomy education courses are still based on two-dimensional (2D) illustrations combined with cadaver dissections. To gain a more comprehensive understanding of neuroanatomy, we offered mixed reality experience using a head-mounted device (HMD) for medical students during their neuroanatomy course. This pilot study´s purpose was to…

The increasing adoption of advanced simulation technologies (virtual reality, augmented reality, sophisticated mannequins) in anatomical science education offers undeniable pedagogical advantages, including safe practice environments and enhanced visualization of complex structures. This article explores the simulation paradox, arguing that the…

The objective of this study is to evaluate the effectiveness of interactive Mixed Reality (MR) learning and compare it to traditional methods for independently learning inner ear anatomy through two experiments. The evaluation was conducted using HoloInnerEar, our new interactive MR tool for inner ear anatomy learning. In the first controlled…

The increasing popularity of mobile devices as alternative tools for learning has led to the adoption of virtual laboratory simulation (VLab) to enhance practical learning experiences. This paper introduces an interactive mobile learning application designed to facilitate medical students in learning ear anatomy using a three-dimensional model.…

Anatomy forms the foundation for the training and execution of routine surgical procedures. However, a gap persists in effectively bridging anatomical knowledge with the confident performance of procedures. Virtual simulation (VS) techniques, based on experiential and situated learning theory, hold promise in addressing this challenge.…

Learning cardiac morphology largely involves spatial abilities and studies indicate benefits from innovative 3D visualization technologies that speed up and increase the learning output. Studies comparing these teaching tools and their educational output are rare and few studies include complex congenital heart defects. This study compared the…

Background: The use of virtual reality (VR) training in high-stakes fields, including medicine, aviation, and the military, prepares individuals for complex scenarios in a safe and controlled setting. VR aligns with dual-code theory, enhancing learning through visual and kinesthetic engagement. This review investigates the application and…

Learning Cell Biology is challenging for both sighted and visually impaired students due to its abstract nature and reliance on bidimensional depictions in textbooks, which often fail to capture the biological complexity of cell structures and functions. To implement inclusive learning environments and address the shortage of learning materials…

Animal dissections have long been central to anatomy and physiology education, despite their costs, safety issues, and ethical concerns. Alternatives like computer-based simulations and synthetic models often fail to replicate the authentic experience of live dissections. Virtual reality (VR) offers an immersive, interactive alternative that…

Anatomy is fundamental to medical disciplines. However, its complexity can be challenging to learners, and traditional anatomy teaching may not be easily accessible. Virtual Reality has the potential to supplement anatomy education, but its effectiveness depends on students' willingness to accept it. This study aimed to measure students'…

Virtual escape rooms (ERs) require learners to solve puzzles and answer riddles while trying to "escape" a digital room. Although the educational merit of such gamified learning activities continues to be realized, guides on the development of ERs are lacking, as well as student perceptions on how, if, and where they should be integrated…

Mixed reality (MR) offers a way to visualize and manipulate complex digital objects in three dimensions, which is particularly beneficial for human anatomy. However, implementing MR effectively requires a deep understanding of its effects on cognitive processes. The purpose of this study was to evaluate cognitive markers of students' engagement…

Integration of 3D photogrammetry models into anatomical education can enhance students' understanding of complex anatomical structures. With advancements in photogrammetry technology, this integration has become more accessible. Interactive, photorealistic models complement traditional methods such as donor dissections. This study evaluates the…

In this article, we introduce a new virtual application that offers an interactive model of the brain for neuroanatomy education. Through a dual-platform architecture, the application can be downloaded on both desktop and mobile devices, with the mobile app leveraging unique capacities of modern handheld systems to deploy the brain model in…