2019

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[24] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Development of accurate human head models for personalized electromagnetic dosimetry using deep learning. Neuroimage, Vol ?(?), pp. 116132. (Impact Factor(2018): 5.812; SJR(2018): 3.354) 

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[23] Rashed, E.; Sakai, T.; Gomez-Tames, J.; Hirata, A.: Brain AI: Deep Learning for Brain Stimulation. IEEE pulse, Vol 10(4), pp. 3-5. (Impact Factor(2018): 0.587; SJR(2018): 0.237) 

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[22] Gomez-Tames, J.; Asai, A.; Mikkonen M.; Laakso, I.; Tanaka, S.; Uehara, S.; Otaka, Y.; Hirata, A.: Group-level and functional-region analysis of electric-field shape during cerebellar transcranial direct current stimulation with different electrode montages. Journal of Neural Engineering, Vol 16(3), pp. 1-13. (Impact Factor(2018): 4.551; SJR(2018): 1.647) 

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[21] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Human Head Skin Thickness Modeling for Electromagnetic Dosimetry. IEEE ACCESS, Vol 7, pp. 46176 - 46186. (Impact Factor(2018): 4.098; SJR(2018): 0.609) 

 

2018

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[20] Gomez-Tames, J.; Kutsuna, T.; Tamura, M.; Muragaki.: Hirata, A.: Intraoperative Direct Subcortical Stimulation: Comparison of Monopolar and Bipolar Stimulation. Phys Med Biol., 2018. Vol 63(22), pp. 225013.

(Impact Factor(2017): 2.655, SJR(2017): 1.263) doi: 10.15414/raae.2015.18.01.11-18. PDF

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[19] Gomez-Tames, J.; Hirata, A.; Tamura, M.; Muragaki.: Corticomotoneuronal Model for Intraoperative Neurophysiological Monitoring During Direct Brain Stimulation. International Journal of Neural Systems, 28(0), pp.1850026 [14 pages]

(Impact Factor(2018): 6.4 ; SJR(2018): 1.320) PDF

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[18] Gomez-Tames, J.; Hamasaka, A.; Laakso, I.; Hirata, A.; Ugawa Y.: Atlas of Optimal Coil Orientation and Position for TMS: A Computational Study​. Brain Stimulation, vol. 11(4), pp.839–848 (Impact Factor(2016): 6.078; SJR(2016): 2.49) PDF

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[17] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A.; Takakura, T.; Tamura, M.; Muragaki, Y.: A high-resolution computational localization method for transcranial magnetic stimulation mapping. NeuroImage, 172, pp.85-93.

(Impact Factor(2016): 5.835; SJR(2016): 3.823) PDF

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[16] Hirata, A.; Laakso, I.: Gomez-Tames, J.; Hontani, H.:  Combined Simulation of Bioelectromagnetics and Nerve Activation and Its Application (Japanese),  IEEJ Transactions on Fundamentals and Materials, vol. 138, no. 6, pp.265-270, 2018. (Cites doc per two year(2016): 0.23; SJR(2016): 0.24) PDF

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[15] Kodera, S.; Gomez-Tames, J.; Hirata, A.: Temperature elevation in the human brain and skin with thermoregulation during exposure to RF energy,  Biomedical Engineering Online, Vol. 17(1), pp.1. (Impact Factor(2016): 1.68; SJR(2016): 0.487) PDF

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2017

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[14] Gomez-Tames, J.; Laakso, I.; Haba, Y.; Hirata, A.; Poljak, D.; Yamazaki, K.:  Computational Artifacts of the In-situ Electric Field in Anatomical Models Exposed to Low-Frequency Magnetic Field, IEEE Transactions on Electromagnetic Compatibility, 60(3), pp.589-97. (Impact Factor(2016): 1.66; SJR(2016): 0.735) PDF

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[13] Kodera, S.; Gomez-Tames, J.; Hirata, A.; Masuda, H.; Arima, T.; & Watanabe, S. (2017). Multiphysics and Thermal Response Models to Improve Accuracy of Local Temperature Estimation in Rat Cortex under Microwave Exposure, International Journal of Environmental Research and Public Health, Vol. 14(4), 358. (Impact Factor(2016): 2.1; SJR(2016): 0.82) PDF

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[12] Iwahashi, M.; Gomez-Tames, J.; Laakso, I.; Hirata, A.: Evaluation method for in-situ electric field in standardized human brain for different transcranial magnetic stimulation coils, Phys Med Biol. Vol. 62(6), pp. 2224-2238. 

(Impact Factor(2016): 2.74; SJR(2016): 1.315) PDF

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2016

[11] Gomez-Tames, J.; Sugiyama ,Y.; Laakso, I.; Tanaka, S.: Koyama, S.; Sadato, N.; Hirata, A.: Effect of microscopic modeling of skin in electrical and thermal analysis of transcranial direct current stimulation, Phys Med Biol, Vol. 61, pp. 8825-883 

(Impact Factor(2016): 2.74; SJR: 1.58). doi: 10.1088/1361-6560/61/24/8825/. PDF

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[10] He, S.; Gomez-Tames, J.; Yu, W.: 3D Needle Tip Localization by Electric Field Potential and Camera Hybridization for Electromyography Exam Robotic Simulator, Medical Devices, Evidence and Research, Vol. 9, pp. 143-150, 

(Cites doc per two year(2016): 2.09; SJR(2016): 0.515) doi: 10.2147/mder.s99091. 

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​

2015

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[9] Gomez-Tames, J.; Fukuhara, Y.; He, S.; Saito, K.; Ito, Koichi.; Yu, W.: A Human-Phantom Coupling Experiment and A Dispersive Simulation Model for Investigating the Variation of Dielectric Properties of Biological Tissues, Computers in Biology and Medicine, Vol. 61, pp. 144-149. (Impact Factor(2015): 1.52; SJR(2015): 0.56), doi: 10.1016/j.compbiomed.

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2014

[8] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: Influence of Different Geometric Representations of the Volume Conductor on Nerve Activation during Electrical Stimulation, Computational and Mathematical Methods in Medicine, Vol. 2014, pp. 1-10.

(Impact Factor(2014): 0.77; SJR(2014): 0.33) doi: 10.1155/2014/489240.

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[7] Imamoglu, N.; Gomez-Tames, J.; Gonzalez, J.: Gu, D. Yu, W.: PCNN Segmentation and Bottom-Up Saliency-On Feature Extraction for Thigh MRI based 3D Model Construction, Journal of Medical Imaging and Health Informatics, Vol.4, pp. 220-229.  (Impact Factor(2014): 0.50; SJR: 0.17) doi: 10.1166/jmihi.2014.1245.

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2013

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[6] Yuan, B., Sekine, M., Gonzalez, J., Gomez-Tames, J., & Yu, W.: Variable Impedance Control Based on Impedance Estimation Model with EMG Signals during Extension and Flexion Tasks for a Lower Limb Rehabilitation Robotic System, J Nov Physiotherapy, Vol.3, No.5, pp. 43-48. doi:10.4172/2165-7025.1000178. 

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[5] Imamoglu, N.; Gomez-Tames, J. & Yu, W.: Salient Region Detection and Analysis Based on the Weighted Band-Pass Features, Journal of Software Engineering and Applications, Vol.6, No.5B, pp. 43-48.

(Cites doc per two year(2013): 0.88; SJR(2013): 0.21) doi: 10.4236/jsea.2013.65B009. 

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[4] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: A Simulation Study on the Dominance of the Tissues' Conductivity in the Muscle Recruitment, Journal of Medical Imaging and Health Informatics, Vol. 3, No.1, pp. 72–78.

(Impact Factor(2013): 0.623; SJR(2013): 0.18) doi:10.1166/jmihi 

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​

2012

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[3] Hiroki, C.; Gomez-Tames, J. & Yu, W.: A Cable Driven Robot with Integrated Suction Cups for NOTES Support, Transaction on Control and Mechanical Systems. Vol. 1, No1, pp. 6-12.

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2011

 

[2] Yuan, B.; Sun, G.; Gomez-Tames, J.; Ikemoto, Y.; Gonzalez, J.; Murai, C.; Acharya U, R.; Yu, W. & Ino, S.: The Effect of an Auxiliary Stimulation on Motor Function Restoration by FES, Journal of Medical Systems, Vol. 35, No. 5, pp. 855-861, 

doi: (Impact Factor(2011): 1.13; SJR(2011): 0.362) 10.1007/s10916-010-9517-9 

 

[1] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: A study of thigh muscle activation for transcutaneous electrical stimulation using a 2D and 3D explanatory models, The Journal of the Japanese Bio-Electrical and Physical Stimulation Research Society, Vol.25, pp. 39-47

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International Conference (Peer-reviewed Article)

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2017

[25] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A. Visualizing hotspots and thresholds in the brain by transcranial magnetic stimulation. URSI2017, Oral Presentation, August 26, 2017 (Montreal)

[24] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A. Visualizing hotspots and thresholds in the brain by transcranial magnetic stimulation. URSI2017, Oral Presentation, August 26, 2017 (Montreal)

[23] Gomez-Tames, J.; Aonuma, S.; Kutsuna, T.; Hirata, A. Activation Thresholds for Electrostimulation by TMS and DES: Brain Mapping Via Multiscale Model. URSI2017, Oral Presentation, August 23, 2017 (Montreal)

[22] Kodera, S.; Gomez-Tames, J.; Hirata, A.; Masuda, H.; Arima, T.; Watanabe, S.: High accuracy estimation of brain temperature elevation in rats for localized microwave exposure, BioEM2017, Poster Presentation, June 6, 2017 (Hangzhou)

[21] Gomez-Tames, J.; Hamasaka, A.; Aonuma, S.;  Laakso, I.; Hirata, A.: Optimal magnetic coil exposure for minimum stimulation threshold of brain cortex, BioEM2017, Poster Presentation, June 8, 2017(Hangzhou)

[20] Gomez-Tames, J.; Aonuma, S.; Kutsuna, T.; Hirata, A.: Analysis of Electrophysiological Techniques For Brain Mapping Using a Multiscale Model Based on Medical Images, The International Forum on Medical Imaging in Asia, Poster Presentation, January 19, 2017 (Okinawa)

 

2016

[19] Yu, Y.; Gomez-Tames, J.;  Yu, W.: A simulation study on advantages of interferential stimulation using multilayer cylindrical volume conductor models, International Symposium on InfoComm & Media Technology in Bio-Medical & Healthcare Application, October 24, 2016 (Singapore)

[18] He, S.; Gomez-Tames, J.;  Yu, W.: Research and development of needle electromyography exam robotic simulator, International Symposium on InfoComm & Media Technology in Bio-Medical & Healthcare Application, October 24, 2016 (Singapore) 

[17] Gomez-Tames J.; Hirata, A.: Individualized Neurostimulation Models for Translational Neuroscience, Latsis Symposium ETH Zurich, Poster Presentation, June 29, 2016 (Zurich)

 

2015

[16] Gomez-Tames, J.; Yu, W.: Methods for Electrophysiological Models Implementation and Validation, 2015 International Symposium on InfoComm & Media Technology in Bio-Medical & Healthcare Application, Oral Presentation, Nov 15, 2015 (Chiba)

[15] Ota Y.; Gomez-Tames, J.; Yu, W.: Verification of Electrophysiological Model of the Arm using Nerve Conduction Study Simulation, 2015 International Symposium on InfoComm & Media Technology in Bio-Medical & Healthcare Application, Poster Presentation, Nov 15, 2015 (Chiba)

[14] Imamoglu, N.; Gomez-Tames, J.; Gonzalez, J.; Yu, W.: Unsupervised Muscle Region Extraction by Fuzzy Decision Based Saliency Feature Integration on Thigh MRI for 3D Modeling, International Conference on Machine Vision Applications, pp. 355-358, Poster Presentation (Tokyo).

[13] He, S.; Gomez-Tames, J.; Yu, W.: Needle Detection by Electro-Localization for a Needle EMG Exam Robotic Simulator, IEEE Medical Measurements and Applications, pp. 457-461, Poster Presentation (Turin).

 

2014

[12] Mahira, T.; Imamoglu, N.; Gomez-Tames, J.; Kita, K.; Yu, W.: Modeling Bimanual Coordination Using Back Propagation Neural Network and Radial Basis Function Network, IEEE International Conference on Robotics and Biomimetics, pp. 1356-1361, Oral Presentation (Bali).

[11] Kawamoto, S.; Imamoglu, N.; Gomez-Tames, J.; Kita, K.; Yu, W.: Ultrasound Imaging and Semi-Automatic Analysis of Active Muscle Features in Electrical Stimulation by Optical Flow, Proceedings of the International Conference of Engineering in Medicine and Biology Society, EMBC, pp. 250-253, Poster Presentation (Chicago).

 

2013

[10] Gomez-Tames, J. & Yu, W.: Assessment of nerve morphology in nerve activation during electrical stimulation, In American Institute of Physics Conference Series, Vol. 1559, pp. 355-358 (Sydney).

[9] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: Temporal Muscle Activation Assessment by Ultrasound Imaging During Flexor Withdrawal Reflex and Voluntary Contraction, Proceedings of the International Conference on Engineering in Medicine and Biology Society, EMBC, pp. 3618-3621 (Osaka).

[8] Fukuhara, Y.; Gomez-Tames, J. & Yu, W.: An experimental study on the effect of fat conductivity on voltage distribution and muscle recruitment using tissue-equivalent phantoms, E-Health and Bioengineering Conference, EHB, pp. 1-4 (Romania).

[7] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: Influence of the Fat Thickness and the Femur location on the Nerve Activity Computation, Intelligent Engineering Systems, INES, pp. 51-54 (Costa Rica).

[6] Imamoglu, N.; Gomez-Tames, J.; Gonzalez, J.; Gu, D. & Yu, W.: Bottom-up Saliency Feature and PCNN based Muscle Segmentation, 2nd International Conference on Engineering and Applied Science, ICEAS (Tokyo).

[5] Gomez-Tames, J.; Gonzalez, J.; Nakamura, S. & Yu, W.: Simulation of the Muscle Recruitment by Transcutaneous Electrical Stimulation in a Simplified Semitendinosus Muscle Model, Converging Clinical and Engineering Research on Neurorehabilitation, pp. 449-453 (Toledo).

[4] Nakamura, S., Gomez-Tames, J., Gonzalez, J., Ojima, S., Yamaguchi, T., & Yu, W.: Ultrasound Imaging and Analysis of Muscle Activity in Lower Limb. Converging Clinical and Engineering Research on Neurorehabilitation, 455-459 (Toledo).

[3] Gomez-Tames, J.; Gonzalez, J.; and Yu, W.: A simulation study: Effect of the inter-electrode distance, electrode size and shape in Transcutaneous Electrical Stimulation, Proceedings of the International Conference of Engineering in Medicine and Biology Society, EMBC, pp. 3576-3579 (San Diego)

 

2011

[2] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: Influence of Subcutaneous Fat Thickness upon the Activation Volume in Transcutaneous Electrical Stimulation to a Thigh Simulation Model. Proceedings of the International Conference on Functional Electrical Stimulation, IFESS (Brazil).

 

2010

[1] Gomez-Tames, J.; Gonzalez, J. & Yu, W.: Preliminary Simulation Of The Current Distribution Across The Skin During Surface Stimulation Using Finite Element Analysis, Proceedings of the International Conference on Computers, Communications, Control and Automation (CCCA), pp. 495-498, (Shanghai).

 

Domestic conference (Peer-reviewed Abstract)

 

2018

[12] Gomez-Tames, J.; Kodera, S.; Hirata, A.: Variability and Difference of Thermal Time Constants in Human and Rat Model, January 25, 2018 (Hyogo)
[11] Kutsuna, T.; Gomez-Tames, J.; Hirata, A.; Takakura, T.; Tamura, M.; Muragaki.: Comparison of Brain Subcortical Stimulation Areas according to Electrode Conditions, January 25, 2018 (Hyogo)
[10] Yamagami, T.; Ito T.; Gomez-Tames, J.; Laakso, I.; Hirata, A.: Analysis of induced electric field in the cerebellum by ctDCs, EMT2017-50, Oral Presentation, pp.55-58, November 9, 2017, (Yamagata)

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2017
[9] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A.; Takakura, T.; Tamura, M.; Muragaki.: Electromagnetic Simulation for Peritumoral Brain Mapping by TMS, EST2017-50, Oral Presentation, pp 51-54, Octuber 19, 2017 (Akita)

[8] Gomez-Tames, J.; Kodera, S.; Hirata, A.; Matsuda H.: Estimation of Nerve Changes by Brain Tumor Adjusting Membrane Electrical Parameters, IEICE Tech. Rep. of EST2017-14, Oral Presentation, pp.37-40, July 20, 2017 (Obihiro)

[7] Hayami, R.; Gomez-Tames, J.; Hirata, A.: Estimation of Nerve Changes by Brain Tumor Adjusting Membrane Electrical Parameters, IEICE Tech. Rep. of EST2017-16, Oral Presentation, pp.41-44, July 20, 2017 (Obihiro)

[6] Hamasaka, A.; Gomez-Tames, J.; Laakso, I. Hirata, A.: Evaluation of Induced Electric Field in Brain  Due to Different Stimulation Conditions during TMS, IEICE Tech. Rep. of EST2017-15, Oral Presentation, pp.41-44, July 20, 2017 (Obihiro)

[5] Kutsuna, T.; Gomez-Tames, J.; Hirata, A.: Localization comparison of direct electric stimulation in the brain by different electrodes, IEICE General Conference EST2016-114, Oral Presentation, vol. 116, pp.229-233, January 19, 2017 (Mie)

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​2016

[4] Gomez-Tames, J.; Hirata, A.: Fast and Accurate Multiscale Computational Modeling For Personalized Neurostimulation, IEICE Scientific Conference, Oral Presentation, November 21, 2016 (Sapporo)

[3] Iwahashi, M.; Gomez-Tames, J.; Laakso, I.; Hirata, A.: Evaluation for In-situ Electric Field Variability in Standardized Human Brain for Different TMS Coils, Tech. Rep. of IEICE EMT 2016-69, Oral Presentation, vol. 116, pp. 201-204, November 19, 2016 (Wakayama)

[2] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A.; Takakura, T.; Tamura, M.; Muragaki, Y.: High-resolution Localization of Motor Area by TMS, Tech. Rep. of IEIEC EST2016-20, Oral Presentation, vol. 116, pp 77-80, July 21, 2016 (Hokkaido)

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​2011

[1] Gomez-Tames, J.; Gonzalez, J. & Yu, W.:  "表面電気刺激時における皮膚および筋内電流分布に関する研究" The 38th Annual Meeting of the Japanese Bio-Electrical and Physical Stimulation Research Society, Oral Presentation, March 5, 2011 (Tokyo)

 

 

Book Chapter

 

[2] Akagi, T., Gomez-Tames, J., Gonzalez, J., Igarashi, T., & Yu, W.:  Ultrasound Energy Transmission for WaFLES-Support Intra-abdominal Micro Robots, Autonomous Control Systems and Vehicles, pp. 279-289 (Book Chapter)

2012

[1] Baoping Y, Gomez-Tames, J., Gonzalez, J., Ino, Shuichi., & Yu, W.: Chapter 9 Study on Subthreshold Stimulation for Daily Functional Electrical Stimulation, Advances in Therapeutic Converging Clinical and Engineering Research on Neurorehabilitation, pp. 449-453, November, 2012 (Toledo). Engineering (Book Chapter)

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​

WorkShop, Symposia, and Seminars

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[3] Invited Lecturer (Chiba University, 2017.1.11)

[2] 医用画像と物理シミュレーションの融合による電磁界の医療応用と安全性評技術の最新運向, Invited Speaker (Nagoya, 2016.12.15) http://cem.web.nitech.ac.jp/20161215WS.pdf

[1] International Symposium on rTMS treatments    (Tokyo, 2016.09.24)

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​

Patent

 

[1] Wenwei Yu, Shoichi Ito, Sokono Misawa, Jose David Gomez, Siyu He: Simulation System for Nerve Conduction Test, Patent 2014-170063, 2014

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Award