Abstract

BackgroundEmbryology is a complex morphologic discipline involving a set of entangled mechanisms, sometime difficult to understand and to visualize. Recent computer based techniques ranging from geometrical to physically based modeling are used to assist the visualization and the simulation of virtual humans for numerous domains such as surgical simulation and learning. On the other side, the ontology-based approach applied to knowledge representation is more and more successfully adopted in the life-science domains to formalize biological entities and phenomena, thanks to a declarative approach for expressing and reasoning over symbolic information. 3D models and ontologies are two complementary ways to describe biological entities that remain largely separated. Indeed, while many ontologies providing a unified formalization of anatomy and embryology exist, they remain only descriptive and make the access to anatomical content of complex 3D embryology models and simulations difficult.ResultsIn this work, we present a novel ontology describing the development of the human embryology deforming 3D models. Beyond describing how organs and structures are composed, our ontology integrates a procedural description of their 3D representations, temporal deformation and relations with respect to their developments. We also created inferences rules to express complex connections between entities. It results in a unified description of both the knowledge of the organs deformation and their 3D representations enabling to visualize dynamically the embryo deformation during the Carnegie stages. Through a simplified ontology, containing representative entities which are linked to spatial position and temporal process information, we illustrate the added-value of such a declarative approach for interactive simulation and visualization of 3D embryos.ConclusionsCombining ontologies and 3D models enables a declarative description of different embryological models that capture the complexity of human developmental anatomy. Visualizing embryos with 3D geometric models and their animated deformations perhaps paves the way towards some kind of hypothesis-driven application. These can also be used to assist the learning process of this complex knowledge.Availabilityhttp://www.mycorporisfabrica.org/Electronic supplementary materialThe online version of this article (doi:10.1186/s13326-015-0034-0) contains supplementary material, which is available to authorized users.

Highlights

  • Embryology is a complex morphologic discipline involving a set of entangled mechanisms, sometime difficult to understand and to visualize

  • We describe a novel ontology of human embryo developmental anatomy

  • My Corporis Fabrica (MyCF) Embryo ontology is made of 6 taxonomies of classes related by relations, and by a set of 15 rules, that we will describe

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Summary

Introduction

Embryology is a complex morphologic discipline involving a set of entangled mechanisms, sometime difficult to understand and to visualize. While many ontologies providing a unified formalization of anatomy and embryology exist, they remain only descriptive and make the access to anatomical content of complex 3D embryology models and simulations difficult. Embryology has been studied for many centuries This morphologic discipline studies the transformation of a single cell into a complete organism, which is composed of almost 1014 cells. This discipline has benefited of progress from imagery, histology, molecular biology and genetic. It remains a high level of complexity and lots of physiological and pathological mechanisms stay unclear. No unified model which allows integrating embryological processes into 3D visualization exists

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