Title :
Fabrication and packaging of a fully implantable biosensor array
Author :
Baj-Rossi, Camilla ; Kilinc, Enver G. ; Ghoreishizadeh, Sara S. ; Casarino, Daniele ; Jost, Tanja Rezzonico ; Dehollain, Catherine ; Grassi, Flavia ; Pastorino, Laura ; De Micheli, G. ; Carrara, Sandro
Author_Institution :
Lab. of Integrated Syst., Swiss Fed. Inst. of Technol. (EPFL), Lausanne, Switzerland
fDate :
Oct. 31 2013-Nov. 2 2013
Abstract :
In this work, we showed the realization of a fully-implantable device that integrates a microfabricated sensing platform , a coil for power and data transmission and integrated circuits. We described a device intended to test the biocompatibility of the materials used for the microfabrication. Therefore, electronics measurements for data communication and remote powering will be reported in another article [1]. To ensure biocompatibility an epoxy enhanced polyurethane membrane was used to cover the device. We proved through an in-vitro characterization that the membrane was capable to retain enzyme activity up to 35 days. After 30 days of implant in mice, in-vivo experiments proved that the membrane promotes the integration of the sensor with the surrounding tissue, as demonstrated by the low inflammation level at the implant site.
Keywords :
bioMEMS; biochemistry; biomedical electronics; biosensors; electrochemical sensors; enzymes; integrated circuit packaging; integrated circuits; microfabrication; microsensors; polymers; biocompatibility; biological tissue; coil; data transmission; electronics measurements; enzyme activity; epoxy enhanced polyurethane membrane; fully implantable biosensor array; integrated circuits; microfabricated sensing platform; power transmission; remote powering; Biomembranes; Biosensors; Coils; Electrodes; Implants; Sensitivity; Sugar;
Conference_Titel :
Biomedical Circuits and Systems Conference (BioCAS), 2013 IEEE
Conference_Location :
Rotterdam
DOI :
10.1109/BioCAS.2013.6679665
