Publications
1. Journal
[62] P. E. Tortós-Vinocour, Y. Wang, S. Y. Huang, J. Gomez-Tames and W. Yu, Multiple Fiber-Reinforced Internal Chambers for Thumb-Assist Soft Pneumatic Actuators, IEEE Access, 13, 2025 (IF2023 = 3.4)
[61] K. Yatsuda; M. Fernández-Corazza; W. Yu; J. Gomez Tames, Population-Optimized Electrode Montage Approximates Individualized Optimization in Transcranial Temporal Interference Stimulation, Computers in Biology and Medicine, 11(A), 2025 (IF2023 = 7.0)
[60] Tanizaki, Y., Tortós-Vinocour, P. E., Matsunaga, F., Kamijo, N., Yoshida, K., Kokubu, S., … & Yu, W. (2025). Analyzing and Assisting Finger Motions for Spoon Scooping. Biomimetics, 10(2), 116, 2025 (IF2023 = 3.4)
[59] Kuwano A., Tamura M., Asano H., Yamaguchi T., Gomez-Tames J., Kawamata T., Masamune K., Muragaki Y., Visualizing Intraoperative Transcranial Motor-Evoked Potentials During Glioma Surgery for Predicting Postoperative Paralysis Prognosis, World Neurosurgery, 13 pages, 2025 (IF2023 = 1.9)
[58] Lu Y., Zhou Z.,Igarashi T., Tortos-Vinocour P., Gomez-Tames, J., Yu. W, Stiffness modulation in a 3-DoF pneumatic soft actuator forsingle-port transvesical prostatectomies, Smart Materials and Structures, Vol. 34, 2024 (IF2023 = 3.7)
[57] Matsunaga F, Oba E., Ke M-T. H., Ya-Hsin H. S., Gomez-Tames J., Yu W, Machine-Learning-Based Accurate Finger Joint Stiffness Estimation with Joint Modular Soft Actuators, IEEE Robots and Automation Letters, Vol. 9, pp 7047-7054, 2024 (IF = 4.6)
[56] Gomez-Tames J.* and Fernández-Corazza M, Perspectives on Optimized Transcranial Electrical Stimulation Based on Spatial Electric Field Modeling in Humans, J. of Clinical Medicine., 13.112024, 2024 (IF = 3.9)
[55] Yatsuda K, W. Yu, Gomez-Tames J.*, Population-Level Insights into Temporal Interference for Focused Deep Brain Neuromodulation, Front. Hum. Neurosci., 18, 2024 (IF = 2.9)
[54] Tortós-Vinocour P., Kokubu S., Matsunaga F., Lu Y., Zhou Z., Gomez-Tames J.*, Yu W., Development of a Dual Function Joint Modular Soft Actuator and its Evaluation using a Novel Dummy Finger Joint-Soft Actuator Complex Model, IEEE Robotics and Automation Letters, 9(5), pp 4210-4217, 2024, (IF = 5.2)
[53] Ikarashi H., Otsuru N., Gomez-Tames J., Hirata A., Nagasaka K., Miyaguchi S., Sakurai N., Ohno K., Kodama N., Onishi H., Modulation of pain perception through transcranial alternating current stimulation and its nonlinear relationship with the simulated electric field magnitude, European Journal of Pain, 00, 1–11, 2024. (IF=3.492)
[52] Laakso I., Tani T., Gomez-Tames J., Hirata A., Tanaka S., Small effects of electric field on motor cortical excitability following anodal tDCS, iScience, 27(2), 2024. (IF = 5.8)
[51] Gomez-Tames J., Yu W., Electro-Localization Method Using a Muscle Conductive Phantom for Needle Position Detection Towards Medical Training, Biomedical Physics & Engineering Express, 2023 (IF = 1.4, Cite Score = 2.7)
[50] Matsunaga F., Kokubu S., Tortos Vinocour P., Ta Ke M., Hsueh Y.H., Huang S. Y., Gomez-Tames J., Yu W., Finger Joint Stiffness Estimation with Joint Modular Soft Actuators for Hand Telerehabilitation, Robotics, 12(3), 83, 2023 (IF = 3.7, Cite Score = 5.9)
[49] Hamajima H., Gomez-Tames J., Uehara S., Otaka Y. Tanaka S. Hirata A., Computation of Group-Level Electric Field in Lower Limb Motor Area for Different tDCS Montages, Clinical Neurophysiology, 150, pp. 69-78, 2023. (IF = 4.861, Cite Score = 6.2)
[48] Hikita K., Gomez-Tames J., and Hirata A., Mapping Brain Motor Functions using Transcranial Magnetic Stimulation with a Volume Conductor Model and Electro-physiological Experiments, Brain Science 2023, 13, 116, 2023. (IF = 3.333, Cite Score = 3.1)
[47] Niimi Y., Gomez-Tames J., Wasaka T., Hirata A., Selective Stimulation of Nociceptive Small Fibers during Intraepidermal Electrical Stimulation: Experiment and Computational Analysis, Frontiers in Neuroscience, 2022. (IF = 5.152, Cite Score = 6.6)
[46] Yuasa A., Uehara S., Ushizawa K., Toyama T., Gomez-Tames J., Hirata A., Otaka Y. Effects of Cerebellar Transcranial Direct Current stimulation on Upper Limb Motor Function After Stroke: Study Protocol for the Pilot of a Randomized Controlled Trial, Pilot and Feasibility Studies, 8, 259, 2022. (Cite Score = 2.6 based on Scopus, Q2)
[45] M. Suzuki, S. Tanaka, J. Gomez-Tames, T. Okabe, K. Cho, N. Iso, A. Hirata (2022) Nonequivalent After-Effects of Alternating Current Stimulation on Motor Cortex Oscillation and Inhibition: Simulation and Experimental Study, Brain sciences, Vol. 12, pp. 195 (15 pages), 2022, (IF = 3.39)
[44] Y. Suzuki, J. Gomez-Tames, Y. Diao, A. Hirata, Evaluation of Peripheral Electrostimulation Thresholds in Human Model for Uniform Magnetic Field Exposure (2022) Int. J. Environ. Res. Public Health, Vol. 19, pp. 390 (15 pages), 2022 (IF = 3.39, Cite Score = 3.9), Highly Cited Paper 2021-2023 in the section of System Neuroscience
[43] Duan X., Lan J., Diao Y., Gomez-Tames J., Hirayama H., Hotta M., Fischer G., Hirata A.. Reduction in Human Interaction with Magnetic Resonant Coupling WPT Systems with Grounded Loop, Energies, Vol. 14, pp. 7253 (14 pages), 2021 (IF = 3.00)
[42] Tani K., Hirata A., Gomez-Tames, J., Tanaka S. Coil Orientation Affects Pain Sensation During Single-Pulse Transcranial Magnetic Stimulation Over Broca’s Area, Clinical Neurophysiology Practice. Vol. 6, 2021, pp 234-2382021 (IF = 0.5, Cite Score = 4.1)
[41] Gomez-Tames, J., Akihiro, A., Hirata, A., Multiscale Computational Model Reveals Nerve Response in a Mouse Model for Temporal Interference Brain Stimulation, Frontiers in Neuroscience, Vol. 15, 2021 (IF = 5.151, Cite Score = 6.6)
[40] Tanaka, S., Gomez-Tames, J., Inui, K., Ueno, S., Hirata, A., & Wasaka, T. Synaptic Effect of Aδ-Fibers by Pulse-Train Electrical Stimulation. Frontiers in Neuroscience, 15. 2021 (IF = 5.151, Cite Score = 6.6)
[39] Hirata, A., Kodera, S., Sasaki, K., Gomez-Tames, J., Laakso, I., Wood, A.& Foster, K. R. Human Exposure to Radiofrequency Energy Above 6 GHz: Review of Computational Dosimetry Studies. Physics in Medicine & Biology, 66 08TR01 2021 (IF =4.174, Cite Score = 6.6)
[38] Gomez-Tames, J., Tani, K., Hayashi, K., Tanaka, S., Ueno, S., & Hirata, A. Dosimetry Analysis in Non-brain Tissues During TMS Exposure of Broca’s and M1 Areas. Frontiers in neuroscience, 15, 154, 2021 (IF =4.174, Cite Score = 6.6)
[37] Rashed, E., Gomez-Tames, J., and Hirata, A.. Influence of segmentation accuracy in structural MR head scans on electric field computation for TMS and tES. Physics in Medicine & Biology, 2021. 66 064002 (IF =4.174, Cite Score = 6.6)
[36] Tanaka, S., Gomez-Tames, J., Wasaka, T., Inui, K., Ueno, S., & Hirata, A. Electrical characterisation of Aδ-Fibres based on human in vivo electrostimulation threshold. Frontiers in neuroscience, 14, 1305. 2021 (IF = 5.151, Cite Score = 6.6)
[35] Diao, Y.; Kodera, S.; Anzai, D.; Gomez-Tames, J.; Rashed, E.; Hirata, A.: Influence of population density, temperature, and absolute humidity on spread and decay durations of COVID-19: A comparative study of scenarios in China, England, Germany, and Japan, One Health Volume 12, June 2021, 100203 (IF =9.0)
[34] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Influence of Absolute Humidity, Temperature and Population Density on COVID-19 Spread and Decay Durations: Multi-Prefecture Study in Japan, Int. J. Environ. Res. Public Health 2020, 17(15), 5354. (IF =4.614)
[33] Gomez-Tames, J.; Laakso, I.; Hirata, A.: Review on biophysical modelling and simulation studies for transcranial magnetic stimulation. Physics in Medicine & Biology 65.24 (2020): 24TR03. (IF =4.174)
[32] Rashed, E.; Diao, Y.: Tanaka, S.; Sakai, T.; Gomez-Tames, J.; Hirata, A: Effect of skin-to-skin contact on stimulation threshold and dosimetry. IEEE Transactions on Electromagnetic Compatibility. Vol. 62, No. 6, 2020 (IF = 2.036)
[31] Gomez-Tames, J.; Laakso, I.; Muraami, Y.; Ugawa Y.; Hirata, A.: TMS activation site estimation using multiscale realistic head models. Journal of Neural Engineering. Vol. 17, 2020 036004 (IF=5.043)
[30] Rashed, E.; Gomez-Tames, J.; Hirata, A.: End-to-end semantic segmentation of personalized deep brain structures for non-invasive brain stimulation. Neural Networks. vol.125, pp.233-244, 2020. https://doi.org/10.1016/j.neunet.2020.02.006 IF2018 = 5.785 (Q1).
[29] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Deep Learning-Based Development of Personalized Human Head Model with Non-Uniform Conductivity for Brain Stimulation. IEEE Transactions on Medical Imaging, Vol. 39, No., 7, 2020, IF2018 = 7.816 (Q1).
[28] Gomez-Tames, J.; Hamasaka, A.; Hirata, A.; Laakso, I.; Lu, M.; Ueno, S.: Group-level analysis of induced electric field in deep brain regions by different TMS coils. Physics in Medicine and Biology, Vol. 65, No. 2 2020 IF2018 = 3.030 (Q1)
[27] Gomez-Tames, J.; Asai, A.; Hirata, A.: Significant group-level hotspots found in deep brain regions during transcranial direct current stimulation (tDCS): A computational analysis of electric fields. Clinical Neurophysiology, Vol. 131, Issue 3, 2020, Pages 755-7652020. IF2018 = 3.675 (Q1). With an accompanying editorial.
[26] Diao, Y.; Gomez-Tames, J.; Rashed, E.; Hirata, A: Spatial Averaging Schemes of in situ Electric Field for Low-Frequency Magnetic Field Exposures. IEEE Access, vol.7, pp.184320-184331, 2019. IF2018 = 4.098 (Q1)
[25] Gomez-Tames, J.; Tarnaud, T.; Miwa, K.; Hirata, A.; van de Steene, T.; Marten, L.; Tanghe, E.; Wout, J.; Brain cortical stimulation thresholds to different magnetic field sources exposures at intermediate frequencies. IEEE Transactions on Electromagnetic Compatibility, 2019 (10.1109/TEMC.2019.2943138). Early Access. IF2018 = 2.274 (Q1)
[24] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Development of accurate human head models for personalized electromagnetic dosimetry using deep learning. Neuroimage, Vol.202, No. 116132, Nov. 2019. IF2018 = 5.812 (Q1)
[23] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Brain AI: Deep learning for brain stimulation. IEEE PULSE, 2019. IF2018 = 0.662 (Q3). Invited paper (Front page)
[22] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Human head skin thickness modeling for electromagnetic dosimetry. IEEE Access, 2019. Early Access. IF2018 = 4.098 (Q1)
[21] 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, No. 3, pp. 036001 (13pp), February, 2019. IF2018 = 4.551 (Q1).
[20] Gomez-Tames, J.; Hirata, A.; Tamura, M.; Muragaki.: Corticomotoneuronal model for intraoperative neurophysiological monitoring during direct brain stimulation. International Journal of Neural Systems, Vol. 29, No. 1, pp.1850026 (14pp), February, 2019. IF2018 = 6.4 (Q1).
[19] Gomez-Tames, J.; Kutsuna, T.; Tamura, M.; Muragaki.: Hirata, A.: Intraoperative direct subcortical stimulation: comparison of monopolar and bipolar stimulation. Physics in Medicine and Biology, Vol. 63, No. 22, pp. 225013 (12pp), November, 2018. IF2018 = 3.030 (Q1).
[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, No. 4, pp. 839–848, August, 2018. IF2018 = 6.919 (Q1).
[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, Vol. 172, pp.85-93, May, 2018. IF2018 = 5.812 (Q1)
[16] 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, No. 1, pp. 1-17, January, 2018. IF2018 = 2.013 (Q2). Most cited paper in 2018 in the journal
[15] Hirata, A.; Laakso, I.; Gomez-Tames, J.; Hontani, H.: Combined simulation of bioelectromagnetics and nerve activation and its applications, IEEJ Transactions on Fundamentals and Materials, Vol. 138, No. 6, pp.265-270, June, 2018. (Q3)
[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, Vol. PP, No. 99, pp. 1-9, September, 2017. IF2017 = 1.520 (Q1)
[13] Kodera, S.; Gomez-Tames, J.; Hirata, A.; Masuda, H.; Arima, T.; & Watanabe, S.: 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, No. 4, pp. 358, March, 2017. IF2017 = 2.145 (Q2)
[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, Physics in Medicine and Biology, Vol. 62, No. 6, pp. 2224-2238, March, 2017. IF2017 = 2.665 (Q1)
[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, Physics in Medicine and Biology, Vol. 61, pp. 8825-883, December, 2016. IF2017 = 2.1 (Q1)
[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, June, 2016. (Q2)
[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, April 2015. (IF2017 =2. 61,Q1)
[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, August, 2014. IF2016 = 0.950 (Q2)
[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, June, 2014. IF2016 =0.621 (Q4)
[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, August, 2013.
[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, May, 2013. (Q4)
[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, March, 2013. IF2015 = 0.877 (Q4)
[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, May, 2012.
[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, October, 2011. IF2013 = 1.327 (Q2)
[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, March, 2011. 253. 1
2. International Conference
[57] R. Qin, J. Yang, Z. Zhou, J. Gomez-Tames, S. Huang, and W. Yu, Stepwise hard constraint-biased Physics-informed Neural Networks for Accurate Magnetic Resonance Electrical Properties Tomography (MREPT), 2025 ISMRM & ISMRT Annual Meeting, 10-15 May 2025, Poster/Oral (Hawaii) |
[56] J. Gomez-Tames, M. Fukunaga Wenwei Yu, Preliminary Study on Systematic Evaluation on Parameter Space of Repetitive Transcranial Magnetic Stimulation on Motor Response, 6th International Brain Stimulation Conference, 2025 (Accepted Poster) |
[55] R. Qin, A. Garcia Inda, Z.., T.. Yang, N. Imamoglu, J. Gomez-Tames, Shao Ying Huang, Wenwei Yu. A Self-supervised Physics-informed Reconstruction Error Compensation Neural Network for Magnetic Resonance Electrical Property Tomography, 2024 ISMRM & ISMRT Annual Meeting & Exhibition, May 04-09, 2024, Singapore (Oral) |
[54] E. Oba, R. Qin, A.. Jafet Garcia Inda, Z.. Zhou, N. İmamoğlu, J. Gomez-Tames, Shooing Huang and Wenwei Yu, To Adapt Waveforms of Transcutaneous Electrical Stimulation for Effective Relief of Chronic Pain, 2024 International Convention on Rehabilitation and Assistive Technology (i-CREATe), August 23th-26th, 2024, Shanghai, China (Poster) |
[53] N. Kamijo, P. E. Tortós-Vinocour, F. Matsunaga, Y. Lu, Z. Zhou, S. Kokubu, J. Gomez-Tames, W. Yu, Development of an FEM model of a Spherical Dummy Joint-Soft Actuator Complex for Evaluation of Soft Actuators, 2024 International Convention on Rehabilitation and Assistive Technology (i-CREATe), August 23th-26th, 2024, Shanghai, China (Poster) |
[52] F. Matsunaga, M.-Ta Ke, Y.-H. Hsueh, S. Y. Huang, J. Gomez-Tames and W. Yu, Performance Validation of Joint Modular Soft Actuators for Finger Joint Stiffness Estimation, 2024 International Convention on Rehabilitation and Assistive Technology (i-CREATe), August 23th-26th, 2024 Shanghai, China (Poster) |
[51] Y. Kanata, W. Yu, J. Gomez-Tames, Impact of Deep Brain Target Shape Approximation on Electrode Optimization in Transcranial Interference Stimulation, 2024 Annual Conference of Taiwanese Society of Biomedical Engineering -Annual Report of National Science and Technology Council, Nov 1st-3d, 2024, Taiwan, Poster (BEST POSTER AWARD) |
[50] J. Gomez-Tames, A Study on Efficient Non-invasive Peripheral Magnetic Stimulation, 2024 Annual Conference of Taiwanese Society of Biomedical Engineering -Annual Report of National Science and Technology Council, Nov 1st-3d, 2024, Taiwan, Oral |
[49] P. Tortós-Vinocour, S. Kokubu, F. Matsunaga, Y. Lu, Z. Zhou, J. Gomez-Tames, W. Yu, Development of a Dual Function Joint Modular Soft Actuator and Its Evaluation Using a Novel Dummy Finger Joint-Soft Actuator Complex Model, 2024 IROS Conference, Oral, 14-18 October 2024 (Abu Dhabi) |
[48] Y. Jiang, J. Yang, J. Gomez-Tames, S. Huang and W. Yu, Effect of CP trajectory shift on image reconstruction in O-space imaging, 35th URSI General Asseof CP trajectory shift on image reconstruction in O-space imagingmbly and Scientific Symposium (URSI GASS 2023), Hokkaido, Japan, August 19 – 26, 2023 (Oral presentation) |
[47] Y. Enomoto, E. Oba, A. Garcia Inda, Z. Zhou, R. Qin, N. İmamoğlu, J. Gomez-Tames, S. Huang and W. Yu. Identification of optimal transcutaneous electrical stimulation waveforms for pain relief, 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), Hokkaido, Japan, August 19 – 26, 2023 (Oral presentation) |
[46] R. Qin, A. J. Garcia-Inda, Z. Zhou, T. Yang, N. Imamoglu, J. Gomez-Tames, S. Huang and W. Yu. Modification and Analysis for a Reconstruction Error Compensation Neural Network (REC-NN) for Magnetic Resonance Electrical Property Tomography (MREPT), 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), Hokkaido, Japan, August 19 – 26, 2023 (Oral presentation) |
[45] R. Qin, Adan A. J. Garcia-Inda, Z. Zhou, Y. Enomoto, T. Yang, N. Imamoglu, J. Gomez-Tames, S. Huang, W. Yu. A reconstruction error compensation neural network for Magnetic Resonance Electrical Property Tomography (MREPT), Sydney, Australia, July 24 – 28, 2023 (Poster presentation) |
[44] Y. Feng Jiang, J. Yang, T. Liang, J. Gomez-Tames, S. Huang, W. Yu, Trajectory design for spatial encoding magnetic fields, 17th International Conference on Magnetic Resonance Microscopic (ICMRM 2023), August 27-31, 2023, Singapore (Oral presentation) |
[43] J. Yang, S. Huang, Y. Jiang, T. Liang, J. Gomez-Tames, Wenwei Yu, An angle selection method for rSEM, 17th International Conference on Magnetic Resonance Microscopic (ICMRM 2023), August 27-31, 2023, Singapore (Poster presentation) |
[42] J. Gomez-Tames, W. Yu, Development of a Corticospinal Excitability Model During Non-Invasive Brain Stimulation, 5th URSI General Assembly and Scientific Symposium (URSI GASS 2023), Hokkaido, Japan, August 19 – 26, 2023 (Oral presentation) |
[41] Y. Kanata, W. Yu, J. Gomez-Tames, Cortical Electric Fields Differences in Transcranial Electrical Stimulation Protocols. 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), Hokkaido, Japan, August 19 – 26, 2023 (Oral presentation) |
[40] T. Plovie, T. Tarnaud, E. Vicari, J. Gomez-Tames, E.. Neufeld, S. Micera, E. Tanghe, Interpatient Variability and Skull Reflections in Acoustic Radiation Force Simulations for tFUS, Focused Ultrasound Neuromodulation Conference 2023 (FUN23), July 12-14, Stanford University, USA (Poster presentation) |
[39] J. Gomez-Tames., Recent advances on TMS orientation optimizing based on individualized electric field analysis. Symposium “Coil Orientation in TMS”, 5th International Brain Stimulation Conference, February 18 – 22, 2023 Lisbon, Portugal. |
[38] I. Laakso, K. Tani, J. Gomez-Tames., A. Hirata, Tanaka S., Inter-individual variability in electric field as a predictor of tDCS response, 5th International Brain Stimulation Conference, February 18 – 22, 2023 Lisbon, Portugal. |
[37] J. Gomez-Tames, Paradigms for Enhancing Electrical and Magnetic Stimulation Efficacy in the Treatment of Brain Disorders, AT-AP- RASC 2022, 29 May 2022-3 June 2022 (Hybrid, Spain) |
[36] J. Gomez-Tames, Thomas Tarnaud, Akimasa Hirata, Wout Joseph, Emmeric Tanghe, Evaluation of cortical electrostimulation thresholds in human for uniform magnetic field exposure at intermediate frequencies, BIOEM 2022/06/19-24, Nagoya, Oral |
[35] Y. Niimi, J. Gomez-Tames, T. Wasaka, A. Hirata, Synaptic Effect of Small Skin Fibers to Pulse-Train Electrical Stimulation, BIOEM 2022/06/19-24, Nagoya, Poster |
[34] Y. Tashiro, J. Gomez-Tames, A. Hirata, Evaluation of Stimulation in Different Functional Cerebellum Regions by Transcranial Temporal Interference Stimulation, BIOEM 2022/06/19-24, Nagoya, Posetr |
[33] K. Hikita, J. Gomez-Tames, A. Hirata, Brain Function Mapping by TMS Combining Computational Dosimetry and Experiments, BIOEM 2022/06/19-24, Nagoya, Poster |
[32] J. Gomez-Tames, A. Hirata, Numerical evaluation of electrostimulation effects, URSI GASS 2021, Rome Italy (hybrid), Aug 28 – Sep 04, 2021 (Oral Presentation) |
[31] K.Hayashi, J. Gomez-Tames, T. Wasaka, A. Hirata, Computational analysis of TMS coil orientation targeting lower limb, BioEM2021, Ghent, Belgium, Sep 26 – Oct 01, 2021 |
[30] X. Duan, J. Lan, Y. Diao, J. Gomez-Tames, A. Hirata, A magnetic resonant coupling wireless power transfer system with grounded resonator to reduce interaction with human body, BioEM2021, Ghent, Belgium, Sep 26 – Oct 01, 2021 |
[29] Y. Suzuki, Y. Diao, J. Gomez-Tames, A. Hirata, Frequency dependence of peripheral nerve threshold for magnetic field exposure, BioEM2021, Ghent, Belgium, Sep 26 – Oct 01, 2021 |
[28] Gomez-Tames, J.: Significant group-level hotspots found in deep brain regions during transcranial direct current stimulation (tDCS): A computational analysis of electric fields, NYC Neuromodulation 2020 Online Conference. Invited |
[27] Rashed, E.; Gomez-Tames, J.; Hirata, A.: Generation of head models for brain induced electric field using deep convolution networks, IEEE ICIP2019, pp. 2621-2625. Poster Presentation, Sep 22-25, 2019 (Taiwan) |
[26] Gomez-Tames, J.; Rashed, E.; Hirata, A.; Thomas, T.; Emmeric, T.; Van de Steene, T.; Joseph, W.; Martens, L.: Setting Reference Level in Human Safety Guidelines via Cortical Nerve Activation Intercomparison at IF, EMC Sapporo 2019, pp. 162-165, June 3-7, 2019 (Sapporo) Best Paper Award |
[25] Gomez-Tames, J.; Sasaki, T.; Tani, K.; Tanaka, S.; Lu.; Ueno, S.; Hirata, A.: Multiscale Analysis of Perception and Pain Thresholds during Magnetic Stimulation, BIOEM2020, Oxford 2020. |
[24] Gomez-Tames, J.; Asai, A.; Hamasaka, A.; Laakso, I.; Lu.; Ueno, S.; Hirata, A.: Which deep brain regions are most activated in a group of subjects by non-invasive stimulation techniques?, BIOEM2019, Oral Presentation, Oral Presentation, June 29-28, 2019 (Montpellier). |
[23] Asai, A.; Gomez-Tames, J.; Kodera, S.; Diao, Y.; Hirata, A.: Identifying Hotspots During Cerebellar tDCS Stimulation: Group-Analysis Computation, EMC Sapporo 2019, June 3-7, 2019 (Sapporo) |
[22] Tanaka, S.; Gomez-Tames, J.; Wasaka, T.; Hirata, A.: Evaluation of Electrical Parameter Variability for Skin Fiber Modelling, EMC Sapporo 2019, June 3-7, 2019 (Sapporo) |
[21] Gomez-Tames, J.; Hirata, A.: Electromagnetic computation and neural modelling to determine effective activation site in brain cortex. Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation, 12(2), 433, Poster Presentation, February 26, 2019 (Vancouver). |
[20] Gomez-Tames, J.; Hirata, A.: Extended numerical modelling of cortical electrostimulation, BIOEM2018, Oral Presentation, Oral Presentation, June 29, 2018 (Slovenia). |
[19] Kodera, S.; Gomez-Tames, J.; Hirata, A.: Effect of vasodilatation on temperature elevation in human brain during localized RF exposure: A computational study, BIOEM2018, Oral Presentation, Oral Presentation, June 25, 2018 (Slovenia). |
[18] Aonuma, S.; Gomez-Tames, J.; Laakso, I.; Hirata, A.: Visualizing hotspots and thresholds in the brain by transcranial magnetic stimulation. URSI GASS 2017, Oral Presentation, August 26, 2017 (Montreal) |
[17] 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) |
[16] 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) |
[15] Gomez-Tames, J.; Aonuma, S.; Kutsuna, T.; Hirata, A.: Activation Thresholds for Electrostimulation by TMS and DES: Brain Mapping Via Multiscale Model. URSI2017, pp. 1-4, Oral Presentation, August 23, 2017 (Montreal) Young Research Award |
[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, May 19, 2015 (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, Oral Presentation, May 8, 2015 (Turin). |
[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, December 7, 2014 (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 IEEE, pp. 250-253, Poster Presentation, August 27, 2014 (Chicago). |
[10] Y. Fukuhara, Gomez-Tames, J. Gonzalez, 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, Oral Presentation, pp. 1-4, November, 2013 (Romania). |
[9] Gomez-Tames, J. & Yu, W.: Assessment of Nerve Morphology in Nerve Activation During Electrical Stimulation, In American Institute of Physics Conference Series, Oral Presentation, Vol. 1559, pp. 355-358, October, 2013 (Sydney). |
[8] 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 IEEE, Poster Presentation, pp. 3618-3621, July, 2013 (Osaka). |
[7] 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, Oral Presentation, pp. 1-4, November, 2013 (Romania). |
[6] 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, Oral Presentation, pp. 51-54, June, 2013 (Costa Rica). |
[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, Poster Presentation, Converging Clinical and Engineering Research on Neurorehabilitation, pp. 449-453, November, 2012 (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, Poster Presentation, 455-459, November, 2012 (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 IEEE, Poster Presentation pp. 3576-3579, September, 2012. (San Diego) (Top 10% Citation) |
[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, Oral Presentation, pp. 1-3, September, 2011 (Brazil). |
[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), Poster Presentation, pp. 495-498, February 2011 (Hong Kong). |