Title :
Towards the impedimetric tracking of single magnetically trailed microparticles
Author :
Carminati, Marco ; Ferrari, Giorgio ; Kwon, S.U. ; Sampietro, Marco ; Monticelli, M. ; Torti, A. ; Petti, D. ; Albisetti, E. ; Cantoni, Marco ; Bertacco, R.
Author_Institution :
Dipt. di Elettron., Inf. e Bioingegneria, Politec. di Milano, Milan, Italy
Abstract :
We present the design and the preliminary experimental characterization of a novel lab-on-a-chip platform for high-sensitivity impedimetric detection of single magnetic beads employed as magnetic cargos with molecular payload for accurate drug delivery. The real-time impedimetric detection of these superparamagnetic microbeads in saline solution is here experimentally demonstrated (20 nS conductance variation for a single 1μm bead), validating the insulating-sphere model and the finite-element simulations employed for optimal electrode design. A custom electronic front-end for impedance tracking in the 1-10 MHz range, required to compensate the impact of the large parasitic impedance due to the silicon substrate, is also presented. Thanks to introduction of an ad-hoc noise cancelling network based on a dummy circuit and a phase shifter for low-frequency phase noise counteraction by active subtraction, slow fluctuations are significantly reduced (by a factor 10), allowing a SNR > 10.
Keywords :
bioelectric phenomena; biomedical electrodes; biomedical electronics; biomedical measurement; drug delivery systems; electric admittance; electric impedance; finite element analysis; lab-on-a-chip; magnetic particles; microelectrodes; networks (circuits); noise; object tracking; superparamagnetism; SNR; active subtraction; ad-hoc noise cancelling network; conductance 20 nS; conductance variation; custom electronic front-end; drug delivery; dummy circuit; finite element simulations; frequency 1 MHz to 10 MHz; high-sensitivity impedimetric detection; impedimetric tracking; insulating sphere model; lab-on-a-chip platform characterization; lab-on-a-chip platform design; low-frequency phase noise counteraction; magnetic cargos; molecular payload; optimal electrode design; parasitic impedance compensation; phase shifter; real-time impedimetric detection; saline solution; silicon substrate effect; single magnetic bead detection; single magnetically trailed microparticle tracking; size 1 mum; slow fluctuation reduction; superparamagnetic microbead detection; Accuracy; Degradation; Drugs; Indexes; Insulation life; Magnetic confinement; Magnetic resonance imaging; Magnetic beads; drug delivery; impedance detection; microelectrodes;
Conference_Titel :
Multi-Conference on Systems, Signals & Devices (SSD), 2014 11th International
Conference_Location :
Barcelona
DOI :
10.1109/SSD.2014.6808828
