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#Marta animal definicion portable#

Tumor Cancer on a chip in vitro development.

Microfluidic system to monitor cancer therapy response.

Development of 3D neuromuscular tissue models for soft robotics and clinical applications.

Engineering microfluidic platforms for neurobiological studies.

Nanoporous-based systems for kidney-on–a-chip developments.

Microfluidic chip for blood/plasma filtering and anemia diseases characterization.

Microfluidic systems for biological studies and Organ-on-Chip devices

Study of magnetite nanoparticles – Amyloid-Beta interaction in Alzheimer disease.ģ.

Study of biological mechanisms at single molecule level.

Biophysical description of cellular phenomena (adhesion, cell migration, differentiation) using micro/nanotechnologies, cell biology tools and soft matter physics.

Application to musculoskeletal system regeneration.

Development of bioengineered 2D and 3D micro/nanoenvironments with a topography and chemical composition controlled at the nanoscale for cell behavior studies (adhesion, proliferation, differentiation).

Nanotechnology applied to biomolecule interaction studies and micro/nano-environments for regenerative medicine applications Application for detection of circulating tumours cells (CTCs).Ģ.

Microfluidic chip using hydrodynamic forces for cell counting and sorting.Implantable physiological sensors-array for tissue in vivo hypoxia and ischemia monitoring.Antibody-based sensors for pathogenic microorganisms’ detection and neurodegenerative early detection.Vascular implantable sensors for circular cancer biomarker detection.

#Marta animal definicion portable#

DNA sensors-arrays integrated in lab-on-a-chip for portable point of care diagnosis.Biosensors and Lab-on-a-Chip devices for clinical diagnosis and monitoring The projects carried out by the group are focused on clinical and industrial problems and are related to three convergent research lines:ġ. The bioengineered microdevices are used to study cell responses to biomolecular compounds applied to Organ-on-Chip devices, or for the development of new lab-on-a-chip based biosensors. The main research activities of the group include the engineering and biochemical functionalization of biomaterials integrated with microfluidics systems. The goal is to fabricate microsystems containing living cells that recapitulate tissue and organ level functions in vitro and new portable diagnosis devices that can be used as Point-of-Care systems. The Nanobioengineering group is a truly multidisciplinary team composed by researchers coming from very diverse backgrounds working together in applying nanotechnology for the development of new biomedical systems and devices, mainly for diagnostic purposes, and integrated microfluidic Organ-on-Chip devices for the study of organ physiology, disease etiology, or drug screening. IBEC is committed to turning research results into practical applications, providing innovative solutions to industry and to hospitals, and, ultimately, to society. Signal and Information Processing for Sensing Systems.Protein Phase Transitions in Health and Disease.Nanoscale bioelectrical characterization.Molecular Imaging for Precision Medicine.Molecular and Cellular Neurobiotechnology.Biomimetic systems for cell engineering.Biomedical signal processing and interpretation.Bioinspired Interactive Materials and Protocellular Systems.Biomaterials for Regenerative Therapies.Bacterial infections: antimicrobial therapies.