Affiches et résumés avec comité de lecture

[1] Modeling channel-specific hemodynamic response function in epilepsy with EEG-fNIRS data

PENG, K., NGUYEN, D.K., TAYAH, T., VANNASING, P., TREMPLAY, J., M. SAWAN, M., LESAGE, F., POULIOT, P.
AES, Seattle, 2014.

[2] Robust pre-clinical software system for real time monitoring of NIRS and EEG

DEHBOZORGI, M., POULIOT, P., SAWAN, M.
fNIRS, Montreal, Sept 2014.

[3] Using ICA and accelerometers to remove motion artifacts in NIRS data acquired on moving subjects

ARFAOUI, N., POULIOT P., LE LAN, J., SIMARD, V., CHARLEBOIS-CLOUTIER, E., FRASER, A., BHERER, L., LESAGE, F., SAWAN, M.
fNIRS, Montreal, Sept 2014.

[4] Modeling specific hemodynamic response function in fNIRS

PENG, K., NGUYEN, D.K., LE LAN, J., DUPUY, O., KASSAB, A., FRASER, A., BHERER, L., M. SAWAN, M., LESAGE, F., POULIOT, P.
fNIRS, Montreal, Sept 2014.

[5] Sensitivity and specificity in continuous fNIRS-EEG: A spike-focused study on 40 patients with focal epilepsy

PENG, K., TAYAH, T., VANNASING, P., TREMBLAY, J., SAWAN, M., LESAGE, F., NGUYEN, D.K., POULIOT, P.
30th International Epilepsy Congress, Montreal, 2013.

[6] Monitoring and Controlling of the Human Brain Dynamics

KAMRANI, E., FOROUSHANI, A., VAZIRIPOUR, M., SAWAN, M.
29th Southern Biomedical Engineering Conference (SBEC), Miami, USA, May 3-5, 2013.

[7] Centuries of functional electrical stimulation (FES) – lessons learned toward biocompatible and efficient brain microstimulation

KROUCHEV, N., HASANUZAMAN, M., GHANE-MOTLAGH, B., VINET, A., RAUT, R., SAWAN, M.
10e Journée scientifique, OEil, cerveau et vision du GRSV,Montréal, Quebec, Mar. 2013.

[8] Fully Integrated Near Infra-Red Photodetector for Real-time Wireless Brain Imaging

KAMRANI, E., LESAGE, F., SAWAN, M.
Poster, MIOMD-XI: 11th International Conference on Infrared Optoelectronics-Materials and Devices, Chicago, IL, USA, 4 – 8 September 2012.

[9] Design and Implementation of an Integrated Functional Near Infra-Red Spectroscopy Photoreceiver for Real-Time Brain Monitoring

KAMRANI, E., LESAGE, F., SAWAN, M.
Best Poster AwardReSMiQ symposium on Microsystems and networking, 80thACFAS conference, Montréal, May 7, 2012.

[10] Real-time Wireless Brain Imaging using a Fully Integrated Phototransceiver

KAMRANI, E., LESAGE, F., SAWAN, M.
Poster, Journée de la recherche, Ecole Polytechnique, Montréal, May 23-24, 2012.

[11] Étude, modélisation et validation des microélectrodes pour des structures Lab sur puce

MILED, M.A., SAWAN, M.
ACFAS, 2011.

[12] A Biological Laboratory on Microelectronic Chip: Design, Fabrication and Experimental Results

GHAFAR-ZADEH, E., SAWAN, M.
Tehran, 8 (4), 2011.

[13] Capteur implantable basé sur LSP dédié à la détection cellulaire par diélectrophorèse

MILED, M.A., SAWAN, M.
Fetch, 2011.

[14] LoC Dielectrophoresis – Based Implantable Device Dedicated for Cells Manipulation and Detection

MILED, M.A., SAWAN, M.
CMC Texpo, 2010.

[15] Multimodal analysis of nonlinear hemodynamic responses in human epilepsy

POULIOT, P., TREMBLAY, J., ROBERT, M., VANNASING, P., LEPORE, F., LASSONDE, M., SAWAN, M., NGUYEN, D.K., LESAGE, F.
Society for Neuroscience, San Diego, 2010.

[16] Implantable Microsystems Dedicated for Neural Cells Separation and Detection

MILED, M.A., SAWAN, M.
NAMIS 2008, Automn School, Tokyo, Japan Sept-Oct. 2008.

[17] Postnatal Stress Alters Hyperthermic Seizure Patterns in a Dual Pathology Rat Model of Epileptogenesis

DESGENT, S., SANON, N., DUSS, S., BILODEAU, G.A., TARIQUS-SALAM, M., SAWAN, M, CARMANT, L.
American Epilepsy Meeting, Boston, Dec. 2011.

[18] Subdural Porous and Notched Mini Grid Electrodes for Intracranial Electroencephalographic Recordings

NGUYEN, D., TARIQUS-SALAM, M., DESGENT, S., DUSS, S., CARMANT, L., BOUTHILLIER, A., SAWAN, M.
American Epilepsy Meeting, Boston, Dec. 2011.

[19] A Low Power Implantable Responsive Focal Drug Delivery System

TARIQUS-SALAM, M., HAMIÉ, A., NGUYEN, D., SAWAN, M.
American Epilepsy Meeting, Boston, Dec. 2011.

[20] Mobility, People-Place Interaction and Healthy Aging: A Novel Multisensor Device for Health and Place Research and Intervention

KESTENS, Y., GAUVIN, L, THÉRIAULT, M., BARNETT, T., DANIEL, M., CHEVALLIER, A., SAWAN, M
Boston, November 18-22, 2011.

[21] Neurostimulateur hautement intégré et nouvelle stratégie de stimulation pour améliorer la miction chez les paraplégiques

MOUNAIM, F., SAWAN, M.
Fetch Workshop, Quebec, Jan. 2011.

[22] Système hétérogène portable dédié à l’imagerie cérébrale fonctionnelle portable bimodalitée

LAREAU, E., LESAGE F., SAWAN, M.
Fetch Workshop, Quebec, Jan. 2011.

[23] Capteur implantable basé sur LSP dédié à la détection cellulaire par diélectrophorèse

MILED, A., SAWAN, M.
Fetch WorkshopQuebec, Jan. 2011.

[24] LoC Dielectrophoresis – Based Implantable Device Dedicated for Cells Manipulation and Detection

MILED, A., SAWAN, M.
CMC Microsystems MeetingOttawa, Oct. 2010.

[25] A Closed-Loop Implantable Device For Epileptic Seizure Detection and Neurostimulation

TARIQUS-SALAM, M., MOUNAIM, F.., SAWAN, M., NGUYEN, D.
American Epilepsy Meeting, Texas, USA, Dec. 2010.

[26] Low-Voltage Fast-Activity Epileptic Seizure Detector

TARIQUS-SALAM, M., SAWAN, M., et al.
Canadian Epilepsy Meeting, Saskatoon, Canada, November 2009.

[27] Biomedical Implantable Micro-device for Epilepsy Treatment

TARIQUS-SALAM, M., SAWAN, M., NGUYEN, D., HAMOUI, A.
NAMIS, Montreal, August 2008.

[28] A Hybrid IC/Microfluidic Sensor for Lab-on-Chips

GHAFER-ZADEH, E., R., SAWAN, M., THERRIAULT, D.
CMC Microsystems Annual Workshop, Montreal, August 2007.

[29] A New Approach for the Integration of Microfluidic Structures to Microelectronic Devices

GHAFER-ZADEH, E., R., SAWAN, M., THERRIAULT, D.
CMC Microsystems Annual Workshop, Ottawa, October 2005.

[30] Modélisation et caractérisation d’une architecture générique de systèmes ultrasoniques portable

VEILLEUX, N., SAWAN, M.
AITS, Montreal, March 2006.

[31] HVCMOS DC-DC Converter Dedicated for Ultrasonic Transducer

CHEBLI, R., SAWAN, M.
Micronet Annual Workshop, Ottawa, May 2005.

[32] Nouveau Catheter oesophagien sans fil dédié au diagnostic de dysfonctions respiratoires

DESILETS, T., SAWAN, M., BELLEMARE, F.
AITS, Montreal, May 2005.

[33] Dynamically Controlled HVCMOS Low-Power Level-up Shifter

HUANG, Z., SAWAN, M.
Micronet Annual Workshop, Toronto, April 2004.

[34] HVCMOS DC-DC Converter Dedicated for Ultrasonic Transducer

CHEBLI, R., SAWAN, M.
Micronet Annual Workshop, Toronto, April 2004.

[35] Efficient Pipelined Architecture of an Ultrasonic Digital Beamforming Interface

KASSEM, A., SAWAN, M.
Micronet Annual Workshop, 2003.

[36] New Scanning Terchnique for the Power Management of Pixel Array

CARNIGUAIN, S., COULOMBE, J., SAWAN, M.
MR&DCAN, Montreal, June 2003.

[37] An Image Processing System Dedicated to Cortical Visual Stimulators

BUFFONI, L.-X., SAWAN, M.
MR&DCAN, Montreal, June 2003.

[38] Prototype de l’implant visuel

COULOMBE, J., SAWAN, M.
MR&DCAN, Montreal, June 2003.

[39] Prototype de l’implant visuel

COULOMBE, J., HARVEY, JF., ROY, M., SAWAN, M.
MR&DCANJune 2000.

[40] Neurostimulation of the Sacral Nerve Roots for Treament of Bladder Dysfunction of Paraplegics

ABDEL-KARIM, A.M., ABDEL-GAWAD, M., SAWAN, M., et ELHILALI, M.M.
1st Annual McGill Biomedical Graduate Conference, Montreal, QC, February, 2001.

[41] An FLL Based RF Inductive Link with Automatic Control of Power Transfer and Data Transmission

DJEMOUAI, A., SAWAN, M.
Micronet Annual WorkshopApril 2000.

[42] Low-Power Low-Voltage High- Speed CMOS Differential Track and Latch Comparator with Rail-to-rail Input

FAYOMI, C., ROBERTS, G., SAWAN, M.
Micronet Annual WorkshopApril 2000.

[43] New Reconfigurable Ultrasonic Enuresis Monitoring System

BEAUCHAMP-PARENT, A., SAWAN, M.
AQFIM, June 1998.

[44] Adaptive Filtering Using Field Programmable Devices

BRAIS, L.-P., SAWAN, M.
GRIAO Research Review, Montreal, May 1998.

[45] Hardware/Software Architecture of a Viterbi Decoder

EL-HASSAN, F., SAVARIA, Y., KHALI, H., SAWAN, M.
GRIAO Research Review, Montreal, May 1998.

[46] High Performance Integrated CMOS Frequency-to-Voltage Converter

DJEMOUAI, A., SAWAN, M., SLAMANI, M.
GRIAO Research Review, Montreal, May 1998.

[47] High Resolution and Low Area DAC Dedicated to Programmable Current-Source

VOGHELL, J.C., BOURRET, S., SAWAN, M.
GRIAO Research Review, Montreal, May 1998.

[48] Integrated External Controller Dedicated to a Visual Implant

HARVEY, J.-F., SAWAN, M.
GRIAO Research Review, Montreal, May 1998.

[49] A BiCMOS Wide-Lock Range Fully Integrated PLL

FOUZAR, Y., SAWAN, M., SAVARIA, Y.
GRIAO Research Review, Montreal, May 1998.

[50] Universal Sensor Interface

CANTIN, L.-P., SAWAN, M.
GRIAO Research Review, Montreal, May 1998.

[51] CMOS Analog Building Blocks Dedicated to Sensor’s Interfaces

SAWAN, M., CANTIN, L.-P., HARB, A, OUICI, K., ASSI, A.
Micronet Annual Workshop, Ottawa, April 1998.

[52] Selective Sacral High Frequency Blockade to Reduce Bladder Outlet Resistance in Dogs: An Acute Study

TU, L.M., SHAKER, H.S., ROBIN, S., ARABI, K., HASSOUNA, M., SAWAN, M.
American Urological Association Meeting, 1997.

[53] Stimulateur neuromusculaire implantable

ROBIN, S., SAWAN, M.
Association québécoise des fabricants de l’industrie médicale, October 1996.

[54] Acquisition et traitement d’images dédiées à un implant visuel

HARVEY, J.F., SAWAN, M.
Association québécoise des fabricants de l’industrie médicale, October 1996.

[55] Conception et réalisation d’un appareil ultrasonique miniaturisé dédié à l’évaluation du volume de la vessie

PETRICAN, P., SAWAN, M.
Association québécoise des fabricants de l’industrie médicale, October 1996.

[56] A Complete Neuromuscular Stimulation System Based on FPGA Technology

ROBIN, S., PROVOST, B., SAWAN, M.
CMC’96, Ottawa, June 1996.

[57] Architecture parallèle d’une formulation simplifiée du filtre de Kalman

FAYOMI, C., SAWAN, M.
64e Congrès de l’ACFAS, Montreal, May 1996.

[58] Conception et réalisation d’un microcircuit implantable pour la mesure du volume vésical

PROVOST, B., SAWAN, M.
64Congrès de l’ACFAS, Montreal, May 1996.

[59] Convertisseur analogique/numérique à haute résolution dédié à des capteurs sensoriels implantables

HARB, A., SAWAN, M., HAROUN, B.
64Congrès de l’ACFAS, Montreal, May 1996.

[60] Télécommande miniaturisée d’un stimulateur neuromusculaire implantable

FIERRO, L.B., SAWAN, M.
64e Congrès de l’ACFAS, Montreal, May 1996.

[61] Biphasic Programmable Current-Sources for Implantable Miniaturized Stimulators

SAWAN, M., ST-AMAND, R., SAVARIA, Y.
Biomedical Eng. Society, Annual Meeting, Boston, October 1995.

[62] New Generation of Microstimulators Dedicated to Bladder Control

SAWAN, M., ARABI, K., HASSOUNA, M., ELHILALI, M.
Society for Urology and Engineering, Las Vegas, April 1995.

[63] Conception et réalisation d’un démultiplexeur analogique dédié à un microstimulateur visuel implantable

BOYER, A., SAWAN, M.
63Congrès de l’ACFAS, Chicoutimi, 1995.

[64] Conception d’un préamplificateur programmable à basse tension d’alimentation pour capteurs implantables

PROVOST, B., SAWAN, M.
63Congrès de l’ACFAS, Chicoutimi, 1995.

[65] Approche multivariable de prédiction de séries linéaires en utilisant le réseau adaline et la technique du filtre de Kalman

FAYOMI, C., SAWAN, M., BENNIS, S.
63e Congrès de l’ACFAS, Chicoutimi, 1995.

[66] Module du générateur des signaux programmables d’un microstimulateur destiné aux dysfonctionnements vésicaux

ARABI, K., SAWAN, M.
63Congrès de l’ACFAS, Chicoutimi, 1995.

[67] Interfaces neuroélectroniques et tests in-vivo dédiés au contrôle de dysfonctions urinaires

BARADA, H., SAWAN, M., van der PUIJE, P.D., HASSOUNA, M., ELHILALI, M.M.
63eCongrès de l’ACFAS, Chicoutimi, 1995.

[68] Récepteur transcutané implantable pour des applications biomédicales

HARB, A., SAWAN, M., ZHU, J.
63e Congrès de l’ACFAS, Chicoutimi, 1995.

[69] Microstimulateur implantable destiné à la récupération de dysfonctions urinaires

ARABI, K., SAWAN, M.
Congrès de l’AQFIM, Montreal, November 1994.

[70] Stimulation électrique pour récupérer les fonctions vésicales

SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M.
Congrès de l’AQFIM, Montreal, November 1994.

[71] Stimulateur percutané, interfaces neuroélectroniques et tests in-vivo dédiés au contrôle de dysfonctions vésico-sphinctériennes

BARADA, H., SAWAN, M., van der PUIJE, P.D., HASSOUNA, M., ELHILALI, M.M.
Congrès de l’AQFIM, Montreal, November 1994.

[72] Moniteur versatible et invisible à l’usager pour compte-gouttes miniature

PROVOST, B., SAWAN, M.
Congrès de l’AQFIM, Montreal, November 1994.

[73] High Frequency Stimulation to Fatigue the Sphincter for Total Bladder Evacuation

SAWAN, M., HASSOUNA, M., ELHILALI, M.M.
10th Annual Spinal Cord Research Symposium, Montreal, October 1994.

[74] Design of an Implantable Neuromuscular Prosthesis Dedicated to Bladder Dysfunctions

ARABI, K., SAWAN, M.
10th Annual Spinal Cord Research Symposium, Montreal, October 1994.

[75] Return of Detrusor Activity after Spinal Shock using Stimulation: A Possible Mecanism of Action

LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F.
AUA Meeting, Toronto, June 1991.

[76] Modulation of Sphincter Resistance during Voiding by Electrical Stimulation

LI, J.S., HASSOUNA, M., SAWAN, M., DUVAL, F., ELHILALI, M.M.
American Urological Association, Toronto, June 1991.

[77] Nouvelle génération des stimulateurs neuromusculaires implantables

SAWAN, M.
Congrès de l’ACFAS, Sherbrooke, May 1991.

[78] Contrôleur versatile pour un stimulateur nerveux autonome

SAWAN, M., DUVAL, F., ELHILALI, M.M., HASSOUNA, M.
Congrès de l’ACFAS, Sherbrooke, May 1991.

[79] A Versatile Design of the OutputStage for a Multichannel Pain Controller

WEI, M., DUVAL, F., SAWAN, M., MOUINE, J., POURMEHDI, S.
CMC91 Workshop, Kingston, May 1991.

[80] Un implant cochléaire à huit canaux complètement programmable

MOUINE, J., DUVAL, F., POURMEHDI, S., SAWAN, M.
Congrès de l’ACFAS, Quebec, May 1990.

[81] Une télécommande portative pour un implant urinaire

LACHANCE, J., SAWAN, M., POURMEHDI, S., DUVAL, F.
Congrès de l’ACFAS, Quebec, May 1990.

[82] Contrôle par microordinateur d’un implant urinaire multicanal

SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., POURMEHDI, S., MOUINE, J.
Congrès de l’ACFAS, Quebec, May 1990.

[83] Codage en temps réel du signal de la parole pour une prothèse auditive

POURMEHDI, S., DUVAL, F., MABILLEAU, P., MOUINE, J., SAWAN, M.
Congrès de l’ACFAS, Quebec, May 1990.

[84] Conception des nouvelles électrodes biocompatibles

LECLAIR, M., SAWAN, M., DUVAL, F.
Congrès de l’ACFAS, Quebec, May 1990.

[85] Conception d’une puce dédiée à un neurostimulateur multiélectrodes

MOUINE, J., DUVAL, F., POURMEHDI, S., SAWAN, M.
Congrès de l’ACFAS, Quebec, May 1990.

[86] Une nouvelle prothèse électro-tactile

POURMEHDI, S., DUVAL, F., MOUINE, J., SAWAN, M.
Congrès de l’ACFAS, Quebec, May 1990.

[87] Conception et réalisation d’une nouvelle génération de prothèses neurologiques

AUA Meeting, Boston, June 1988.
Congrès de l’ACFAS, Montreal, May 1989.

[88] The Effect of Early Bladder Stimulation on the Spinal Shock

HASSOUNA, M., EL-RIFAEI, A., FOUDA, A., LATT, R., SAWAN, M., DUVAL, F., ELHILALI, M.M.
AUA Meeting, Boston, June 1988.

[89] A 16-Channel Cochlear Implant

TALBOT, M.A., ABTAHI, R., SAWAN, M., DUVAL, F.
CMC Workshop, Kingston, June 1988.

[90] A New Generation of Neurological Prothesis

SAWAN, M., ABTAHI, R., DUVAL, F., MAILHOT, F., TALBOT, M.A.
CMC Workshop, Kingston, June 1988.
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