10th EAI International Conference on Simulation Tools and Techniques

Research Article

3D Stereo-lithographic models placed in Virtual Reality to assist in pre-operative planning

  • @INPROCEEDINGS{10.4108/eai.11-9-2017.2272451,
        author={Abey Campbell and Eleni Mangina and Olivia de Oliveira Ranito and Colin J. McMahon},
        title={3D Stereo-lithographic models placed in Virtual Reality to assist in pre-operative planning},
        proceedings={10th EAI International Conference on Simulation Tools and Techniques},
        publisher={ACM},
        proceedings_a={SIMUTOOLS},
        year={2018},
        month={8},
        keywords={virtual reality augmented reality 3d modelling},
        doi={10.4108/eai.11-9-2017.2272451}
    }
    
  • Abey Campbell
    Eleni Mangina
    Olivia de Oliveira Ranito
    Colin J. McMahon
    Year: 2018
    3D Stereo-lithographic models placed in Virtual Reality to assist in pre-operative planning
    SIMUTOOLS
    ACM
    DOI: 10.4108/eai.11-9-2017.2272451
Abey Campbell1,*, Eleni Mangina1, Olivia de Oliveira Ranito1, Colin J. McMahon2
  • 1: University College Dublin School of Computer Science Ireland
  • 2: University College Dublin Consultant Paediatric Cardiologist Crumlin Ireland
*Contact email: abey.campbell@ucd.ie

Abstract

Congenital heart disease is the most common congenital abnormality affecting 8 per 1000 children. Children with univentricular circulation undergo three staged procedures, the last of which is a Fontan procedure. In some children, the anatomical arrangement makes completion of the Fontan procedure highly complicated, and in some cases not possible, which may imply a serious morbidity or mortality for the child. Currently, echocardiography (ECG), cardiac magnetic resonance imaging (MRI) and computed tomography are used to define the preoperative cardiac anatomy. Five 3Dprinted hearts are already developed for Crumlin Hospital to assess the utility of preoperative 3D printing in assessment of patient suitability for Fontan procedure. The project described in this paper involves the development of 3D stereolithographic models of complex cardiac defects and place them in a VR headset for a medical team to be able to rehearse the surgical procedure.