Nanobioengineering

About

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.

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 main research activities of the group include the engineering and biochemical functionalization of biomaterials integrated with microfluidics systems. 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 projects carried out by the group are focused on clinical and industrial problems and are related to three convergent research lines:

1. Biosensors and Lab-on-a-Chip devices for clinical diagnosis and monitoring

DNA sensors-arrays integrated in lab-on-a-chip for portable point of care diagnosis
Vascular implantable sensors for circular cancer biomarker detection.
Antibody-based sensors for pathogenic microorganisms’ detection and neurodegenerative early detection
Implantable physiological sensors-array for tissue in vivo hypoxia and ischemia monitoring.
3D printing microfluidic technology.
Microfluidic chip using hydrodynamic forces for cell counting and sorting. Application for detection of circulating tumours cells (CTCs).

2. Nanotechnology applied to biomolecule interaction studies and micro/nano-environments for regenerative medicine applications

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). Application to musculoskeletal system regeneration.
Biophysical description of cellular phenomena (adhesion, cell migration, differentiation) using micro/nanotechnologies, cell biology tools and soft matter physics.
Study of biological mechanisms at single molecule level.
Study of magnetite nanoparticles – Amyloid-Beta interaction in Alzheimer disease.

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

Microfluidic chip for blood/plasma filtering and anemia diseases characterization
Spleen-on-a-chip development.
Nanoporous-based systems for kidney-on–a-chip developments.
Engineering microfluidic platforms for neurobiological studies.
Development of 3D neuromuscular tissue models for soft robotics and clinical applications
Microfluidic system to monitor cancer therapy response. Tumor Cancer on a chip in vitro development.
Microfluidic vessel on-a-chip for screening drug delivery systems.

Staff

Josep Samitier Martí

Group Leader

+34 934 039 706

jsamitier

ibecbarcelona.eu

Fàbrega Alsina, Roger

Gómez Jiménez, Nathalia

Hueso Val, Miguel

Huguet Suárez, Jose

Lagunas Targarona, Anna

López Martínez, Maria José

Mir Llorente, Mònica

Panteleeva , Anna

Provenziani , Rebecca

Puigdomenech Casacuberta, Judit

Ramírez Rosales, Angela María

Rodríguez Trujillo, Romén

Samitier Martí, Josep

Villasante Bermejo, Aranzazu

Vinyes I Bassols, Gal·la

White , Tom

Projects

NATIONAL PROJECTS	FINANCER	PI
BASE3D (2019-2022)	RIS3CAT Tecnologies Emergents	Josep Samitier
PREMED Desarrollo de un ensayo microfluídico funcional en células para el tratamiento personalizado contra el cáncer (2019-2022)	MICIU: Retos investigación	Joan Montero
Sistema microfisiológico para mimetizar las barreras hemato-sistema nervioso central: aplicación a la esclerosis lateral amiotrófica (2019-2022)	MICIU: Retos investigación	Anna Lagunas
BATMAN Nanopartículas biomiméticas para el tratamiento dirigido del neuroblastoma pediátrico (2021-2023)	MICIU, Retos investigación: Proyectos I+D.	Aranzazu Villasante
Neuroblastoma en un chip para investigar la resistencia a fármacos y el uso de nanopartículas terapéuticas (2018-2022)	Asociación Española contra el Cáncer (AECC)	Aranzazu Villasante
Evaluación Funcional de respuesta celular a la quimioterapia neoadyuvante en Sarcoma de tejido blando (2021-2024)	Fundación Mari Paz Jiménez Casado (FMPJC), Beca Trienal FMPJC Investigación Sarcomas	Joan Montero

INTERNATIONAL PROJECTS	FINANCER	PI
ASCTN-Training Training on Advanced Stem Cell Technologies in Neurology (2018-2022)	European Comission Marie Curie ITN	Josep Samitier
EVIDENCE Erythrocytes properties and viability in dependence of flow and extra-cellular environment (2020-2023)	European Comission Marie Curie ITN	Josep Samitier
PANDORA Pandemics Outbreaks Rationalized: towards a universal therapy to eliminate intracellular pathogens (2020-2025)	European Commission, ERC – StG	Josep Samitier
BEST Postdoctoral Programme in Bioengineering Excellence Scientific Training (2017-2022)	European Commission, COFUND – Marie Sklodowska-Curie Co-funding of regional, national and international programmes	Josep Samitier
SCIFI From Scientists to Innovators for Industry (2022-2024)	EIT Health, EITHealth BP2022 Education	Josep Samitier

PRIVATELY-FUNDED PROJECTS	FINANCER	PI
Descubrimiento de nuevos marcadores terapéuticos en neuroblastoma mediante la generación de modelos basados en técnicas de ingeniería de cáncer (2021-2023)	Associació pacients NEN	Josep Samitier /Aranzazu Villasante
Understanding and measuring mechanical tumor properties to improve cancer diagnosis, treatment, and survival: Application to liquid biòpsies (2017-2022)	Obra Social La Caixa	Josep Samitier
BCNatal Artificial Placenta Project (2021-2022)	Obra Social La Caixa	Maria José López
Descubrimiento de nuevos marcadores terapéuticos en neuroblastoma mediante la generación de modelos basados en técnicas de ingeniería de cáncer (2021-2023)	Associació pacients NEN	Aranzazu Villasante

FINISHED PROJECTS	FINANCER	PI
Personalizing pediatric cancer treatment with kinome analyses, cell-based funcional assays and microfluidics (2017-2021)	CELLEX	Josep Samitier / Joan Montero
ISCHEMSURG Miniaturized electrochemical sensor for monitoring of free flap ischemia in post-surgery (2019-2021)	AGAUR	Josep Samitier
Joint Programme – Healthy Ageing (2016)	Obra Social «La Caixa»	Josep Samitier
PLANTOID Innovative Robotic Artefacts Inspired by Plant Roots for Soil Monitoring	ICT	Josep Samitier
Universal diagnostic platforms based on oligonucleotide cofidied nanoparticles and DNA microarray sensor devices	MINECO, I+D-Investigación fundamental no orientada	Josep Samitier
ELECTRA-G (2014-2016)	Conveni GENOMICA S.A.U.	Josep Samitier
Desarrollo de una nueva tecnología lab-on-a-chip para la detección y cuantificación de secuencias de ADN/ARN (2014-2016)	Conveni GENOMICA S.A.U.	Josep Samitier
BIOBOT Engineered biological soft robots based on neuro-muscular junction control (2015-2018)	MINECO, Proyectos EXPLORA Ciencia / Tecnología 2015	Josep Samitier
Advancecat Acceleradora pel desenvolupament de teràpies avançades	ACCIÓ / Smart Specialization funds (RIS3)	Josep Samitier
MINDS Plataforma MIcrofluídica 3D de cultivo Neuronal compartimentada para el estuDio de enfermedades neurológicaS (2016-2018)	MINECO, Proyectos I+D Excelencia	Josep Samitier
nanoET-leukemia Nanoconductance of electron transfer proteins of the respiratory chain. Direct measurementat the single molecular level and therapeutic regulation in cancer stem cells (2015-2018)	MINECO, Proyectos RETOS 2015 / CIBER	Anna Lagunas / Marina Giannotti
Desenvolupar un sistema d’assistència robòtica per medicina i cirurgia fetal (2016-2019)	CELLEX	Josep Samitier
Monitoring neurocognitive deficits in Alzheimer’s and Parkinson’s diseases using saliva or blood-derived biomarkers and a multiplexed approach (2016-2018)	Obra Social «La Caixa»	Josep Samitier
ISCHEMSURG Miniaturized electrochemical sensor for monitoring of free flap ischemia in post-surgery (2019-2020)	CaixaImpulse	Monica Mir
Personalizing Melanoma Treatment Using Dynamic BH3 Profiling (2018-2020)	Dana-Farber Cancer Institut	Joan Montero
NANOVAX Nanovacunas diseñadas para inmunoterapia antitumoral (2016-2020)	EuroNanoMed (ERA-Net)	Josep Samitier
Understanding and measuring mechanical tumor properties to improve cancer diagnosis, treatment, and survival: Application to liquid biopsies (2017-2020)	Obra Social «La Caixa»	Josep Samitier
Personalizing pediatric cancer treatment (2018-2020)	Fundación FERO	Joan Montero

Publications

Equipment

Nanofabrication and nanomanipulation

3D Printing system for microfluidic devices
Graphtech

Characterization

Potentiostates
Optical Waveguide Lightmode Spectroscope (OWLS)
Atomic Force Microscope (AFM)
Optical Microscopes (white light/epifluorescence)
Electrical Impedance spectroscopy (EIS)
Multi-frequency Lock-in Amplifier
Sub-femtoamp Remote SourceMeter Instrument

Molecular/cell biology

Biological safety cabinet (class II)
Microwell plate readers
Protein and DNA electrophoresis systems
Microincubator Okolab
Nanodrop spectrophotometer
CO2 incubator for cells: Galaxy® 48 S, 48 L, 230 V/50/60 Hz, standard
Cell culture cabin: Bioii-Advance 3

Microfluidics

High precision syringe pumps
Peristaltic pumps

Collaborations

Prof. Fernando Albericio
Institut de Recerca Biomédica (IRB), Barcelona, Spain
Dr. José Antonio Andrades
Universidad de Málaga, Spain
Prof. Ezequiel Pérez
Inestrosa Centro Andaluz de Nanomedicina y Biotecnología (BIONAND), Málaga, Spain
Prof. Joan Bausells
Centro Nacional de Microelectrónica (CNM-CSIC), Barcelona
Prof. Albert van den Berg
University of Twente, The Netherlands
Prof. Andre Bernard
Institut für Mikro- und Nanotechnologie (MNT-NTB), Buchs, Switzerland
Prof. H. Börner
Max Planck Institute of Colloids and Interfaces, Golm, Germany
Prof. Josep Maria Canals
University of Barcelona, Spain
Dr. Matthew Dalby
University of Glasgow, UK
Prof. Paolo Dario
Scuola Superiore Sant’Anna (SSSA), Pontedera, Italy
Prof. Ramón Eritja
Institut de Recerca Biomédica (IRB), Barcelona, Spain
Prof. E. Faszewski
Wheelock College, Boston, USA
Prof. G. Fuhr
FhG Biomedicine, St. Ingbert, Germany
Dr. Juan C. Izpisúa
Salk Institute for Biological Studies, La Jolla, California
Dr. Nicole Jaffrezic
Université Claude Bernard Lyon 1, France
Dr. Graham Johnson
Uniscan Instruments Ltd, Buxton, UK
Dr. Mª Pilar Marco
Institute of Chemical and Environmental Research, Barcelona
Prof. Jean-Louis Marty
Université de Perpignan Via Domitia, France
Prof. Barbara Mazzolai
IIT Center for Micro-BioRobotics (CMBR), Pontedera, Italy
Dr. Edith Pajot
Biology of Olfaction and Biosensors group (BOB) at INRA, Jouy-en-Josas, France
Dr. M. Lluïssa Pérez
Dept. Farmacología, University of Barcelona, Spain
Dr. Hernando del Portillo
Centro de Investigación en Salud Internacional de Barcelona (CRESIB), Barcelona, Spain
Dr. Jaume Reventós
Hospital Vall d’Hebrón, Barcelona, Spain
Prof. L. Reggiani
Nanotechnology Laboratory, INFM, Lecce, Italy
Prof. Daniel Riveline
Laboratory of Cell Physics ISIS/IGBMC, Strasbourg
Prof. M. Sampietro
Politecnico di Milano, Italy
Prof. Molly M. Stevens
Imperial College, London, UK
Dr. Christophe Vieu
Laboratoire d’analyse et d’architectures des systèmes (LAAS-CNRS), Toulouse, France
Prof. Pau Gorostiza
IBEC
Prof. Irene Díaz Moreno
3IIQ-cicCartuja, Universidad de Sevilla-CSIC, Spain
Prof. Miguel A. de la Rosa
3IIQ-cicCartuja, Universidad de Sevilla-CSIC, Spain
Dr. María del Mar Mañú Pereira
Josep Carreras Leukaemia Research Institute, Barcelona, Spain
Dr. Joan Lluis Vives
Josep Carreras Leukaemia Research Institute, Barcelona, Spain

Industry partners:

Biokit S.A. (Werfen group); Genomica S.A.U. (Zeltia group); Tallers Fiestas S.L.; Enantia S.L.; Microfluidic ChipShop GmbH; Minifab; Microliquid

News

Josep Samitier, director del Instituto de Bioingeniería de Cataluña y presidente de la ACER, habla en diversos medios sobre la falta de inversión pública en investigación.

Ene 7, 2021

Josep Samitier «Un país que invierte en ciencia tendrá más oportunidades de bienestar»

Josep Samitier, director del Instituto de Bioingeniería de Cataluña y presidente de la ACER, habla en diversos medios sobre la falta de inversión pública en investigación.

El evento de Bioingeniería y Medtech contra el Cáncer organizado por el IBEC y Medicen Paris Region reunió más de 400 participantes, expertos de Medtech y Biotech que luchan contra el cáncer.

Dic 21, 2020

El evento de “Bioingeniería contra el cáncer” reúne a 400 expertos internacionales

El evento de Bioingeniería y Medtech contra el Cáncer organizado por el IBEC y Medicen Paris Region reunió más de 400 participantes, expertos de Medtech y Biotech que luchan contra el cáncer.

L’Institut de Bioenginyeria de Catalunya (IBEC) va organitzar del 27 al 28 d’octubre el seu 13è Simposi. L’esdeveniment, que aquest any va tenir lloc per primera vegada en línia, es va centrar en la Bioenginyeria per a la Medicina del Futur i de Precisió. Amb més de 400 assistents inscrits, 18 flash presentations i 106 pòsters, l’esdeveniment també va comptar amb les contribucions de ponents internacionals de primer nivell com Robert Langer del MIT, Ada Cavalcanti de la Universitat de Heidelberg o Raquel Yotti, directora de l’Institut de Salut Carlos III , entre altres.