Department of Biomedical Engineering, Polytechnic University of Chiapas, Mexico;
Division of Medical Engineering Research, National Institute of Rehabilitation, Mexico City, Mexico;
Research and Development Institute of the Mexican Navy, INIDETAM, Mexico City, Mexico;
Division of Medical Engineering Research, National Institute of Rehabilitation, Mexico City, Mexico;
Electrical Engineering Department, Bioelectronics Section, CINVESTAV-IPN, Mexico City, Mexico;
Group of RD, “Systems and Ultrasonic Technologies”, Institute for Physical and Information Technologies, CSIC, Madrid, Spain;
Electrical Engineering Department, Bioelectronics Section, CINVESTAV-IPN, Mexico City, Mexico;
Bones; Acoustics; Mathematical model; Tumors; Slot antennas; Heating systems;
机译:微波消融治疗脑和颅底肿瘤的初步经验;超声引导可行性,23例报告
机译:下午4:03摘要218号超声波融合成像,微波消融期间对比增强超声:灌注猪肝模型中的可行性研究
机译:微波消融过程中超声造影与超声融合的对比:猪肝脏灌注模型的可行性研究
机译:微波和超声消融的可行性作为治疗骨肿瘤的替代方案
机译:使用超声弹性成像技术监测肝肿瘤的微波消融治疗。
机译:微波消融治疗脑和颅底肿瘤的初步经验;超声引导可行性23例报告
机译:局部肿瘤进展超声引导经皮微波消融阶段T1A肾细胞癌:171颗肿瘤的危险因素分析