Personalized Medicine

Cutting-edge technology for medical solutions tailored to individual patient needs

Personalized medicine, also known as precision medicine, is an approach that considers the unique characteristics of each individual to provide more effective and accurate treatments. The growing availability of data and the ability to process it are leading to increasingly advanced technologies to guide decision-making by reducing medical errors and improving the quality and efficiency of healthcare services.

In addition, from the analysis of available data, what are known as digital twins are being generated, i.e. virtual models that represent an individual or a specific organ and that allow different scenarios and personalised treatments to be simulated.

Thus, the combination of data processing and its incorporation into digital twins that integrate different organs and the interactions between them represents a breakthrough in the search for medical solutions that are increasingly adapted to the individual needs of patients, thus moving towards P4 medicine (personalised, predictive, preventive and participatory).

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Contacto

Esther Pueyo Paules

Grupos

Investigadores

Acero Acero, Jesús - GEPM

Alfaro Ruiz, Icíar - AMB

Aramendía Marzo, María Teresa - MARTE

Artigas Maestre, José Ignacio - GEPM

Bailón Luesma, Raquel - BSICoS

Bayod López, Javier - AMB

Blanco Bascuas, Teresa - Howlab

Bolea Fernández, Eduardo - MARTE

Burdío Pinilla, José Miguel - GEPM

Calvo Calzada, Begoña - AMB

Casas Nebra, Roberto - Howlab

Cegoñino Banzo, José - GBM

Cilla Hernández, Myriam - AMB

Ciriza Astraín, Jesús - TME Lab

Consejo Vaquero, Alejandra - TOL

Cueto Prendes, Elías - AMB

Doblaré Castellano, Manuel - TME Lab

Doweidar, Mohamed H. - AMB

García Aznar, José Manuel - M2BE

García Gareta, Elena - M2BE

García Ruiz, María Esperanza - MARTE

Gil Albarova, Jorge - GBM

Gil Herrando, Eduardo - BSICoS

Gómez Benito, María José - M2BE

González Ibáñez, David - AMB

Grasa Orús, Jorge - AMB

Ibarz Montaner, Elena - GBM

Laguna Lasaosa, Pablo - BSICoS

Lanchares Sancho, Elena - AMB

López Alonso, Borja - GEPM

Lucía Gil, Óscar - GEPM

Malo Ladrero, Clara - TME Lab

Marco Marco, Álvaro - Howlab

Martínez Barca, Miguel Á. - AMB

Martínez Cortés, Juan Pablo - BSICoS

Martínez Ruiz, Ignacio - Howlab

Mena Tobar, Andrés - AMB

Ochoa Garrido, Ignacio - TME Lab

Oliván García, Sara - TME Lab

Oliván Viguera, Aida - BSICoS

Otín Acín, Aránzazu - GEPM

Peña Baquedano, Estefanía - AMB

Pérez Ansón, María Ángeles - M2BE

Pérez del Palomar Aldea, Amaya - GBM

Puértolas Broto, Sergio Estanislao - GBM

Pueyo Paules, Esther - BSICoS

Resano Ezcaray, Martín - MARTE

Ríos Jordana, Ricardo - GBM

Solanas Villacampa, Estela - TME Lab

Proyectos

PELVITRACK

PELVIc Floor Evaluation live TRACKing – Real-time prediction of perineal trauma

To develop the first-ever solution to predict pelvic floor tearing

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COGNITWIN

Physics-informed world models for the development of cognitive digital twins

FOOT UPDATE 5.0

Predict and prevent foot pathologies related to hallux limitus and flat feet

IVIS-AID

In silico models for tendinomuscular injuries analysis using artificial intelligence techniques

To continue characterizing the in vitro mechanical properties of tissues present in the ankle joint of a mouse model and extend the study to those involved in the shoulder's rotator cuff. In the case of muscles, the active behavior will also be analyzed by inducing contraction through an external electrical signal.

RhythMods

Implementation and validation of a closed-loop neural interface to entrain brain rhythms and reduce motor symptoms in Parkinson's Disease

To develop a non-invasive neuromodulation platform to apply closed-loop stimulation protocols synchronized with brain oscillations decoded from the periphery with muscle recordings

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MESMODI-BCG

Methods for Stroke Monitoring and Diagnosing based on BCG

To develop novel, non-invasive methods for detecting cardiac and non-cardiac disease in stroke patients using the ballistocardiogram (BCG) signal, allowing for patient monitoring without transfer to clinical settings

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UNLOOC

Unlocking data content of Organ-On-Chips

To develop groundbreaking Organ-on-Chips (OOC) technologies to mitigate the challenges posed by use of animals in drug development and testing. Direct use of human cells is a real game changer, bridging the gender gap and allowing personalized medicine.

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NanoLyme

Towards a new diagnosis of Lyme disease through nanotechnology, atomic spectrometry and artificial intelligence.

ADVANCE

Translational cardioselective RNAi therapies and predictive heart-on-chip to tackle cardiac clinical challenges

ANADROP

Microsampling for biomedical elemental analysis: make every droplet count

Developing new analytical methodologies for providing elemental and isotopic information from microsamples, which can be obtained in a minimally invasive way in order to achieve entity-resolved information.

ANEURISKMOD

In silico framework to improve the personalized prediction of progression and outcomes in thoracic and abdominal aortic aneurysms based on personalized clinical and mechanical biomarkers

To develop a computational-experimental framework to improve the prediction of the initiation, progression and final outcome of the pathology.

DATES

Computational modeling of cell culture in dynamically adaptive multilayer microenvironment charged with drug-delivery microcapsules

Develop computational tools for the predictive analysis of key factors in the evolution of multiple myeloma and cartilage, and spinal cell growth and more...

OPTIFEMUR

Optimisation of personalised treatments for femoral fractures using digital twins and machine learning

Power electronics and electromagnetic technologies for wireless energy transfer by inductive, resonant and capacitive coupling

POWERCHIP

Microelectronic control architectures for smart power electronic converters based on wide-gap semiconductors

DIAMOOC

Integrated design with artificial intelligence and engineering of bioprinted multi-organoids in chPrincipal investigator for tumour diagnostics and therapy

GBM_IMMUNE

Multiscale modeling of the interaction between the immune system and glioblastoma evolution

ICoMICS

Individual and Collective Migration of Immune Cellular Systems

ICoMICS aims to develop a novel virtual simulation platform to investigate how therapeutic immune cells (TICs) detect, move and interact with cancer cells and the tumour microenvironment.

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ProCanAid

Gemelo digital para la detección, el diagnóstico asistidos del cáncer de próstata y la simulación de los efectos y la eficacia de diferentes tratamientos oncológicos

Desarrollar una herramienta computacional para crear un gemelo digital 4D: un modelo virtual diseñado para reflejar con precisión toda la próstata de un paciente y de su posible tumor

MyGait_SENSORS

Deepening knowledge and improving the Quality of Life in Parkinson Disease through Smart Insoles

To develop intelligent insoles that will allow, by means of force and inertial sensors and advanced algorithms, to monitor the patient's gait and provide personalised information on the patient's evolution.