Effect of physical therapy on early knee osteoarthritis with medial meniscal posterior tear assessed by MRI T2 mapping and 3D-to-2D registration technique: A prospective intervention study. Ikuta F, Takahashi K, Hashimoto S, Mochizuki Y, et al. Modern Rheumatology. 2019;30:738-747.
Volume change in infrapatellar fat pad is associated not with obesity but with cartilage degeneration. Masaki T, Takahashi K, Hashimoto S, Ikuta F, et al. J Orthop Res. 2018:Dec 11.
Evaluation of deep thermal rehabilitation system using resonant cavity applicator during knee experiments. Shindo Y, Kato K, Ikuta F, Takahashi K, et al. PConf Proc IEEE EMBS. 2018:3220-3223.
Bone morphological factors influencing cartilage degeneration in the knee. Takahashi K et al, Modern Rheumatology, 2018;28(2):351-357.
Effectiveness of radiofrequency hyperthermia for treating cartilage in guinea pigs with primary osteoarthritis. Takahashi K et al, Cartilage, 2018;9(1):71-79.
A pilot study comparing the efficacy of radiofrequency and microwave diathermy in combination with intra-articular injection of hyaluronic acid in knee osteoarthritis. Takahashi K, Kato K , Shindo Y , Takai S, et al. J Phys Ther Sci. 2016;28(2):525-529.
Non-invasive measurement of temperature distributions during hyperthermia treatments using ultrasound B-mode images. Iseki Y, Takahashi K, et al. Thermal Medicine, 2017:33(3):91-101.
Development of ultrasound-guided HIFU system with non-Invasive measurement of sub-pixel temperature distributions. Miura E, Iseki Y, Kato K, et al. Proc. of 2016 International Congress of Hyperthermic Oncology. 2016:215.
Coupled analysis of SAR and temperature distributions inside the human body by 3D FEM using improved cavity applicator. Shindo Y. FERMAT (Forum for Electromagnetic Research Methods and Application Technologies) 2017:19(2):1-7.
Deep thermal therapy system for osteoarthritis of knee joint using resonant cavity applicator. Shindo Y. FERMAT (Forum for Electromagnetic Research Methods and Application Technologies),. 2016:17(4):1-7.
Development of resonant cavity applicator system with non-invasive measurement of temperature distributions. Iseki Y, Kato K. et al. Proc. of 2016 International Congress of Hyperthermic Oncology. 2016:159.
Medial meniscal posterior root/horn radial tears correlate with cartilage degeneration detected by T1ρ relaxation mapping. Takahashi K, et al. Eur J Radiol. 2015;84(6):1098-1104.
Analysis of Musculoskeletal Systems and Their Diseases. Pathophysiology of articular cartilage and its new therapeutic targets. Takahashi K. Clin Calcium. 2015 Aug;25(8):1188-1194.
Heating properties of the resonant cavity applicator with ultrasound monitoring system for effective hyperthermia treatments. Nakamura K, Iseki Y, Shindo Y, Kato K, Takahashi H. Proceedings of 9th European Conference on Antennas and Propagation (EuCAP2015). 2015:1(28):1-4.
Improvement of resonant cavity applicator for thermotherapy of osteoarthritis. Shindo Y, Kato K, Takahashi K. Proceedings of 9th European Conference on Antennas and Propagation (EuCAP2015). 2015:2(26):1-4.
Thermal Therapy with a Resonant Cavity Applicator for Osteoarthritis. Sato A, Takahashi K, Shindo Y, Kato K et al. Orthopaedic Research Society Annual Meeting 2015. 2015:1307:1-4.
Development of ultrasound-guided resonant cavity applicator system - Non-invasive measurement of temperature distributions. Iseki Y, Kato K. Thermal Medicine. 2015:31(3):13-26.
A new heating control method for effective hyperthermia treatment of a brain tumor using the resonant cavity applicator with a segmented dielectric bolus. Iseki Y, Kato K. Thermal Medicine. .2015:30(4):41-53.
Heating properties of resonant cavity applicator for treatment of osteoarthritis-Temperature distributions calculated by 3-D FEM. Shindo Y, Iseki Y, Kato K, Takahashi K . Thermal Medicine. 2014;30(1):1-12.
Heating properties of resonant cavity applicator for treatment of osteoarthritis-Heating experiments using prototype applicator. Shindo Y, Kato K, Takahashi K. Thermal Medicine.. 2014;30(2):13-25.
Heating properties of resonant cavity applicator for treating osteoarthritis. Matsushita T, Shindo Y, Kato K, Takahashi K. Proceedings of the 6th Asian Congress of Hyperthermic Oncology(ACHO) & The 31st Japanese Congress of Thermal Medicine (JCTM). 2014:102.
Development of Coaxial Needle Applicator Made of Shape Memory Alloy. Shindo Y, Iseki Y, Kato K, Takeuchi A. Thermal Medicine. 2014:30(3):27-40.
Resonant cavity applicator with ultrasound monitoring system. Nakamura K, Iseki Y , Shindo Y , Kato K , Takahashi H. Proceedings of the 6th Asian Congress of Hyperthermic Oncology(ACHO) & The 31st Japanese Congress of Thermal Medicine (JCTM).. 2014:101.
Mild electrical stimulation with heat stimulation increase heat shock protein 70 in articular chondrocyte. Hiraoka N, Takahashi K Kubo T. J Orthop Res. 2013;31:894-900.
Heating Properties of Resonant Cavity Applicator for Treating Rheumatoid Arthritis by Using 3-D FEM Knee Model. Watanabe K, Takahashi K , Kato K , Shindo Y. Proceedings of 7th International Symposium on Medical Information and Communication Technology (ISMICT). 査読有. 2013:238-241.
New Heating System Using Resonant Cavity Applicator with Electrical Shield for Rheumatoid Arthritis. Watanabe K, Shindo Y , Kato K , Takahashi K . Proceedings of 2013 International Conference on Electromagnetics in Advanced Applications (ICEAA).. 2013:336-339.
Heating Control Method of Resonant Cavity Applicator for Non-invasive Hyperthermia Treatment. Iseki Y , Shindo Y , Kato K. Proceedings of 2013 International Conference on Electromagnetics in Advanced Applications (ICEAA). 2013:328-331.
Thermotherapy for Rheumatoid Arthritis Using Resonant Cavity Applicator. Shindo Y, Iseki Y , Kato K, Takahashi K. Proceedings of 7th European Conference on Antennas and Propagation (EuCAP). 2013:1168-1172.
Heating control method of resonant cavity applicator for non-invasive hyperthermia treatment. Iseki Y , Shindo Y, Kato K . Proc. of International Conference on Electromagnetics in Advanced Applications 2013. 2013:328-331.
Heating control method for resonant cavity applicator using divided type of dielectric bolus for effective hyperthermia treatment. Iseki Y , Shindo Y, Kato K . Proc. of 7th European Conference on Antennas and Propagation. 2013:1157-1161.
Combined microwave irradiation and intraarticular glutamine administration-induced HSP70 expression therapy prevents cartilage degradation in a rat osteoarthritis model. Fujita S, Takahashi K , Kubo T. J Orthop Res. 2012;30:401-407.
Heating Properties of Resonant cavity Applicator using Dielectric Bolus with Anatomical Human Head. Iseki Y , Shindo Y, Kato K, Takahashi H. Proceedings of World Congress on Medical Physics and Biomedical Engineering, IFMBE Proceedings. 2012:39:1640-1643.
SAR Analysis of the Improved Resonant Cavity Applicator with Electric Shield and Water Bolus for Deep Tumors by a 3-D FEM. Shindo , Iseki Y, Kato K, Takahashi H. Proceedings of 34th Annual International Conference of IEEE EMBS. 2012:5679-5682.
SAR analysis of the improved resonant cavity applicator by a 3-D FEM. Shindo Y, Iseki Y, Kato K , Takahashi H. Proceedings of World Congress on Medical Physics and Biomedical Engineering, IFMBE Proceedings 39. 2012:1620–1623.
Heating Properties of Resonant Cavity Applicator using Dielectric Bolus with Anatomical Human Head Model. Iseki Y , Shindo Y) Kato K, Takahashi H. World Congress on Medical Physics and Biomedical Engineering May 26-31, 2012, Beijing, China Volume 39 of the series IFMBE Proceedings..2012:1640-1643.