[374] MA Z., CHEN C., LIN Y., QI L., LI Y., BI X., SAWAN M., WANG G., ZHAO J., “An Energy-Efficient FD-fNIRS Readout Circuit Employing a Mixer-First Analog Frontend and a Σ-Δ Phase-to-Digital Converter”,On line on IEEE Transactions on Biomedical Circuits and Systems, 2024.
[373]WU D., LI S., YANG J., SAWAN M.,“Neuro-BERT: Rethinking Masked Autoencoding for Self-Supervised Neurological Pretraining”, On line on IEEE Journal of Biomedical and Health Informatics, 2024.
[372] ZHAO S.,WANG C., FANG C., TIAN F., YANG J., SAWAN M., “HybMED: A Hybrid Neural Network Training Processor with Multi-Sparsity Exploitation for Internet of Medical Things” ,On line on IEEE Transactions on Biomedical Circuits and Systems, 2024.
[371]MARVI F., CHEN Y., SAWAN M., “Alzheimer’s Disease Diagnosis in the Preclinical Stage: Normal Aging or Dementia”, On line on IEEE Reviews in Biomedical engineering, 2024.
[370]SONG X., TAO Y., BIAN S., SAWAN M., "Optical Biosensing of Monkeypox Virus using Novel Recombinant Silica-Binding Proteins for Site-directed Antibody Immobilization", On line on Journal of Pharmaceutical Analysis, 2024.
[369]RONG G., KAVOKIN A., SAWAN M.,“Optical Biosensor Based on Porous Silicon and Tamm Plasmon Polariton for Detection of CagA Antigen of Helicobacter pylori”, MDPI Sensors Journal, Vol. 24, No.16, 2024, pp.5153.
[368]SAJJADI S.A., SADROSSADAT S.A., MOFTAKHARZADEH A., NABAVI M., SAWAN M.,"Yield Maximization of Flip-Flop Circuits Based on Deep Neural Network and Polyhedral Estimation of Nonlinear Constraints", IEEE Access Journal, Vol. 12, 2024, pp.113944-113959.
[367]MARVI F., JAFARI K., SAWAN M., “Grating BioMEMS Platform Architecture for Multiple Biomarkers Detection”, MDPI Biosensors, Vol. 14, No.8, 2024, pp. 385.
[366]KATEBI M., ERFANIAN A., KARAMI M.A., SAWAN M., “Challenges and Trends of Implantable Functional Electrical Neural Stimulators: System Architecture and Parameters”, IEEE Access Journal, Vol. 12, 2024, pp.103203-103236.
[365]BAHRI M., FREDJ Z., QIN P., SAWAN M., "DNA-Coupled AuNPs@CuMOF for Sensitive Electrochemical Detection of Carcinoembryonic Antigen", ACS Applied Nano Materials Journal, Vol. 7, 2024, pp.11921–11930.
[364]SU Y., RONG G., BIAN S., WANG P., LI L., CHEN Y., HUANG C., ZHANG H., SAWAN M., “Dark-Field Resonance Rayleigh Scattering Biosensor to Monitor Small Molecules and Determine the Secretory Ability of Single Neuron”, Advanced Materials Technology, Vol. 9, 2024, 2301701.
[363] BIN HEYAT MB., AKHTAR F., MUNIR F., SULTANA A., MUAAD AY., GUL I., SAWAN M., ASGHAR W., IQPAL SMA., BAIG AA., DE LA TORRE DIEZ I., WU K., “Unravelling the complexities of depression withmedical intelligence: exploring the interplay of genetics, hormones, and brain function”, Springer Complex & Intelligent Systems, Vol.10, 2024, pp.5883-5915.
[362]XIA F., MAO F., LU Y., SAWAN M., “Optimizing Power Transfer Efficiency in Biomedical Implants: A Comparative Analysis of SS and SP Inductive Link Topologies”, IEEE Transactions on Power Electronics, Vol.39, No.9, 2024, pp. 11770-11783.
[361]LI F., LI, D., WANG C.,LIU G.,WANG R., REN H., TANG Y., WANG Y.,CHEN Y., LIANG K., HUANG Q., SAWAN M., QIU M.,WANG H., ZHU B.,"An artificial visual neuron with multiplexed rate and time-to-first-spike coding", NatureCommunications, Vol.15, No.1, 2024, pp.3689.
[360]BIAN S., SHANG M., TAO Y., WANG P., XU Y., WANG Y., SHEN Z., SAWAN M.,“Dynamic Profiling and Prediction of Antibody Response to Inactivated Vaccines with Homologous Boosters by Microsample-driven Biosensor and Machine Learning”, MDPI Vaccines, Vol.12, No.4, 2024, pp. 352.
[359] ESKANDARI R., SAWAN M., “Challenges and Perspectives on Impulse Radio-Ultra-Wideband Transceivers for Neural Recording Applications”, IEEE Transactions on Biomedical Circuits and Systems, Vol.18, No.2, 2024, pp. 369-382.
[358]YANG J., ZHAO S., WANG J., LIN S., HOU Q., SAWAN M., “Precise and Low-power Closed-Loop Neuromodulation through Algorithm-Integrated Circuit Co-Design”,The Frontiers in Neuroscience, Vol.18, 2024, 1340164
[357]YANG X., CHAI C., ZUO H., CHEN Y., SHI J., MA C., SAWAN M., “Monte Carlo-based Optical Simulation of Optical Distribution in Deep Brain Tissues using Sixteen Optical Sources”, MDPI Bioengineering, Vol.11, No.3, 2024, pp. 260.
[356]LI H., HOSSAIN NML., TROCAN M., GALAYKO D., SAWAN M., “CMISR: Circular Medical Image Super-resolution”, Engineering Applications of Artificial Intelligence, Vol. 133, 2024. 108222
[355]WU H., CAI C., MING W., CHEN W., ZHU Z., FENG C., JIANG H., ZHENG Z., SAWAN M.,WANG T., ZHU J., “Speech decoding using cortical and subcortical electrophysiological signals”, Front. Neurosci.,Sec. Neuroprosthetics, Vol.18, 2024, doi.org/10.3389/fnins.2024.1345308
[354] WANG P., FREDJ Z. ZHANG H., RONG G., BIAN S., SAWAN M.,“Blocking Superantigen-mediated Diseases: Challenges and Future Trends”, WileyJournal of Immunology Research, Vol.2024, ID2313062, 2024, doi.org/10.1155/2024/2313062
[353] XU Y., YANG J., MING W., WANG S., SAWAN M., “Shorter latency of real-time epileptic seizure detection via probabilistic prediction”, Expert Systems with Applications, Vol. 236, 2024, 121359.
[352]AMER M., ABUELNASR A., ALI M., HASSAN A., TRIGUI A., RAGAB A., SAWAN M.,SAVARIA Y., “Enhanced Dynamic Regulation in Buck Converters: Integrating Input-Voltage Feedforward with Voltage-Mode Feedback”, IEEEAccess, Vol. 12, 2024, pp. 7310-7328.
[351]SAJJADI S.A., SADROSSADAT S.A., MOFTAKHARZADEH A., NABAVI M., SAWAN M.,“DNN-based Optimization to Significantly Speed Up and Increasethe Accuracy of Electronic Circuit Design”, IEEE Transactions onCircuits and Systems -I, Vol.71, No.3, 2024, pp.1273-1284
[350]AMER M., ABUELNASR A., HASSAN A., RAGAB A., SAWAN M.,SAVARIA Y., “A Half-bridge Gate Driver with Self-adjusting and Tunable Dead-time Modes for Efficient Switched-mode Power Systems”, IEEE Transactions on Power Electronics, Vol.39, No.4, 2024, pp.4384-4399.
[349] ULLAH F., TARKHAN M., FREDJ Z., SU Y., WANG T., SAWAN M., “A Stable Undoped Low-voltage Memristor Cell Based on Titania (TiOx)”, IOPNano Express Journal, Vol 5, No.1, 2024.
[348] RONG G., SAWAN M., “Tamm Plasmon Polariton Biosensors based on Porous Silicon: Design, Validation and Analysis”, MDPI Biosensors Journal, Vol. 13, No. 12, 2023, pp. 1026.
[347] XIA F., Li H., Li Y., LIU X., XU Y., FANG C., HOU Q., LIN S., ZHANG Z., YANG J.,SAWAN M., “Minimally Invasive Hypoglossal Nerve Stimulator Enabled by ECG Sensor and WPT to Manage Obstructive Sleep Apnea”,MDPISensors Journal, Vol. 23, No. 21, 2023, pp. 8882.
[346] YAN S., SUN J., CHEN B., WANG L., BIAN S., SAWAN M., TANG H., WEN L., MENG G., “Manipulating Coupled Field Enhancement in Slot-under-Groove Nanoarrays for Universal Surface-Enhanced Raman Scattering”, ACS Nano Journal, Vol. 17, No. 22, 2023, pp. 22766–22777.
[345] SONG X., FREDJ Z., ZHENG Y., RONG G., BIAN S., SAWAN M., “Biosensors for Waterborne Virus Detection: Challenges and Strategies”,Journal of Pharmaceutical Analysis, Vol. 13, No. 11, 2023, pp. 1252-1268.
[344] WU H., CHEN J., LIU X., ZOU W., YANG J., SAWAN M., “An Energy-Efficient Small-Area Configurable Analog Front-End Interface for Diverse Biosignals Recording”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 17, No. 4, 2023, pp. 818-830.
[343] LIN Y., CHEN C., MA Z., SABOR N., WEI Y., ZHANG T., SAWAN M., WANG G., ZHAO J., “Emulation of Brain Metabolic Activities Based on A Dynamically Controllable Optical Phantom”, AAAI: Cyborg and Bionic SystemsJournal, Vol. 4, ID 47, 2023. doi:10.34133/cbsystems.
[342] RONG G., XU Y., SAWAN M., “Machine Learning Techniques for Effective Pathogen Detection Based on Resonant Biosensors”, MDPI Biosensors Journal, , Vol. 13, No. 9, 2023, pp. 860.
[341] SU Y., BIAN S., PAN D., XU Y., RONG G., ZHANG H., SAWAN M., “Heterogeneous-Nucleation Biosensor for Long-Term Collection and Mask-Based Self-Detection of SARS-CoV-2″, MDPI Biosensors Journal, Vol. 13, No. 9, 2023, 858.
[340] FREDJ Z., WANG P., ULLAH F., SAWAN M., “A Nanoplatform-based Aptasensor to Electrochemically Detect Epinephrine Produced by Living Cells”, Microchimica ActaJournal, Vol. 190, No. 9, 2023, pp. 343.
[339] ESMAEILZADEH M., AUDET Y., ALI M., SAWAN M., “A Wide-range Low-power Thyristor-based Delay Element with Improved Temperature Sensitivity”, IEEE Transactions on Circuits and Systems II: Express Briefs, Vol.70, No. 7, 2023, pp.2370-2374.
[338] WU D., YANG J., SAWAN M., “Transfer Learning on Electromyography (EMG) Tasks: Approaches and Beyond”, IEEE Transactions on Neural Systems & Rehabilitation Engineering Journal, Vol. 31, 2023, pp. 3015-3034
[337]SAWAN M., “Lessons Learned from Serving as VP Publications of the IEEE CAS Society”, IEEE Circuits and Systems Magazine, 2nd Quarter, Vol. 23, No. 2, 2023, pp.49-54.
[336] WANG C., FANG C., ZOU Y., YANG J.,SAWAN M., “SpikeSEE: An Energy-Efficient Dynamic Scenes Processing Framework for Retinal Prostheses “,Neural Networks Journal, Vol. 164, 2023, pp. 357-368.
[335] ASSAF H., SAVARIA Y., ALI M., NABAVI M., SAWAN M., “A Memristive Cell with Long Retention Time in 65 nm CMOS Technology.”Advanced Electronic Materials, Vol. 9, No. 6, 2023.
[334] LI H., TROCAN M., SAWAN M., GALAYKO D., “ICRICS: Iterative Compensation Recovery for Image Compressive Sensing”, Signal, Image and Video Processing Journal, Vol. 17, 2023, pp.2953-2969.
[333] HOSSEINI S.M., MAGHAMI M.H., AMIRI P., SAWAN M., “A 13.56 MHz Low-Power, Single-Stage CMOS Voltage-Boosting Rectifier for Wirelessly Powered Biomedical Implants”, MDPI Electronics Journal, Vol. 12, No. 14, 2023.
[332] FREDJ Z., SINGH B., BAHRI M., QIN P., SAWAN M., “Enzymatic Electrochemical Biosensors for Neuro-transmitters Detection: Recent Achievements and Trends”, Chemosensors Journal, Vol. 11, No. 7, 2023.
[331] CHEN J., YANG J., SAWAN M., “Emerging Trends of Integrated-mixed-signal Chips in ISSCC 2023”, Journal of Semiconductors, Vol. 44, No. 5, 2023.
[330] FANG C., WANG C., ZHAO S., TIAN F., YANG J., SAWAN M., “A 510 uW 0.738-mm 6.2-pJ/SOP Online Learning Multi-Topology SNN Processor with Unified Computation Engine in 40-nm CMOS”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 17, No. 3, 2023, pp. 507-520.
[329] ZHAO S., YANG J., WANG J., LIU T., ZHANG S., SAWAN M., “A 0.99-to-4.38 uJ/class Event-Driven Hybrid Neural Network Processor for Full-Spectrum Neural Signal Analyses”, IEEE Transactions on Biomedical Circuits and Systems, Vol. 17, No. 3, 2023, pp. 598-609.
[328] Wang T., CHEN YH., SAWAN M., “Exploring the Role of Visual Guidance in Motor Imagery-based Brain-computer Interface: An EEG Microstate-specific Functional Connectivity Study”, MDPI Bioengineering Journal, Vol 10, No. 3, 2023, 281.
[327] CHEN YH., YANG J., BEIER K., WU H., SAWAN M., “Challenges and Future Trends in Wearable Closed-loop Neuromodulation to Efficiently Treat Methamphetamine Addiction”, MDPI Frontiers in Psychiatry-Addictive Disorders Journal, Vol 14, 2023.
[326] FREDJ Z., SAWAN M., “Advanced Nanomaterials-based Electrochemical Biosensors for Catecholamines Detection: Challenges and Trends”, Vol 13, No. 2, MDPI Biosensors Journal, 2023, 211
[325] WU D., ZHAO S., YANG J., SAWAN M., “Software-hardware Co-design for Energy-efficient Continuous Health Monitoring via Task-aware Compression”, IEEE Transactions on Biomedical Circuits and Systems, 2023. DOI:10.1109/TBCAS/2023.3238719, pp. 1-12.
[324] ZHENG Y., SONG X., FREDJ Z., BIAN S., SAWAN M., “Challenges and Perspectives of Multi-virus Biosensing Techniques: A Review”, Analytica Chimica Acta Journal, Vol 1244, 2023, 340860
[323] WANG C., FANG C., ZOU Y., YANG J., SAWAN M., “Artificial Intelligence Techniques for Retinal Prostheses: A Comprehensive Review and Future Direction”, J. Neural Eng., Vol. 20, 2023, 011003
[322] TIAN F., YANG J., ZHAO S., SAWAN M., “NeuroCARE: A Generic Neuromorphic Edge Computing Framework for Healthcare Applications”, Frontiers Neurosciences Journal, Vol. 17, 2023, 1093865
[321] GAGLIANO L., DING T.Y., TOFFA D. H., BEAUREGARD, L., ROBERT M., LESAGE F., SAWAN M., NGUYEN D.K., BOUASSI, E., “Decrease in wearable-based nocturnal sleep efficiency precedes epileptic seizures”, Frontiers in Neurology, Vol. 13, 2023, 1089094
[320] ELSAYEGH B., LEDUC-PRIMEAU F.,SAWAN M., DUMOULIN C., “The State of Pelvic Floor Muscle Dynamometry: A Scoping Review”, Neurology and Urodynamics, Vol 42, 2023, pp. 478-499.
[319] WU D., SHI Y., WANG Z., YANG J., SAWAN M., “CSP-Net: Joint Compression and Classification Network for Epilepsy Seizure Prediction”, IEEE Transactions on Neural Systems and Rehabilitation Engineering, Vol 31, pp. 841-850, 2023.
[318] RONG G., ZHENG Y., LI, X., GUO M., SU Y., BIAN S., DANG B., CHEN Y., ZHANG Y., SHEN L., JIN H., YAN R., ZHU P., WEN L., SAWAN M., “A High-throughput Fully Automatic biosensing platform for efficient COVID-19 detection”, Elsevier Biosensors and Bioelectronics Journal, Vol. 220, 2023, 114861.
[317] KARIMI M., ALI M., HASSAN A., BOSTANI R., VAISBAND B., SAWAN M., GOSSELIN B., “A 7.6-ns Delay Subthreshold Level-Shifter Leveraging a Composite Transistor and a Voltage-Controlled Current Source”,IEEE-ACCESS,Vol. 10,2022, pp. 132432-132447.
[316] ESMAEILZADEH M., AUDET Y., ALI M., SAWAN M., “A Low-offset VCO-based Time-domain Comparator Using a Phase Frequency Detector with Reduced Dead and Blind Zones”, IEEE-TCAS-I, 2022, pp. 1-13.
[315] ZHENG W., CHEN Y., SAWAN M., “Longitudinal Data to Enhance Dynamic Stroke Risk Prediction”, MDPI Healthcare Journal, Vol. 10, No. 11, 2022.
[314] RONG G., ZHENG Y., XI, Y., BAO K., XIA F., REN H., BIAN S., LI L., ZHU B., SAWAN M., “A Closed-loop Approach to Fight Coronavirus: Early Detection and Subsequent Treatment”, MDPI Biosensors Journal, Vol. 12, No. 10, 2022.
[313] LI M., YE Z.-W., TANG K., GUO L., BI W., ZHANG Y., TANG Y.-D., RONG G.,SAWAN M., YIN X., SUN R., YUAN S., DANG B., “Enhanced trimeric ACE2 exhibits potent prophylactic and therapeutic efficacy against the SARS-CoV-2 Delta and Omicron variants in vivo”,Cell Research, Vol. 32, No. 6,2022, pp. 589-592.
[312] ELSAYEGH B., ALI M., ASSAF H., SAWAN M., DUMOULIN C., “Portable Dynamometer-Based Measurement of Pelvic Floor Muscle Force”, IEEE Journal of Translational Engineering in Health & Medicine, Vol. 11, 2022, pp. 44-53. DOI: 10.1109/JTEHM.2022.3223258.
[311] LI H., TROCAN M., SAWAN M., GALAYKO D., “Serial Decoders-Based Autoencoders for Image Reconstruction”, Applied Sciences Journal, Vol.12, No. 16, 2022, 8256.
[310] KARIMI M., ALI M., HASSAN A., AGHAJANI A., SAWAN M., GOSSELIN B., “A 9.2-ns to 1-us Digitally Controlled Multi-tuned Deadtime Optimization for Efficient GaN HEMT Power Converters”, IEEE-TCAS-I, Vol. 69, No. 11, 2022, pp. 4381-4394.
[309] WANG J., CHEN Y., YANG J., SAWAN M., “Intelligent Classification Technique of Hand Motor Imagery Using EEG Beta Rebound Follow-up Pattern”, MDPI, Biosensors, Vol. 12, No. 6, 2022, 384
[308] AZIZIPOUR N., AVAZPOUR R., SAWAN M., ROSENZWEIG D.H., AJJI A., “Uniformity of spheroids-on-a-chip by surface treatment of PDMS microfluidic platforms”, Sensors & Diagnostics Journal, Vol. 1, 2022, pp.750-764.
[307] SUN S., YANG J., CHEN Y., MIAO J., SAWAN M., “EEG Signals based Internet Addiction Diagnosis Using Convolutional Neural Networks”, MDPI, Applied Sciences, Vol. 12, No. 13, 2022, 6297.
[306] WU D., YANG J., SAWAN M., “Bridging the Gap Between Patient-Specific and Patient-Independent Seizure Prediction Via Knowledge Distillation”, J. Neural Eng. Vol. 19, No. 3, 2022.
[305] TAO Y., BIAN S., WANG P., ZHANG H., BI W., ZHU P., SAWAN M., “Rapid Optical Biosensing of SARS-CoV-2 Spike Proteins in Artificial Samples”,MDPI Sensors, Vol. 22, No. 10, 2022, 3768.
[304] XU Y., YANG J., SAWAN M., “Multichannel Synthetic Preictal EEG Signals to Enhance the Prediction of Epileptic Seizures”, IEEETransactionson Biomedical Engineering, Online, 2022, 3171982.
[303] WANG C., YANG J., SAWAN M., “NeuroSEE: A Neuromorphic Energy Efficient Processing Framework for Visual Prostheses”, IEEE Journal of Biomedical and Health Informatics, and Featured cover page, Vol. 26, No. 8, 2022, pp. 4132-4141.
[302] AZIZIPOUR N., AVAZPOUR R., SAWAN M., AJJI A., ROSENZWEIG D.H., “Surface optimization and design adaptation toward spheroid formation on-chip”, MDPI Sensors, Vol. 22, No. 9, 2022, 3191.
[301] CHEN J., WU H., TARKHAN M., HASHEMI-NOSHAHR F., YANG J., SAWAN M., “Recent Trends and Future Prospects of Neural Recording Circuits and Systems: A Tutorial Brief”, IEEE Transactions on Circuits and Systems: Express Briefs, Vol. 69, No. 6, 2022, pp. 2654-2660.
[300] ZHAO S. FANG C., YANG J., SAWAN M., “Emerging Energy-Efficient Biosignal-Dedicate Circuit Techniques: A Tutorial Brief”,IEEE Transactions on Circuits and Systems: Express Briefs, Vol. 69, No. 6, 2022, pp. 2592-2597.
[299] TARKHAN M., SAWAN M., “A Novel Current Density based Design Approach of Low-Noise Amplifiers”, IEEE Access Journal, Vol. 10, 2022, pp. 42309-42320.
[298] AZIZIPOUR N., AVAZPOUR R., WEBER M., SAWAN M., AJJI A., ROSENZWEIG D., “Uniform tumor spheroids on surface optimized microfluidic biochip for reproducible drug screening and personalized medicine”, MDPI, Micromachines Journal, Vol.13, No. 4, 2022, 587.
[297] DANG B., LI M., GUO L., YUAN S., YE Z., TANG K., BI W., RONG R., SAWAN M., SUN R., YIN X., ZHANG Y., TANG Y.,”Enhanced Trimeric ACE2 Exhibits Potent Prophylactic and Therapeutic Efficacy against the SARS-CoV-2 Delta and Omicron Variants In Vivo”, Cell research, Vol. 32, No. 6, 2022, pp. 589-592.
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[295] ALI M., HASSAN A., NABAVI M., AUDET Y., SAWAN, M., SAVARIA, Y., “A Versatile SoC/SiP Sensor Interface for Industrial Applications: Implementation Challenges”, IEEE Access, Vol. 10, 2022, pp. 24540-24555.
[294] ZHANG H., RONG G., BIAN S., SAWAN M.,“Lab-on-Chip Microsystems forEx Vivo Network of Neurons Studies: A Review”, Front. Bioeng. Biotechnol., Vol.16, No. 10, 2022, 841389.
[293] MIRFAKHRAEI S., AUDET Y., HASSAN A., SAWAN M., “A Fully Integrated Low-Power Hall-based Isolation Amplifier with IMR Greater than 120 dB”, IEEE TCAS-I, Vol 69, No. 4, April2022, pp. 1385-1394.
[292] HASSAN A., NOEL J.-P., SAVARIA Y., SAWAN M., “Circuit Techniques in GaN technology for High-Temperature Environments”, MDPI Electronics, Vol. 11, No. 1, 2022, 42.
[291] HAMMOUD A., ASSAF H., SAVARIA Y., NGUYEN DK, SAWAN M., “A Molecular Imprinted PEDOT CMOS Chip-based Biosensor for Carbamazepine Detection”,I EEE Transactions on Biomedical Circuits and Systems, Vol. 16, No. 1, 2022, pp. 15-23.
[290] CHAMPAGNE P.O., SANON N., CARMANT L., NGUYEN D.K., DESCHENES S., POULIOT P., BOUTHILLIER A., SAWAN M., “Superparamagnetic Iron Oxide Nanoparticles-Based Detection of Neuronal Activity”, Nanomedicine Journal, Vol. 40, 2022, pp. 102478.
[289] SU Y., LI N., WANG L., RONG G., LIN R., ZHENG Y., SAWAN M.,“Stretchable transparent supercapacitors for wearable and implantable medical devices”, Advanced Materials Technologies Journal, John Wiley & Sons, and Featured page, Vol. 07, No. 1, 2022, 2100608.
[288] BIAN S., SHANG M., SAWAN M., “Rapid biosensing SARS-CoV-2 antibodies in vaccinated healthy donors”, Elsevier, Biosensors and Bioelectronics, Vol. 204, May2022, 11405.
[287] ZHAO S., YANG J., SAWAN M.,“Energy-Efficient Neural Network for Epileptic Seizure Prediction”, IEEE Trans. on Biomedical Engineering, Vol. 69, No. 1, 2022, pp. 401-411.
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[282] BIAN S., TAO Y., ZHU Z., ZHU P., WANG Q., WU H., SAWAN M., “On-site biolayer interferometry-based biosensing of carbamazepine in whole blood of epileptic patients”, MDPI Biosensors, Vol.11, no.12, 2021, pp. 516.
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[277] YANG X., CHEN Y., XIA F.,SAWAN M.,“Photoacoustic imaging for monitoring of stroke diseases: A review”,Elsevier Photoacoustic Journal, Vol. 23, Sept.2021, 100287.
[276] ELZARIF N., MONTAZERI L., PRIMEAU-LEDUC F.,SAWAN M.,“Mobile-Optimized Facial Expression Recognition Techniques,”IEEE Access,Vol. 9,2021, pp. 101172-101185.
[275] RONG G., ZHENG Y.,SAWAN M.,“Energy Solutions for Wearable Sensors: A Review”,MDPI Sensors,Vol. 21, No. 11,2021, 3806.
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[258] SU Y., BIAN S.,SAWAN M., “Real-timeIn Vivo Detection Techniques for Neurotransmitters: A Review”,Analyst Journal,and Featured back page, No. 145,2020, pp. 6193 – 6210.
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[255] AZIZIPOUR N., AVAZPOUR R., ROSENZWEIG D.,SAWAN M.*, AJJI A.* (2 co-supervisors, equal contributions), “Evolution of biochip technology: A review from lab-on-a-chip to organ-on-a-chip”,Micromachines, Section B: Biology and Biomedicine Journal, Vol.11, No. 6,2020, pp. 599.
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[253] SAHA S., LESAGE F.,SAWAN M., “Compact Optical Probe for Time-resolved NIRS- Imaging”,IEEE Sensors Journal, Vol. 20, No. 11, June2020, pp. 6101-6113.
[252] JAVANBAKHT, T., GHANE-MOTLAGH, B.,SAWAN M., “Comparative Study of Antibiofilm Activity and Physicochemical Properties of Microelectrode Arrays”,Microelectronic Engineering, Vol. 229, May2020.
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[248] MONTAZERI, L., ELZARIF, N., TRENHOLM, S.,SAWAN, M., “Optogenetic Stimulation for Restoring Vision to Patients Suffering from Retinal Degenerative Diseases: Current Strategies and Future Directions”,IEEE Transactions on Biomedical Circuits and Systems, Vol. 13, No. 6, Dec.2019, pp.1792-1807.
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[244] CHEBLI, R., ALI, M.,SAWAN, M., “High-CMRR Low-Noise Fully Integrated Front-End for EEG Acquisition Systems”,Electronics, Vol. 8, No. 10, Oct.2019, pp. 1157-1171.
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[242] HAMMOUD A., NGUYEN DK,SAWAN M., “Detection Methods and Tools of Administered Anti-Epileptic Drugs – A Review”,Biosensors and Bioelectronics OA, Online, Feb.2019.
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[237] TOKUDA, T., ISHIZU, T., NATTAKARN, W., HARUTA, M., NODA, T., SASAGAWA, K.,SAWAN, M., OHTA, J. “Design Optimization of CMOS Control Circuit for Integrated Photovoltaic Power Transfer”,Sensors and Materials, Vol. 30, No. 10, 2019, pp. 2343.
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[223] SAHA, S.,SAWAN, M., LESAGE, F., “Compact Fast Optode based Probe for Single-Photon Counting Applications”,Photonics Technology Letters, Vol 30, No. 17,2018, pp.1515-1518.
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[211] BIARDEAU X., HACHED S., LOUTOCHIN O., CAMPEAU L.,SAWAN M., CORCOS J., “Montreal Electronic Artificial Urinary Sphincters: Our futuristic alternatives to the AMS800”,Canadian Urological Journal, Vol. 11, No. 10,2017, pp. E396-E404.
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[203] NABOVATI, G., GHAFAR-ZADEH, E., LETOURNEAU, E.,SAWAN, M., “Towards High Throughput Cell Growth Screening: A New CMOS 8×8 Biosensor Array for Life Science Applications”,IEEE Transactions on Biomedical Circuits and Systems,Vol. 11, No. 2, 2017, pp. 380-391.
[202] GHANE-MOLTAGH, B., CHOUEIB, M., HAJHOSSEINI, AM., HASSANUZZAMAN, M.,SAWAN, M., “Direct Growth of Carbon Nanotubes on New High-Density 3D Pyramid-Shaped Microelectrode Arrays for Brain-Machine Interfaces”,MDPI, Micromachines,Vol. 7, No. 163,2016, pp. 642-650.
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[198] WATSON, M.,SAWAN, M., DANCAUSE N., “The duration of Motor Responses Evoked with Intracortical Microstimulation in Rats is Primarily Modulated by Stimulus Amplitude and Train Duration”,PLOS One, Vol. 11, No. 7,2016.
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[196] LI, N., OSBORN, M., WANG, G.,SAWAN, M., “A Digital Multichannel Neural Signal Processing System Using Compressed Sensing”,Elsevier Digital Signal Processing Journal,Vol. 55, Aug.2016, pp. 64-77.
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[186] CHYU, M.C.,SAWAN, M., and 39 other co-Authors, “Healthcare Engineering Defined: A White Paper”,Journal of Healthcare Engineering,Vol. 6, No. 4, 2015, pp. 635-648.
[185] ZGAREN, M.,SAWAN, M., “A Low-Power Dual-Injection-Locked RF Receiver with FSK-to-OOK Conversion for Biomedical Implants”,IEEE Transactions on CAS-I,Vol. 62, No. 11,2015, pp. 2748-2758.
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[182] AKBAR, M.A., ZGAREN, M., AITSIALI, A., AMIRA, A., BENAMMAR, M., BENSAALI, F.,SAWAN, M., BERMAK, A., “Gas Identification Using Passive UHF RFID Sensor Platform”,Sensors and Transducers,Vol. 194, No. 11, Nov.2015, pp. 42-53.
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[162] MORADI, A.,SAWAN, M., “Differential Rail-To-Rail Voltage-Controlled Quadrature Ring-Oscillator for Low-Power Implantable Transceivers”,Institution of Engineering and Technology (IET) Electronics Letters,Featured page, Vol. 50, No. 22,2014, pp. 1568-1570.
[161] TARIQUS-SALAM, M., GELINAS, S., DESGENT S., DUSS, S., TURMEL, F.B., CARMANT, L.,SAWAN, M., NGUYEN, D.K., “Subdural Porous and Notched Mini Grid Electrodes for Wireless Intracranial Electroencephalographic Recordings”,Journal of Multidisciplinary Healthcare, Vol. 7,2014, pp. 573-586
[160] GHANE-MOTLAGH, B.,SAWAN, M., “High-Density Implantable Microelectrode Arrays for Brain-Machine Interface Applications”,Advances in Science and Technology, Vol. 96, Oct. 2014, pp. 95-101.
[159] MENDEZ, A.,SAWAN, M., “A DSP for Sensing the Bladder Volume Through Afferent Neural Pathways”,IEEE Transactions on Biomedical Circuits and Systems, Vol. 8, No. 4,2014, pp. 552-564.
[158] JUDY, M., SODAGAR, A., LOTFI, R., SAWAN, M., “Nonlinear Signal-Specific ADC for Efficient Neural Recording in Brain-Machine Interfaces”,IEEE Transactions on Biomedical Circuits and Systems, Vol. 8, No. 3,2014, pp. 371-381.
[157] MIRBOZORGI, A., BAHRAMI, H.,SAWAN, M., GOSSELIN, B., “A Smart Multicoil Inductively-coupled Array for Wireless Power Transmission”,IEEE Trans. on Indust. Electronics, Vol. 61, No. 11,2014, pp. 6061-6070.
[156] KROUCHEV N., DANNER, S., VINET, A., RATTAY, F.,SAWAN, M., “Energy-optimal Electrical-stimulation Pulses Shaped by the Least-Action Principle”,PLoS One, Vol. 9, No. 3, e90480, On line,2014.
[155] HACHED, S., LOUTOCHIN, O., CORCOS, J., M.,SAWAN, M. “Novel, Remotely-controlled, Artificial Urinary Sphincter: A Retro-compatible Device”,IEEE/ASME Trans. on Mechat., Vol. 19, No. 4, 2014, pp. 1352-1362.
[154] PENG K., NGUYEN D.K., TAYAH T., VANNASING P., TREMBLAY, J.SAWAN, M., LASSONDE M., LESAGE F., POULIOT, P., “fNIRS-EEG study of focal interictal epileptiform discharges”,Epilepsy Research Journal, Vol. 108, No. 3,2014, pp. 491-505.
[153] LAKKIS, S., YOUNES, R., ALAYLI, Y.,SAWAN, M., “Review of Recent Trends in Gas Sensing Technologies and their Miniaturization Potential”,Sensor Review Journal, Vol. 34, No. 1,2014, pp. 24-35.
[152] KAMRANI, E., LESAGE, F.,SAWAN, M., “Low-Noise, High-Gain TIA Integrated with CMOS APD for Low-Intensity Light Detection in Near-Infrared Spectroscopy”,IEEE Sensors J., Vol. 14, No. 1,2014, pp. 258-269.
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[150] MILED, A.,SAWAN, M., “High Throughput Microfluidic Rapid and Low-Cost Prototyping Packaging Methods”,Journal of Visualized Experiments (JoVE),No. 82,e50735, doi:10.3791/50735, 2013.
[149] MOAZZINI, S., COWAN G.,SAWAN, M., “Optimizing the Power-Sensitivity Trade-off in TRF Receivers”,Springer Analog Integrated Circuits and Signal Processing, Vol. 77, No. 2, Nov.2013, pp. 197-205.
[148] GHANE-MOTLAGH, B.,SAWAN, M., “Design and Implementation Challenges of Microelectrode Arrays: A Review”,Materials Sciences and Applications Journal,No. 4,Aug.2013, pp. 483-495.
[147] MIRZAEI, M., TARIQUS-SALAM, M., NGUYEN, D.,SAWAN, M., “A Fully-Asynchronous Low-Power Implantable Seizure Detector for Self-Triggering Treatment”,The IEEE Transactions on Biomedical Circuits and Systems, Vol. 7, No. 5,2013, pp. 563-572.
[146] LAFLAMME-MAYER, N., WALDER, A., VALORGE, O., BLAQUIÈRE, Y.,SAWAN, M., “A Configurable Input-Output Power Pad for Wafer-Scale Microelectronic Systems”,IEEE-TVLSI, Vol. 21, No.11,2013, pp. 2024-33.
[145] NGUYEN, D., TREMBLAY, J., POULIOT, P., VANNASING, P., CARMANT, L., LEPORE, F.,SAWAN, M., LESAGE, F., LASSONDE, M., “Non-invasive continuous EEG-fNIRS recording of frontal lobe seizures”,Epilepsia, Vol. 54, No. 2, 2013, pp. 331-340 (cover page).
[144] SAFI-HARB, M., MIRABBASI, S.,SAWAN, M., “A Time-Based Technique for Testing LC-Tank Oscillators”,The IEEE-Transactions on Circuits and Systems-I, Vol. 59, no. 9, 2013, pp. 1849-1859.
[143] ZHENG, Y.,SAWAN, M., “Planar Microcoil Array Based Temperature-controllable Lab-on-Chip Platform”,IEEE-Transactions on Magnetics,Vol. 49, No. 10, 2013, pp. 5236 – 5242
[142] CORCOS J., HACHED S., LOUTOCHIN O.,SAWAN, M., “Novel, Remotely-Controlled, Artificial Urinary Sphincter: A Retro-Compatible Device”,The Journal of Urology,Vol. 189,2013, pp. e562-e563.
[141] SAWAN, M., SALAM, M.T., LELAN, J., KASSAB, A., GELINAS, S., VANNASING, P., LESAGE, F., NGUYEN, D., LASSONDE, M, “Wireless Recording Systems: From Non-Invasive EEG-NIRS To Invasive EEG Devices”,IEEE-Trans. on Biomedical Circuits and Systems, Vol. 7, No. 2, Apr.2013, pp. 186-195.
[140] KAMRANI, E., LESAGE, F.,SAWAN, M., “On-Chip Integrated Photoreceiver for Real-time Brain Imaging”,Transactions of Japanese Society for Medical and Biological Eng., Vol. 51, No. Supplement,2013, R-75.
[139] CORCOS J., HACHED S., LOUTOCHIN O.,SAWAN, M., “Development of a Novel Remotely-Controlled Artificial Urinary Sphincter: A Retro-Compatible Device”,Neurourology and Urodynamics,Vol. 32,2013, pp. 128-129.
[138] MILED, A., GAGNE-TURCOTTE, A.,SAWAN, M., “Hybrid Modeling Method for a DEP Based Particle Manipulation”,MDPI Sensors, Vol. 13, No. 2,2013, pp. 1730-1753.
[137] KAMRANI, E., LESAGE, F.,SAWAN, M., “Efficient Premature Edge Breakdown Prevention in SiAPD Fabrication using Standard CMOS Process”,Semiconductor Science & Technology, Vol. 28, No. 4,2013.
[136] CAREMEL, R., CORCOS, J., HACHED, S., LOTOUCHIN, O.,SAWAN, M., “Sphincter artificiel électronique télé-commandé et compatible avec le sphincter AMS 800”,Progrès en Urologie,Vol. 23, No. 13, 2013, pp. 1071.
[135] TARIQUS-SALAM, M., HAMIE, A., NGUYEN, D.,SAWAN, M., “A Smart Biological Signal-Responsive Focal Drug Delivery System for Treatment of Refractory Epilepsy”,Advances in Science and Technology, Vol. 85,2013, pp. 39-46.
[134] MILED, A., MASSICOTTE, G.,SAWAN, M., “Low-Voltage Lab-on-Chip for Micro and Nano Particles Manipulation and Capacitive Detections: Experimental results”,Springer Analog Integrated Circuits and Signal Processing Journal, Vol. 73, No. 3,2012, pp. 707-717.
[133] KAMRANI, E., LESAGE, F.,SAWAN, M., “Fully On-Chip Integrated Photodetector Front-End Dedicated to Real-Time Portable Optical Brain Imaging”,Optics and Photonics J., Vol. 2, No. 4,2012, pp.300-313.
[132] MOUNAIM, F.,SAWAN, M., “Toward A Fully Integrated Neurostimulator with Inductive Power Recovery Front-End”,IEEE-Trans. on Biomed. Circuits and Systems,Vol. 6, No. 4, 2012, pp. 309-318.
[131] MILED, A., MASSICOTTE, G.,SAWAN, M., “Dielectrophoresis-Based Integrated Lab-on-Chip for Nano and Micro-Particles Manipulation and Capacitive Detection”,IEEE-Trans. on Biomedical Circuits and Systems, Vol. 6, No. 2, 2012, pp. 120-132.
[130] KAMRANI, E., FOROUSHANI, A., VAZIRUPOUR, M.,SAWAN, M., “Detecting the Stable, Observable and Controllable States of the Human Brain Dynamics”,J. of Medical Imaging, Vol. 2, No. 4,2012, pp. 128-136.
[129] HASHEMI, S.,SAWAN, M., SAVARIA, Y., “A High-Efficiency Low-Voltage CMOS Active Rectifier for Harvesting Energy in Implantable Devices”,The IEEE-Trans. on BioCAS, Vol. 6, No. 4,2012, pp. 326-335.
[128] TARIQUS-SALAM, M., MIRZAEI, M., SANDRA-LY, M., NGUYEN, D.,SAWAN, M., “An Implantable Closed-loop Asynchronous Drug Delivery System for the Treatment of Refractory Epilepsy”,The IEEE-Trans. on NSRE, Vol. 20, No. 4,2012, pp. 432-442.
[127] MAHVASH, H., GHAFAR-ZADEH, E.,SAWAN, M., “An Image Processing Approach for Blind Mobility Facilitated Through Visual Intracortical Stimulation”,Artificial Organs, Vol. 36, No. 7,2012, pp. 616-628.
[126] TARIQUS-SALAM, M.,SAWAN, M., NGUYEN, D., “Implantable Closed-loop Epilepsy Prosthesis: Modeling, Implementation and Validation”,Journal of Emerging Tech. in Computing, Vol. 8, No. 2, 2012, pp. 9:1-18.
[125] KAMRANI, E., FOROUSHANI, A., VAZIRUPOUR, M.,SAWAN, M., “Efficient Hemodynamic States Stimulation using fNIRS Data with the Extended Kalman Filter and Bifurcation Analysis of Balloon Model”,Journal of Biomedical Science and Engineering (JBiSE), Vol. 5, No. 11, 2012, pp. 609-628.
[124] CAO, Y., ZHU, Y., RONG, G., LIN, Z., WANG, G., GU, Z.,SAWAN, M., “Efficient Optical Pattern Detection for Microcavity Sensors Based Lab-on-a-Chip,”IEEE Sensors Journal, Vol. 12, No. 6,2012, pp. 2121-2128.
[123] TARIQUS-SALAM, M., MOUNAIM, F., NGUYEN, D.,SAWAN, M., “Low-Power Circuit Techniques for Epileptic Seizures Detection and Subsequent Neurostimulation”,Journal of Low Power Electronics,Featured page, Vol. 8, No. 2,2012, pp. 133-145.
[122] SEMMAOUI, H., DROLET, J., LAKHSSASSI, A.,SAWAN, M., “Setting Adaptive Spike Detection Threshold for Smoothed-TEO Based on Robust Statistics Theory”,Trans. on Biomedical Engineering,Vol. 59, No. 2, Feb.2012, pp. 474-482.
[121] SAFI-HARB, M., TARIQUS-SALAM, M., NGUYEN, D.,SAWAN, M., “An Implantable Seizure-Onset Detector Based on a Dual-Path Single-Window Count-Based Technique for Closed-Loop Applications”,IEEE Journal on Emerging and Selected Topics in Circuits and Systems, Vol. 1, No. 4,2012, pp.603-612.
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[119] SULTANA, A., KAMRANI, E.,SAWAN, M., “CMOS Silicon Avalanche Photodiodes for NIR Light Detection: A Survey”,SpringerAnalog IC& Signal Processing J., Vol. 70, 2012, pp. 1-13.
[118] POULIOT, P., TREMBLAY, J., ROBERT, M., P. VANNASING, P., LEPORE, F., LASSONDE, M.,SAWAN, M., NGUYEN, D.K., LESAGE, F., “Nonlinear Hemodynamic Responses in Human Epilepsy: A Multimodal Analysis With fNIRS-EEG and fMRI-EEG”,J. Neurosci Methods, Vol. 204, No. 2, Nov.2012, pp. 326-340.
[117] GOSSELIN, B., HOSSEINI-KHAYAT, S., QUOTB, A.,SAWAN, M., “Hardware Implementation of Wavelet Transforms for Real-time Detection and Compression of Biopotentials in Neural Implants”,The J. of Current Development in Theory and Applications of Wavelets, Vol. 5, No. 1,2011, pp. 1-34.
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[115] NADIRI, A., MANNOR, S.,SAWAN, M., GROSS, W., “Delayed Stochastic Decoding of LDPC Codes”,The IEEE-Trans. on Signal Processing, Vol. 59, No. 11,2011, pp. 5617-5626.
[114] LAREAU, E., POULIOT, P., LESAGE, F., NGUYEN, D.,SAWAN, M., “Multichannel Wearable System Dedicated for Simultaneous Electroencephalography/Near-Infrared Spectroscopy Real-Time Data Acquisitions”,The Journal of Biomedical Optics, Vol. 16, No. 9, Sept2011, pp. 1-14.
[113] HAMZA, J.,SAWAN, M., JAIN, P.K., “Suppression of Common-Mode Input Electromagnetic Interference Noise in DC-DC Converters using Active Filtering Method”,IET Power Electronics, Vol. 4, No. 7, Aug.2011, pp. 776-784.
[112] ALTERKAWI-HASIB, O.,SAWAN, M., SAVARIA, Y., “A Low-Power Asynchronous Step-Down DC-DC Converter for Implantable Devices”,IEEE-Trans. on BioCAS, Vol. 5, No. 3, June 2011, pp. 292-301
[111] MOUNAÏM, F.,SAWAN, M., “Integrated High-Voltage Inductive Power and Data Recovery Front-End Dedicated to Implantable Devices”,IEEE-Trans. on BioCAS, Vol. 5, No. 3, June 2011, pp. 283-291.
[110] AWWAD, F., NEKILI, M.,SAWAN, M., “A Novel Theory on Parallel Repeater-Insertion Methodologies for Long On-Chip Interconnects”,Int’l J. of Circuit Theory and Applications, Vol. 39, Jan. 2011, pp.1-16.
[109] GHAFAR-ZADEH, E.,SAWAN, M., “A Biological Laboratory on Microelectronic Chip: Design, Fabrication, And Experimental Results”, The Scientific Information Database, Vol. 8, No. 4, 2011.
[108] ETHIER. S.,SAWAN, M., “Exponential Current Pulse Generation for Efficient Very High-Impedance Multisite Stimulation”,IEEE-Trans. on Biomed. Circuits & Systems, Vol. 5, No. 1, Feb. 2011, pp. 30-38.
[107] MENDEZ, A.,SAWAN, M., “Chronic Monitoring of The Bladder Volume: Critical Review and Assessment of Measurement Methods”,Canadian J. of Urology, Vol. 8, No. 1, Feb. 2011, pp. 5504-16.
[106] GHAFAR-ZADEH, E., CHOWDHURY, S.F., ALIAKBAR, A., LAMBROSE, R., CHODAVARAPU, V.P., BEITAL, L.,SAWAN, M., TRIFIRO, M., “Handheld Impedance Biosensor System using Engineered Proteinaceous Receptors”,Biomedical Microdevices Journal,Vol. 12, No.6,2010, pp. 967-975.
[105] MOUNAÏM, F., ELZAYAT, E.,SAWAN, M., CORCOS, J., ELHILALI, M., “New Neurostimulation and Blockade Strategy to Reduce Sphincter Resistance in Spinalized Dogs”,Contemporary Engineering Sciences J.,Vol.3, No.7,2010, pp. 321-337.
[104] GHAFAR-ZADEH, E.,SAWAN, M., CHODAVARAPU, V.P., HOSSEINI-NIA, T., “Bacteria Growth Monitoring Through a Differential CMOS Capacitive Sensor”,IEEE Trans. on Biomedical Circuits & Systems, Vol. 4, No. 4, August2010, pp. 232-238.
[103] GOSSELIN, B.,SAWAN, M., “Linear-Phase Delay Filters for Ultra-Low-Power Signal Processing in Neural Recording Implants”,IEEE Trans. on Biomed. Circuits & Systems,Vol. 4, No.3, June2010, pp. 171-180.
[102] SIMARD, G., SAWAN, M., MASSICOTTE, D., “High Speed OQPSK and Efficient Power Transfer Through Inductive Link for Biomedical Implants”,IEEE Trans. on Biomedical Circuits & Systems,Vol. 4, No.3, June 2010, pp. 192-200.
[101] TARIQUS-SALAM, M.,SAWAN, M., NGUYEN, D., “An alternative treatment for epilepsy: low-power implantable device”,The Journal of Healthcare Engineering, Vol. 1, No. 2, June 2010, pp. 169-183.
[100] GOSSELIN, B.,SAWAN, M., “A low-power integrated neural interface with digital spike detection and extraction”,Springer Analog IC and SP Journal, Vol. 64, No.2, July2010, pp. 3-11.
[99] LÉVESQUE, P.,SAWAN, M., “Low-power hand-held ultrasound digital preprocessing unit with wireless display”,IEEE Trans. on Ultrasonics, Ferroelec., and Freq. Control, Vol.57, No.3,2010, pp. 757-767.
[98] CHEBLI, R.,SAWAN, M., EL-SANKARY, K., SAVARIA, Y., “High-Voltage DMOS Integrated Circuits Using Floating-Gate Protection Technique”,Springer Analog IC & Signal Proc. J., Vol. 62, No. 2,2010, pp. 223-235.
[97]SAWAN, M.,HASHEMI, S., SEHIL, M., AWWAD, F., HAJJ-HASSAN, M., KHOUAS, A., «Multi coils-based inductive links dedicated to power up implantable medical devices: modelling, design and experimental results»Biomedical Micro devices, Vol. 11, No. 5, October2009, pp. 1059-1070.
[96] HASHEMI, S.,SAWAN, M., SAVARIA, Y., “A Novel Low-Drop Voltage CMOS Active Rectifier for RF Powered Devices: Experimental Results”,Elsevier Microelectronics J., Vol. 40, No. 11,2009, pp. 1547-1554.
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[94] GHAFAR-ZADEH, E.,SAWAN, M., “CMOS Based Capacitive Sensor Laboratory-on-Chip: A Multidisciplinary Approach”,SpringerAnalog ICs & Signal Proc. J, Vol. 59, No. 1, April2009, pp. 1-12.
[93] GHAFAR-ZADEH, E.,SAWAN, M., CHODAVARAPU, V.P., “Micro-Organism-on-Chip: Emerging Direct-Write CMOS-Based Platform for Biological Applications”IEEE Transactions on Biomedical circuits and systems, Vol. 3, No. 4,2009, pp. 212-219.
[92] GOSSELIN, B.,SAWAN, M., “An Ultra-Low-Power CMOS Automatic Action Potential Detector”,IEEE Trans. on Neural Systems & Rehabilitation Engineering, Vol. 17, No. 4, August2009 pp. 346-353.
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[90] NAJMABADI, M., DEVABHAKTUNI, V.,SAWAN, M., MAYRAND, S., FALLONE, C.A., “A New Approach to Analysis and Modeling of Esophageal Manometry Data in Humans”,IEEE Transactions on Biomedical Eng., Vol. 56, No. 7, 2009, pp. 1821-1830.
[89] GHAFAR-ZADEH, E.,SAWAN, M., THERRIAULT, D., “A Microfluidic Packaging Technique for Lab-on-Chip Applications”,IEEE Trans. on Advanced Packaging, Vol. 32, No. 2, May 2009, pp. 410-416.
[88] GOSSELIN, B., AYOUB, A.E., ROY, J.F.,SAWAN, M., LEPORE, F., CHAUDHURI, A., GUITTON, D., “A Mixed-Signal Multi-Chip Neural Recording Interface with Bandwidth Reduction”,IEEE Trans. on Biomedical Circuits & Systems, Vol. 3, Issue 3, June2009, pp. 129-141.
[87] TANGUAY, L.F.,SAWAN, M., SAVARIA, Y., “A Very-High Output Impedance Charge Pump for Low-Voltage Low-Power PLLs”,Elsevier Microelectronics Journal, Vol. 40,2009, pp. 1026–1031.
[86] GHAFAR-ZADEH, E.,SAWAN, M., “Toward Fully Integrated Lab-on-Chip: Design, Assembly and Experimental Results”,Int. J. of Advanced Media and Communications, Vol.3, No. 1/2,2009, pp. 154-166.
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[84] NADERI, A., SAWAN, M., SAVARIA, Y., “A Low-power 2-GHz Data Conversion using Delta Modulation for Portable Application”,Elsevier Microelectronics Journal, Vol. 42, No. 1, Jan. 2009, pp. 68-76.
[83] RAJAGOPALAN, S.,SAWAN, M.,GHAFAR-ZADEH, E., SAVADODGO, O., CHODAVARAPU, V., “A Polypyrrole-based Strain Sensor Dedicated to Measure Bladder Volume in Patients with Urinary Dysfunction”, BioMEMS Special Issue, Sensors, Vol. 8, No. 8,2008, pp. 5081-5095.
[82] NADERI, A.,SAWAN, M., SAVARIA, Y., “On the Design of Undersampling Continuous-Time Band-Pass Delta-Sigma Modulators for Gigahertz Frequency A/D Conversion”,IEEE Trans. on Circuits & Systems-I, Vol. 55, no. 11, Dec.2008, pp. 3488-3499.
[81]SAWAN, M., BA, A., MOUNAIM, F., CORCOS, J., ELHILALI, M.M., “Biomedical Circuits and Systems Dedicated for Sensing and Neurostimulation: Case study on Urinary Bladder dysfunctions”,Turk. Journal of Elec. Eng., Vol. 16, No. 3, Dec.2008, pp. 1-17.
[80] GHAFAR-ZADEH, E.,SAWAN, M., THERRIAULT, D., MILED, M.A., “Laboratoires-sur-puces: Nouvelle technologie de diagnostic cellulaire et moléculaire”, IEEE Canadian Review, No. 58, Aug. 2008, pp. 20-22.
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[78] ACHIGUI, H.,SAWAN, M., FAYOMI, C.-J., “A monolithic based NIRS front-end wireless sensor”,Elsevier Microelectronics Journal,Vol. 39, March2008, pp. 1207-1217.
[77] TANGUAY, L.F.,SAWAN, M., “An Ultra-Low Power ISM-Band Integer-N Frequency Synthesizer Dedicated to Implantable Medical Microsystems”,SpringerAnalog ICs & Sig. Proc. J, Vol. 58, No. 3,2008, pp. 205-214.
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[75] SALEH, A., SAWAN, M., EL-ZAYAT, CORCOS, J., E., ELHILALI, M.M., “Detection of Bladder Volume from the Neural Afferent Activities in dogs: Experimental Results”,Special Issue of Neurological Research: Spinal Cord Research, Vol. 30, No. 1, February2008, pp. 28-35.
[74]SAWAN, M., MOUNAIM, F., LESBROS, G., “Long Term Monitoring for In-Vivo Characterization of Electrode-Tissues Contacts”,Springer Anal. ICs & Signal Processing J., Vol. 55, No. 1,2008, pp. 103-114.
[73] AWWAD, F., NEKILI, M., RAMACHANDRAN, V.,SAWAN, M., “On Modeling of Parallel Repeater-Insertion Methodologies for SoC Interconnects”,IEEE Trans. on Circuits and Systems –I, Vol. 55, No. 1,2008, pp. 322-335.
[72]SAWAN, M., GOSSELIN, B., COULOMBE, J., AYOUB, A.E., CHAUDHAURI, A., LEPORE, F., “Implantable electronics for the recovery of neuromuscular functions”,Advances in Science and Technology, Vol. 57,2008, pp. 204-209.
[71] GHAFAR-ZADEH, E.,SAWAN, M., THERRIAULT, D., “A 0.18-µm CMOS Capacitive Sensor Lab-on- Chip”,Elsevier Sensors & Actuators, Vol. 141, Issue 2, Feb.2008, pp. 454-462.
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[68] COULOMBE, J.,SAWAN, M., GERVAIS, J.F., “A Highly Flexible System for Microstimulation of the Visual Cortex: Design and Implementation”,IEEE Trans. on Biomedical Circuits & Systems, Vol. 1, No. 4,2007, pp. 258-269.
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[66] DJEMOUAI, A.,SAWAN, M., “Circuit Techniques Dedicated to Effectively Wireless Transfer Power and Data to Electronic Implants”,J. of Circuits, Systems, and Computers, Vol. 16, No. 5, Oct.2007, pp. 801-818.
[65] ACHIGUI, H.,SAWAN, M., FAYOMI, C.-J., “A 1 V Fully Differential, Fully Balanced Opamp: Implementation and Experimental Results”,Springer Analog ICs & Signal Processing J., Vol. 53, No. 1, Oct.2007, pp. 19-25.
[64] SAHEB, J.-F., RICHARD, J.-F.,SAWAN, M., SAVARIA, Y., “System Integration of High Voltage Electrostatic MEMS Actuators”,Springer Analog ICs & Signal Processing J., Vol. 53, No. 1, Oct.2007, pp. 27-34.
[63] GOSSELIN, B., SAWAN, M., CHAPMAN, A., “A Low-Power Integrated Bioamplifier With a New DC Rejection Scheme”,IEEE Trans. on Biomedical Circuits & Systems,Vol. 1, No. 3, Sept. 2007, pp. 184-192.
[62] SAWAN, M., LAAZIRI, Y., MOUNAIM, F., ELZAYAT E., CORCOS J., ELHILALI M.M., “Electrode-Tissues Interface: Modeling and Experimental Measurements”,Biomedical Materials, Vol. 2,2007, S7-S15.
[61] GHAFAR-ZADEH, E.,SAWAN, M., THERRIAULT, D., “Novel Direct-Write CMOS-based Laboratory-On-Chip: Design, Assembly and Experimental Results”,Elsevier Sensors & Actuators, Vol. 134, No. 1, February2007, pp. 27-36.
[60] CHEBLI, R.,SAWAN, M., “Fully Integrated High-Voltage Front-End Interface for Ultrasonic Sensing Applications”,IEEE Trans. on Circuits and Systems –I,Vol. 54, No. 1, January2007, pp. 179-190.
[59] BOYOGUENO-BENDE, A.,SAWAN, M., SLAMANI, M., “A BiCMOS 120 mw 11 GHz transimpedance amplifier dedicated for high-speed photoreceivers”,J. of Circuits, Systems and Computers, Vol. 15, No. 4,2006, pp. 467-490.
[58] SAWAN, M., TREPANIER, A., TREPANIER, J.L., AUDET, Y., “A New CMOS Multimode Digital Pixel Sensor Dedicated to an Implantable Visual Cortical Stimulator”,Springer Analog ICs & Signal Processing J.,Vol. 49,2006, pp. 187-197.
[57] ACHIGUI, H., FAYOMI, C.-J.,SAWAN, M., “1 V DTMOS Based Class AB Operational Amplifier: Implementation and Experimental Results”,IEEE Journal of Solid-State Circuits, Vol. 41, No. 11, November2006, pp. 2440-2448.
[56] EL-SANKARY, K.,SAWAN, M., “High Resolution Background Calibrated ADCs for Software Defined Radios”,IEE Microelectronics Journal, Vol. 37, November2006, pp. 1231-1240.
[55] AMEZZANE, I.,SAWAN, M., BELLEMARE, F., “Modelling and Simulation of an Infants’s Whole Body Plethysmograph”,Springer Med. Biol. Eng. Computing, Vol. 44, No. 9, August2006, pp. 823-828.
[54] El-SANKARY, K.,SAWAN, M., “A Background Calibration Technique for Multi-bit/Stage Pipelined and Time-Interleaved ADCs”,IEEE Trans. on Circuits and Systems-II, Vol. 53, No. 6, June2006, pp. 448-452.
[53] QIN, L. EL-SANKARY, K.,SAWAN, M., “A 1.8V CMOS Fourth-Order Gm-C Bandpass Sigma-Delta Modulator Dedicated to Front-End Ultrasonic”, Springer Analog IC & Signal Proc. J., Vol. 48, August2006, pp. 121-132.
[52] FAYOMI, C.,SAWAN, M., ROBERTS, G., “Low-Voltage Analog Switch in Deep Submicron CMOS: Design Technique and Experimental Measurements”,IEICE Fundamentals, Vol. E89, no. 4,2006, pp. 1076-1087.
[51] NORMANDIN, F.,SAWAN, M., FAUBERT, J., “A New Integrated Front-End for a Non-Invasive Brain Imaging System Based on Near-Infrared Spectroreflectometry”,IEEE Transactions on CAS-I, Vol. 52, no. 12, December2005, pp. 2663-2671.
[50] HU, Y.,SAWAN, M., “A Fully-Integrated Low-Power BPSK Demodulator for Implantable Medical Devices”,IEEETransactions on CAS-I, Vol. 52, no. 12, December2005, pp. 2552-2562.
[49] DJEBBI, M., ASSI, A.,SAWAN, M., “Design of Monolithic Tunable CMOS Band-Pass Filter Using Current Feedback Operational Amplifiers”,Springer Analog ICs & Sig. Proc. J.,Vol. 45, no. 2,2005, pp. 143-154.
[48] BOYOGUENO-BENDE, A.,SAWAN, M., SLAMANI, M., “Design for Stability of High-Speed Integrated Photoreceivers: A Tutorial”,Springer Analog ICs & SP J., Vol. 45, no. 1, October2005, pp. 79-98.
[47] KASSEM, A.,SAWAN, M., BOUKADDOUM, M., HAIDAR, A., “Perception SoC based on an ultrasonic array of sensors: Efficient DSP core implementation and subsequent experimental results”,EURASIP J. on Applied Signal Processing,Vol. 7, no. 11, August2005, pp. 1071-1081.
[46] LU, Z., HU, Y.,SAWAN, M., “A 900 mV 66µW Sigma-Delta Modulator Dedicated to Implantable Sensors”,IEICE Transactions on Information and Systems, Vol. E88-D, no. 7, July2005, pp. 1610-1617.
[45] BELLEMARE, F., PECCHIARI, M., BANDINI, M.,SAWAN, M., D’ANGELO, E., “Reversibility of Airflow Obstructionby HypoglossusNerve Stimulation in Anesthetized Rabbits”,American Journal of Respiratory and Critical Care Medecine, Vol. 172, June2005, pp. 606-612.
[44] KASSEM, A.,SAWAN, M., BOUKADDOUM, M., “A New Digital Scan Conversion Architecture for Ultrasonic Imaging Systems”,J. of Circuits, Systems, and Computers, Vol. 14, No. 2,2005, pp. 367-382.
[43] BUFFONI, L.X.,SAWAN, M., COULOMBE, J., “Image Processing Strategies Dedicated to Visual Cortical Stimulators: A Survey”,Artificial Organs J., Vol 29, no 8, June2005, pp. 658-664.
[42] SAWAN, M., HU, Y., COULOMBE, J., “Wireless Smart Implants Dedicated to Multichannel Monitoring and Microstimulation”, Invited paper in IEEE Circuits and Systems Magazine, Vol. 5, April2005, pp. 21-39.
[41] COULOMBE, J., CARNIGUIAN, S.,SAWAN, M., “A Power Efficient Electronic Implant for a Visual Cortical Stimulator”,Artificial Organs J., Vol. 29, no. 3, March2005, pp. 233-238.
[40] HU, Y.,SAWAN, M., EL-GAMAL, M., “An Integrated Power Recovery Module Dedicated to Implantable Devices”,Springer Analog ICs & Signal Processing J.,Vol. 42, no. 3, February 2005, pp. 171-181.
[39] EL-SANKARY, K., ASSI, A.,SAWAN, M., “New Sampling Method to Improve the SFDR of Wide Bandwidth ADC dedicated to next Generation Wireless Transceiver”,Journal of Circuits, Systems and Computers, Vol. 13, no. 6, October2004, pp. 1183-1202.
[38] JECKELIN, E.G., GHANNOUCHI, F.M.,SAWAN, M., “A New Adaptive Predistortion Technique Using Software-Defined Radio and DSP Technologies Suitable for Base Station 3G Power Amplifiers”,IEEE Trans. on Microwave Theory and Techniques,Vol. 52, No. 9, September2004, pp. 2139-2147.
[37] HARB, A.,SAWAN, M., “Low-Power CMOS Interface for Recording and Processing Very Low Amplitude Signal”,KluwerAnalog ICs & Signal Processing J.,April 2004, Vol. 39, pp. 39-54.
[36] EL-SANKARY, K.,SAWAN, M., “A Digital Blind Background Capacitor Mismatch Calibration for Pipelined ADC”,IEEE Trans. on CAS II, Vol. 51, No. 10, October2004, pp. 507-510.
[35] FAYOMI, C.,SAWAN, M., ROBERTS, G., “Reliable Circuit Techniques for Low-Voltage Analog Design in Deep Submicron Standard CMOS: A Survey”,Kluwer Anal. ICs & SP. J., Vol. 39, April 2004, pp. 21-38.
[34] SAWAN, M., CHEBLI, R., KASSEM, A., “Integrated Front-End Receiver for a Portable Ultrasound System”, KluwerAnalog ICs & Signal Processing J., August 2003, Vol. 36, pp. 57-67.
[33] CRAMPON, M.A.,SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New easy to install nerve cuff electrode based on a shape memory alloy armature: fabrication, modelling and experimental results”,Int. Journal of Biomedical Materials and Engineering, Vol. 12, No. 4, April2002, pp. 392-395.
[32] HU, Y.,SAWAN, M., “CMOS Front-end Amplifier Dedicated to Monitor Very Low Amplitude Signal from Implantable Sensors”,KluwerAnalog ICs & Signal Processing J., May 2002, Vol.33, pp. 29-41.
[31] DJEMOUAI, A.,SAWAN, M., SLAMANI, M., “New Frequency-Locked Loop Based on CMOS Frequency-to-Voltage Converter: Design and Implementation”,IEEE Trans. on Circuits & Systems II, Vol. 48, No. 5,2001, pp. 441-449.
[30] ABDEL-GAWAD, M., BOYER, S.,SAWAN, M., ELHILALI, M., “Reduction of bladder outlet resistance by selective stimulation of the ventral sacral root using high frequency blockade : a study in chronic spinalized dogs”,The Journal of Urology, Vol. 166, No. 22, August2001, pp. 728-733.
[29] SAWAN, M., Comments on paper J. Garvis, N. Rijkhoff “Functional Electrical Stimulation for Control of Internal Organ Function”,Neuromodulation, Vol. 4, no 4, April2001, pp.163-164.
[28] BOYER, S.,SAWAN, M., ABDEL-GAWAD, M, ROBIN, S., ELHILALI, M.M., “Implantable Selective Stimulator to Improve Bladder Voiding: Design and Chronic Experiments in Dogs”,IEEE Trans. on Rehabilitation Eng., Vol. 8, No. 4, December2000, pp. 464-470.
[27] DONFACK, C.,SAWAN, M., SAVARIA, Y., “An implantable measurement technique dedicated to the monitoring of electrodes-nerve contact in bladder stimulators”,Medical & Biological Engineering & Computing, Vol. 38, March2000, pp. 465–468.
[26] CRAMPON, M.A.,SAWAN, M., BRAILOVSKI, V., TROCHU, F., “New easy to install nerve cuff electrode using SMA armature”,Artificial Organs Journal, Vol. 23, No. 5, May1999, pp. 392-395.
[25] ASSI, A.,SAWAN, M., “High Performance CMOS Transconductor for Mixed-signal Analog-Digital Applications”,Kluwer Analog ICs & Signal processing J.,Vol. 19, June1999, pp. 303-317.
[24] ARABI, K.,SAWAN, M., “Electronic Design of a Multichannel Programmable Implant for Neuromuscular Electrical Stimulation”,IEEE Trans. on Rehabilitation Engineering, Vol. 7, No. 2, June 1999, pp. 204-214.
[23] ROBIN, S.,SAWAN, M., ABDEL-GAWAD, M., ABDEL-BAKY, T.M., ELHILALI, M.M., “Implantable Stimulation System Dedicated for Neural Selective Stimulation”,Medical & Biological Engineering & Computing, Vol. 36, No. 4, July1998, pp. 490-492.
[22] ASSI, A.,SAWAN, M., ZHU, J., “An Offset Compensated and High-Gain CMOS Current-Feedback OP AMP”,IEEE Trans. on Circuits and Systems I, Vol. 45, No. 1, January1998, pp. 85-90.
[21] PETRICAN, P.,SAWAN, M., “Design of a Miniaturized Ultrasonic Bladder Volume Monitor and Subsequent Preliminary Evaluation on 41 Enuretic Patients”,IEEE Trans. on Rehabilitation Engineering, Vol. 6, No. 1, March1998, pp. 66-74.
[20] ARABI, K., KAMINSKA, B.,SAWAN, M., “On Chip Testing Data Converters Using Static Parameters”,IEEE Trans. on VLSI Systems, Vol. 6, No. 3, September1998, pp. 409-419.
[19] SHAKER, H.S., TU, L.M., ROBIN, S., ARABI, K., HASSOUNA, M.,SAWAN, M., ELHILALI, M.M., “Reduction of Bladder Outlet Resistance by Selective Sacral Root Stimulation Using High-Frequency Blockade in Dogs: An Acute Study”,The Journal of Urology, Vol. 160, September1998, pp. 901-907.
[18] PROVOST, B.,SAWAN, M., “Proposed New Bladder Volume Monitoring Device Based on Impedance Measurement”,Med. Biol. Eng. Comput, No. 35, November1997, pp. 691-694.
[17] SAWAN, M., ARABI, K., PROVOST, B., “Implantable Volume Monitor and Miniaturized Stimulator Dedicated to Bladder Control”,Artificial Organs Journal, vol. 21, no 3, March1997, pp. 219-222.
[16] ST-AMAND, R.,SAWAN, M., SAVARIA, Y., “Design and Optimization of a Low DC Offset Current-Source Dedicated for Implantable Miniaturized Stimulators”,Kluwer Analog ICs & Signal Processing J., vol. 11, September1996, pp. 47-61.
[15] SAWAN, M., HASSOUNA, M., LI, J.S., DUVAL F., ELHILALI, M.M., “Stimulators Design and Subsequent Stimulation Parameter Optimization for Controlling Micturition and Reducing Urethral Resistance”,IEEE Trans. on Rehabilitation Eng., Vol. 4, no 1, March1996, pp. 39-46.
[14] ARABI, K.,SAWAN, M., “Implantable Multiprogrammable Microstimulator Dedicated to Bladder Control”,Med. Biol. Eng. Comput., no 34, January1996, pp. 9-12.
[13] RAHAL, A., BOSISIO, R.G., ROGERS, C., OVEY, J.,SAWAN, M., MISSOUS, M., “A W-Band Medium Power Multi-Stack Quantum Barrier Varactor Frequency Tripler”,IEEE Microwave and Guided Wave Letters, Vol. 5, no 11, November1995, pp. 368-370.
[12] LI, J.S., HASSOUNA, M.,SAWAN, M., DUVAL, F., ELHILALI, M.M., “Long Term Effect of Sphincteric Fatigue during Bladder Neurostimulation”,The Journal of Urology, Vol. 153, January 1995, pp. 238-242.
[11] HU, Y.,SAWAN, M., “An improved technique for realization of switched-capacitor filters from LC networks”,The Canadian Journal of Elec. & Comp. Eng., Vol. 20, no. 1, January1995, pp. 49-56.
[10]SAWAN, M., DUVAL, F., HASSOUNA, M., ELHILALI, M.M., “A New Transcutaneous Fully-Programmable Neural Stimulator”,The Int. J. of Microcomputer Applications, Vol. 13, no 3, March1994, pp. 142-147.
[9]SAWAN, M., DUVAL, F., LI, J.S., HASSOUNA, M., ELHILALI, M.M., “A Transcutaneous Implantable Bladder Controller”,Neurourology and Urodynamics, Vol. 13, no 3, December1993, pp. 281-284.
[8]SAWAN, M., DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M., “A New Bladder Stimulator: Hand-Held Controller and Miniaturized Implant; Preliminary Results on Dogs”,Biomedical Instrumentation and Technology, Vol. 27, March1993, pp. 143-149.
[7] HASSOUNA, M., LI, J.S.,SAWAN, M., DUVAL, F., LATT, R., ELHILALI, M., “The Effect of Early Bladder Stimulation on Spinal Shock: An Experimental Approach”,Urology, Vol. 40, no 6, Dec.1992, pp. 563-573.
[6] LI, J.S., HASSOUNA, M,SAWAN, M., DUVAL, F., ELHILALI, M.M., “Electrical Stimulation Induced Sphincter Fatigue during Voiding”,the Journal of Urology, Vol. 148, September1992, pp. 949-952.
[5]SAWAN, M., DUVAL, F., HASSOUNA, M., LI, J.S., ELHILALI, M.M., LACHANCE, J., LECLAIR, M., POURMEHDI, S., MOUINE, J., “Computerized Transcutaneous Control of a Multichannel Implantable Urinary Prosthesis”,The IEEE Trans. on Biomedical Engineering, Vol. 39, no 6, June1992, pp. 600-609.
[4] LI, J.S., HASSOUNA, M.,SAWAN, M., DUVAL, F., LATT, R., CARTER, K., COLLIER, B., M.M. ELHILALI, “Role of Electric Stimulation in Bladder Evacuation Following Spinal Cord Action”,The Journal of Urology, Vol. 147, May1992, pp. 1429-1434.
[3] NICOLAS, J.,SAWAN, M., HÉTU, R., LAROCHE, C., “A Digitally Controlled Impulse Noise Generation System for the Study of the Ear Response to Impulses”,Acoustics, Vol. 70,1990, pp. 112-126.
[2] EL-RIFAEI, A., HASSOUNA, M., FOUDA, A., LATT, R.,SAWAN, M., DUVAL, F., ELHILALI, M.M., “The Effect of Early Bladder Stimulation on Spinal Shock: a preliminary report”, The Journal of Urology, Vol. 141, April1989, pp. 1010-1013.
[1] LAROCHE, C., HÉTU, R.,SAWAN, M., NICOLAS, J., “Preliminary Study of the Effect of the Spectral Content of Impulsive Noises on the Acquisition of Auditory Fatigue”,Canadian Acoustics, Vol. 14, No.3,1986, pp. 31-47.