3D4Medical, focuses on providing innovative 3D anatomy learning tools and resources, including educational videos, quizzes, and interactive resources. 3D4Medical's flagship product, Complete Anatomy, is a 3D anatomy platform used in over 300 universities, with over 1 million registered users.
Journey Map
I designed the end-to-end user journey for 3D4Medical with a deep understanding of the multifaceted workflow of a senior physician and medical researcher—balancing patient care, mentorship, and academic research.
The journey begins with patient visits, where the user needs to access high-quality 3D anatomical models quickly and intuitively to explain diagnoses or treatment plans. I optimized the interface for in-clinic usability, allowing for real-time visualization, annotation, and interaction with anatomical structures—improving communication and patient understanding.
Between consultations, the physician transitions into a teaching and mentorship role, advising young physicians and residents. I designed the interface to support dynamic teaching moments, enabling users to bookmark anatomical views, share visual notes, and reference clinically relevant cases directly from the platform.
For office work and lab-based research, I mapped out a journey that supports deep engagement with anatomical content—such as reviewing detailed system views, exporting annotated visuals for publications, and referencing structures aligned with ongoing research topics. The journey also includes smooth access to literature, integrated search functions, and the ability to organize findings across sessions.
By designing for contextual flexibility, I ensured that 3D4Medical meets the demands of a complex professional life—whether in the exam room, at the research bench, or mentoring future clinicians. The result is a cohesive, time-saving experience that supports excellence in clinical care, education, and discovery.
The Results
I designed both the desktop and mobile interfaces of the 3D4Medical tool for Elsevier JBS products, focusing on enhancing anatomical visualization and interactivity across devices.
On desktop, I implemented a side-by-side comparison feature that allows users to view 2D medical illustrations alongside 3D renderings, providing a richer educational context. Each anatomical label is expandable, giving users quick access to definitions and related content without disrupting their workflow.
For the mobile experience, I restructured the label display for smaller screens—optimizing readability and usability while preserving full 3D rotation and exploration of human organ anatomy. The mobile design ensures that users can interact fluidly with complex visuals in a compact, touch-based environment, whether in clinical, academic, or learning settings.