{"id":1698,"count":9,"description":"Nuestras principales líneas de investigación son:\n-  Páncreas artificial<\/strong>: algoritmos de control en lazo cerrado, predicción de glucosa y monitorización de actividad física.\n \n-  Tecnologías web y móviles integradas con sensores biomédicos <\/strong>para la monitorización y la ayuda a la decisión a pacientes y profesionales.\n \n-  Tecnologías de apoyo al<\/strong> envejecimiento activo. <\/strong>\n <\/strong>\n-  Inteligencia artificial en medicina: <\/strong>análisis inteligente de datos médicos, data mining<\/em> y big data<\/em>.\n \n-  Imágenes médicas<\/strong>: segmentación, registro multimodal, reconstrucción 3D a partir de RM, TC y US, i.e. neuroimagen en daño cerebral.\n \n-  Simulación física y virtual, planificación quirúrgica<\/strong> en cirugía de mínima invasión, análisis de video laparoscópico y cirugía guiada por imagen<\/strong> y vídeo<\/strong>.\n \n-  Ingeniería de Neurorrehabilitación en daño cerebral<\/strong>: modelado de procesos, rehabilitación cognitiva con entornos virtuales interactivos, rehabilitación funcional “assisted-as-needed<\/em>” y telerrehabilitación domiciliaria.","link":"https:\/\/www.upm.es\/recursosidi\/en\/map\/en_bioengineering-and-telemedicine-group\/","name":"Bioengineering and Telemedicine Group","slug":"en_bioengineering-and-telemedicine-group","taxonomy":"donde","parent":0,"meta":[],"id_grupo_portal":"279","acronimo":"","resumen":"

\n At the Bioengineering and Telemedicine Group (BTG) <\/strong>our aim is education, research and technological development in the field of Biomedical Engineering, mainly applying Information and Communications Technologies to health.<\/span>\n <\/p>\n

\n \n <\/p>\n

\n The group was created in 1983 and currently consists of 32 people \u00bfteaching staff, doctorate researchers, trainee researchers, technical and administrative staff and students doing their Degree or Masters theses. The group's members come from the Photonics Technology and Bioengineering Department at the HTSE for Telecommunications, the ITE Department of the HTSE for Telecommunications Systems and the Biomedical Technology Centre (BTC). Researchers from other universities and hospitals, in Spain and abroad, also collaborate with the BTG.<\/span>\n <\/p>","imagen":false,"responsable":"Enrique Javier G\u00f3mez Aguilera","lineas":"Bioinstrumentation for neuroscience and neurology. Guidance \/ targeting of nanoparticles. Hyperthermia cancer treatment and localized release of drugs.\nCognitive Neuroscience: analysis of brain connectivity. MEG\nDevelopment of advanced techniques for functional analysis and quantitative image. early diagnosis of degenerative neuropathology (MR, MEG, PET)\nEngineering neurorehabilitation in acquired brain damage and cognitive impairment.\nPhysical and functional characterization of biocompatible magnetic nanostructures and stable in biological medium. Markers \/ contrast MRI and MEG\nResearch on brain mechanisms of communication.\nSmart Devices\nSustainable Telemedicine in developing countries\nTechnologies for decision support in medicine.\nTele-artificial pancreas: Algorithms for closed loop control. Patient simulators for in-silico algorithms validation .\nTelemedicine home: Sustainable Telemedicine in developing countries. \"Ambient Assisted Living\". Multi-agent Architectures\nVirtual Simulation and surgical Planning in minimally invasive surgery, 3D reconstruction. Surgical planning. multimodal imaging registration in radiotherapy.","direccion":"","telefono":"91 336 73 08","pagina_web":"http:\/\/www.gbt.tfo.upm.es\/","email":"gi.gbt@upm.es","actividades":"

\n The BTG is the founder group of the Biomedical Technology Centre<\/strong> (BTC<\/a>) at the UPM and a member of the Bioengineering, Biomaterials and Nanomedicine Network Research Centre<\/strong> (CIBER-BBN<\/a>) funded by the Carlos III Health Institute.<\/span>\n <\/p>\n

\n BTG professors coordinate the Degree in Biomedical Engineering<\/strong> and the University Masters in Biomedical Engineering<\/strong> at the UPM. This activity is based on more than 25 years experience in teaching this discipline.<\/span>\n <\/p>\n

\n At the BTG we have taken part in more than 60 European research projects and 52 national and regional projects. The BTG has collaboration agreements with private companies in the sector and has fostered 3 spin-offs in the biomedical technology sector.<\/span>\n <\/p>\n

\n In the last 10 years, 18 doctoral theses were completed, 181 articles were published in journals, 192 publications in national and international conferences with reviewers, and 5 patents have been obtained.<\/span>\n <\/p>\n

\n The BTG maintains stable interdisciplinary collaborations with clinical and technology centres: Hospital de Sabadell, Hospital Sant Pau-Barcelona, Samsum Diabetes Center, Twente University, Hospital Clinic-Barcelona, Centro de Cirug\u00eda M\u00ednima Invasi\u00f3n Jes\u00fas Us\u00f3n de C\u00e1ceres, KU Leuven, SINTEF-Trondheim, TU Delft, Oslo University, Hospital Cl\u00ednico San Carlos-Madrid, Hospital Universitario de La Princesa-Madrid, Hospital Instituto Guttman-Barcelona and Harvard Medical School.<\/span>\n <\/p>","contenido":"","pictures":"http:\/\/www.upm.es\/observatorio\/vi\/gestor_general\/recuperar_archivo.jsp?id=915\rhttp:\/\/www.upm.es\/observatorio\/vi\/gestor_general\/recuperar_archivo.jsp?id=916","descripcion":"

\n Our main lines of research are as follows:\n <\/p>\n

\n - Artificial pancreas<\/strong>: closed loop control algorithms, glucose prediction and physical activity monitoring.\n <\/p>\n

\n - Web and mobile integrated technologies with biomedical sensors <\/strong>to monitor and help patients and professions make decisions.\n <\/p>\n

\n - Active ageing<\/strong>\n support technologies.<\/strong>\n \n <\/p>\n

\n - Artificial intelligence in medicine: <\/strong>smart analysis of medical data, data mining and big data.\n <\/p>\n

\n - Medical imaging<\/strong>: segmentation, multi-modal registration, 3D reconstruction using MRI, CAT and Ultrasound, i.e., cerebral damage neuroimaging.\n <\/p>\n

\n - Physical and virtual simulation, surgical planning<\/strong> for minimally invasive surgery, analysis of laparoscopy video and image and video-guided<\/strong>\n surgery<\/strong>.\n <\/p>\n

\n - Cerebral damage neurorehabilitation engineering<\/strong>: process modelling, cognitive rehabilitation with interactive virtual environments, functional rehabilitation \"assisted-as-needed\" and telerehabilitation at home.\n <\/p>","resultados_protegidos":"","servicios_innovacion":"","ods":false,"areas":false,"rrss":"","palabras_clave":[{"term_id":6480,"name":"Biomedical Engineering","slug":"biomedical-engineering","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6480,"term_group":0,"count":0,"id":6480},{"term_id":3403,"name":"active ageing","slug":"active-ageing","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":3403,"term_group":0,"count":4,"id":3403},{"term_id":6417,"name":"artificial intelligence","slug":"artificial-intelligence","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6417,"term_group":0,"count":1,"id":6417},{"term_id":6481,"name":"biomedical sensors","slug":"biomedical-sensors","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6481,"term_group":0,"count":0,"id":6481},{"term_id":2482,"name":"diabetes","slug":"diabetes","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":2482,"term_group":0,"count":6,"id":2482},{"term_id":6482,"name":"image guided surgery","slug":"image-guided-surgery","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6482,"term_group":0,"count":0,"id":6482},{"term_id":6420,"name":"medical imaging","slug":"medical-imaging","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6420,"term_group":0,"count":0,"id":6420},{"term_id":6483,"name":"medical simulation","slug":"medical-simulation","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6483,"term_group":0,"count":0,"id":6483},{"term_id":6484,"name":"mobile apps","slug":"mobile-apps","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6484,"term_group":0,"count":0,"id":6484},{"term_id":6485,"name":"neurorehabilitation","slug":"neurorehabilitation","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6485,"term_group":0,"count":0,"id":6485},{"term_id":6486,"name":"physical activity","slug":"physical-activity","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6486,"term_group":0,"count":0,"id":6486},{"term_id":6487,"name":"telemedicine","slug":"telemedicine","description":"","taxonomy":"product_tag","parent":[],"term_taxonomy_id":6487,"term_group":0,"count":0,"id":6487}],"infraestructura":false,"acf":[],"lang":"en","translation":{"en":1698,"es":474},"_links":{"self":[{"href":"https:\/\/www.upm.es\/recursosidi\/wp-json\/wp\/v2\/donde\/1698"}],"collection":[{"href":"https:\/\/www.upm.es\/recursosidi\/wp-json\/wp\/v2\/donde"}],"about":[{"href":"https:\/\/www.upm.es\/recursosidi\/wp-json\/wp\/v2\/taxonomies\/donde"}],"wp:post_type":[{"href":"https:\/\/www.upm.es\/recursosidi\/wp-json\/wp\/v2\/product?donde=1698"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}