Page 88 - CIBER-BBN2016-ENG
P. 88
leaD reSearcher
Del Pozo Guerrero, Francisco
Univ. Politécnica de Madrid
Centro de Tecnología Biomédica. Parque Científico y Tecnológico de la UPM Campus de Montegancedo, M40, Km. 38
28223 Pozuelo de Alarcón Madrid
(+34) 647 884 525 [email protected] group Website
GROUP MEMBERS
Staff members: Cobo Sánchez de Rojas, Antonio | Pérez Gandía, Ma Carmen
Associated members: Bajo Bretón, Ricardo | Bruña Fernández, Ricardo | Cáceres Taladriz, César | Caunet Delis, Leonides | De Toledo Heras, Paula | Gómez Aguilera, Enrique José | González Nieto, Daniel | Guinea Tortuero, Gustavo Víctor | Hernando Pérez, María Elena | López García, Ma Eugenia | Maestú Unturbe, Ceferino | Maestú Unturbe, Fernando | Pérez Rigueiro, José | Ramos Gómez, Milagros | Rodríguez Vila, Borja | Serrano Olmedo, José Javier
Contributors: Castellanos, Nazareth | Félix González, Nazario | García García, Fernando | Gutiérrez Díez, Ricardo | Martínez Sarriegui, Iñaki | Mina Rosales, Alejandra | Moratti, Stephan | Moreno Sánchez, Pedro Antonio | Niso Galán, Julia Guiomar | Rodríguez Herrero, Agustín | Sánchez González, Patricia | Sánchez López de Pablo, Cristina | Solana Sánchez, Javier
Main lines of research
• Oscillatory activity of the brain: Towards the understanding of the normal cognition and brain disorders; cerebral basis of cognitive function in healthy people and in patients with neurological and psychiatric diseases.
• Advanced biomedical imaging technologies: Neuroimaging biomarkers in aging and dementia; simultaneous EEG-fMRI Recording; functional and structural connectivity.
• Diabetes technologies to apply the available technologies to optimize follow-up and metabolic control of people suffering from diabetes.
• Neurorehabilitation Engineering: to help restore, minimize and/or compensate the alterations, those typically appear on a person after suffering a Traumatic Brain Injury (TBI) or a stroke; Neurorehabilitation processes modeling: dysfunctional and hybrid bionics models; Smart monitoring of cognitive and physical rehabilitation.
• Development of sensors and medical devices based on nanoparticles: hyperthermia induction in living tissues (optical and radiofrequency); biosensors based on nanoparticles for early diagnosis of bacterial diseases.
• Development of biofunctionalized nanomaterials for biomedical applications: Design and manufacture of biocompatible and stable nanostructures for RMI contrast agents for in vivo early diagnosis of Alzheimer disease; Labeling of human neural precursor cells for in vivo cell tracking in cell replacement therapies against neurodegenerative diseases.
• Computational systems biology & study of structure and function in cultured neuronal networks.
88
PROGRAMMES
Bioengineering & Medical Imaging
