In recent years, digital solutions have become increasingly important in medical education. DIGIHUMAN provides innovative tools to enhance anatomical learning, focusing on realistic and interactive experiences. As a virtual dissection table manufacturer, they create systems that allow students and professionals to explore human anatomy without relying solely on cadaver specimens. Their products help overcome limitations in traditional anatomy teaching while supporting a more engaging learning process.
3D Printed Anatomical Models for Detailed Study
One notable innovation by DIGIHUMAN is the Digihuman 3D Printing Model-Hand Blood Vessels, Nerves, Muscles. This 3D Printing Model is constructed from high-precision digitized human body data, creating a multi-structured anatomical representation. Using full-color and multi-material printing with environmentally friendly resin, the model replicates bones, ligaments, muscles, nerves, and blood vessels accurately. Transparent materials are applied to skin and fascia layers, allowing observers to view internal structures while maintaining their spatial relationships. This approach provides a practical reference for understanding the morphology of normal hand anatomy in a safe, classroom-friendly format.
Integrating Data Accuracy and Educational Value
The anatomical data used in the model comes from a refined digital human dataset and cadaveric specimens preserved with formalin for verification. Each anatomical structure is segmented and textured from original tomographic scans to ensure high fidelity to real human anatomy. With a voxel resolution of 0.0384mm0.0384mm0.1mm, the models offer precise spatial representation, supporting both classroom demonstrations and hands-on training for students or trainees. By using such accurate and visually intuitive models, educators can improve comprehension and retention of complex anatomical structures.
Conclusion: Enhancing Anatomy Education
In summary, DIGIHUMAN, as a leading virtual dissection table manufacturer, combines advanced digital technology and 3D printing to create educational tools that address traditional teaching limitations. Their 3D printed models, such as the hand blood vessels and nerves model, offer detailed, accurate, and visually accessible representations of human anatomy. By integrating high-quality data and innovative design, their solutions support medical schools, training centers, and educational institutions in providing immersive and effective anatomy education experiences worldwide.
