Wireless Mobile Communication and Healthcare. Third International Conference, MobiHealth 2012, Paris, France, November 21-23, 2012, Revised Selected Papers

Research Article

Endocom and Cyclope – Two Smart Biomedical Sensors for Cardio-Vascular Surgery and Gastro-Enterology

Download
331 downloads
  • @INPROCEEDINGS{10.1007/978-3-642-37893-5_32,
        author={Patrick Garda and Olivier Romain and Aymeric Histace and Bertrand Granado and Andrea Pinna and Xavier Dray},
        title={Endocom and Cyclope -- Two Smart Biomedical Sensors for Cardio-Vascular Surgery and Gastro-Enterology},
        proceedings={Wireless Mobile Communication and Healthcare. Third International Conference, MobiHealth 2012, Paris, France, November 21-23, 2012, Revised Selected Papers},
        proceedings_a={MOBIHEALTH},
        year={2013},
        month={4},
        keywords={Smart sensors implants biomedical systems embedded systems mems wireless communications cardio-vascular surgery abdominal aortic aneurysm pressure sensor 3d imaging polyps gastro-enterology wireless capsule endoscopy},
        doi={10.1007/978-3-642-37893-5_32}
    }
    
  • Patrick Garda
    Olivier Romain
    Aymeric Histace
    Bertrand Granado
    Andrea Pinna
    Xavier Dray
    Year: 2013
    Endocom and Cyclope – Two Smart Biomedical Sensors for Cardio-Vascular Surgery and Gastro-Enterology
    MOBIHEALTH
    Springer
    DOI: 10.1007/978-3-642-37893-5_32
Patrick Garda1,*, Olivier Romain2,*, Aymeric Histace2,*, Bertrand Granado1,*, Andrea Pinna1,*, Xavier Dray3,*
  • 1: UPMC, Université Pierre et Marie Curie
  • 2: UCP, Université de Cergy Pontoise
  • 3: AP-HP
*Contact email: Patrick.Garda@upmc.fr, Olivier.Romain@u-cergy.fr, Aymeric.Histace@u-cergy.fr, Bertrand.Granado@upmc.fr, Andrea.Pinna@upmc.fr, Xavier.Dray@lrb.aphp.fr

Abstract

In this paper we present two case studies of electronic embedded systems for biomedical applications: ENDOCOM and CYCLOPE. In the former, we designed and realized the prototype of an implantable pressure sensor for the follow-up of the abdominal aortic aneurysm treated by a stent. Numerical modeling, in vitro experiments and in vivo tests on large animal model demonstrated the successful real-time follow-up of the pressure in the aneurysm sac. In the latter, we designed an embedded active multispectral vision system for the real time detection of polyps based both on the classification of the 3D reconstruction of the polyps by SVM and the classification of the texture by boosting methods. An FPGA-based demonstrator of the system was realized. Experiments in laboratory, in vitro and in vivo on a pig were performed to obtain its performances. This system could be integrated into a wireless capsule for colorectal endoscopy.