The Biosensors for bioengineering group is a junior group under IBEC’s Tenure Track scheme.
Javier Ramón Azcón | Group Leader / ICREA Research Professor
Francesco De Chiara | Postdoctoral Researcher
Juanma Fernandez Costa | Postdoctoral Researcher
Maria Alejandra Ortega Machuca | Postdoctoral Researcher
Júlia Rodríguez Comas | Postdoctoral Researcher
Laura Clua Ferré | PhD Student
Xiomara Gislen Fernández Garibay | PhD Student
Sheeza Mughal | Research Assistant
Nerea Castro Aguirre | Masters Student
Eduard Martin Lasierra | Masters Student
Alice Senni | Masters Student
Ainoa Tejedera Villafranca | Masters Student
Ainhoa Ferret Miñana | Laboratory Assistant
Rodrigo Alvarez Velasco | Visiting Researcher
Our research is focused on multi tissues organs-on-a-chip (OOC) and more specifically in the metabolic crosstalk within tissues and their relationship with metabolic diseases. Our projects are focused on four key tissues regulating glucose homeostasis, namely, the pancreas, liver, skeletal muscle, and adipose tissue. To achieve this objective, it is necessary a combined interdisciplinary approach:
-Biomaterials and tissue engineering research
1) We have several lines of research related with skeletal muscle. Our first approach was with C2C12 mice cell line. We evaluated the influence of mechanical stiffness and geometrical confinement on the 3D culture of myoblast-laden chemically modified gelatin photo-cross linkable composite hydrogels in terms of in vitro myogenesis.
2) Encapsulation of beta-cells like from human skin fibroblast (collaboration with IDIBAPS). This work addresses two critical issues in the design of an efficient beta-cell replacement therapy: an accessible cell source for generation of substitute beta-cells and an adequate delivery device for transplantation. On one hand, we propose to generate transplantable functional insulin-producing beta-cells from fibroblasts through direct reprogramming strategies that bypass the pluripotent iPS stage. On a second objective, we are working in a new system of encapsulating beta-cells like in two steps, microencapsulation to protect cells from immune system and microencapsulation to mechanically protect them and manipulate them.
3) We are developing three-dimensional micro liver models using various biomaterials to recreate the in vivo-like mechanical properties and using hepatocytes and stellate cells. We are collaborating with Grifols company to test some drugs in our model.
4) We have a collaboration project with NovoNordisk to work in new approaches to encapsulate retinal cells.
1) Integrating biosensors in an organ-on-a-chip. We are studying with in situ electrochemical biosensors the release of insulin under the effect of external stimuli, changes in glucose levels and myokines secreted by skeletal muscle (multi-OOC approach).
2) Related with this project we are implementing new biosensors systems. To fully exploit the potential of the organs-on-a-chip, there is a need to interface them to integrated sensing modules, capable to monitor in real-time their biochemical response to external stimuli, like stress or drugs. The goal of this project is to answer this need, by developing a novel technology based on integrating localized surface plasmon resonance (LSPR) sensing module to organs-on-a-chip devices to monitor disease and evaluate drug response in organs-on-a-chip models.
3) Myotonic dystrophy type 1 (DM1) (collaboration with Hospital de la Fe and INCLIVA, Valencia, Spain). We have developed human skeletal muscle micro physiological tissues using micro molding technology and we have integrated them with amperometric biosensors to study the inflammatory process related with electrical and chemical stimuli. We have used transdifferentiated skin fibroblast human cells from DM1 patients and healthy human. Using this platform, we have started to evaluate different treatments, to screen drugs and to evaluate doses.
4) NMR integrated with OOC. The objective of this project is to develop a new technology based on magnetic resonance spectroscopy and imaging using dynamic nuclear polarisation (DNP-MR) integrated with OOC devices to monitor disease and evaluate drug response in OOC models. As a proof-of-concept, this project will fabricate a biomimetic multi OOC integrated device composed of liver spheroids and pancreatic islets and develop the necessary DNP-MR hardware and software to study metabolic diseases and for future drug screening applications. We are working in collaboration with Oxford instrument and Multiwave companies.
|DAMOC · ‘Diabetes Approach by Multi-Organ-on-a-Chip’ (2017-2021)||ERC||Javier Ramón|
|BLOC · Benchtop NMR for Lab-on-Chip (2020-2022)||European Comission FET-Open||Javier Ramón|
|INDUCT · Fabrication of a biomimetic in vitro model of the intestinal tube muscle wall: smooth muscle-on-a-chip (2018-2020)||MINECO||Javier Ramón|
Privately funded projects
|Tatami · Therapeutic targeting of MBNL microRNAs as innovative treatments for myotonic dystrophy||Fundació bancaria “La Caixa”||Javier Ramón|
Fernández-Costa, J. M., Fernández-Garibay, X., Velasco-Mallorquí, F., Ramón-Azcón, J., (2021). Bioengineered in vitro skeletal muscles as new tools for muscular dystrophies preclinical studies Journal of Tissue Engineering 12, 1-19
Gómez-Domínguez, D., Epifano, C., Miguel, F., Castaño, A. G., Vilaplana-Martí, B., Martín, A., Amarilla-Quintana, S., Bertrand, A. T., Bonne, G., Ramón-Azcón, J., Rodríguez-Milla, M. A., Pérez de Castro, I., (2020). Consequences of Lmna exon 4 mutations in myoblast function Cells 9, (5), 1286
Lopez-Muñoz, Gerardo A., Ortega, Maria Alejandra, Ferret-Miñana, Ainhoa, De Chiara, Francesco, Ramón-Azcón, Javier, (2020). Direct and label-free monitoring of albumin in 2D fatty liver disease model using plasmonic nanogratings Nanomaterials 10, (12), 2520
Velasco, Ferran, Fernandez-Costa, Juan M., Neves, Luisa, Ramon-Azcon, Javier, (2020). New volumetric CNT-doped Gelatin-Cellulose scaffold for skeletal muscle tissue engineering Nanoscale Advances 2, (7), 2885-2896
Hernández-Albors, Alejandro, Castaño, Albert G., Fernández-Garibay, Xiomara, Ortega, María Alejandra, Balaguer, Jordina, Ramón-Azcón, Javier, (2019). Microphysiological sensing platform for an in-situ detection of tissue-secreted cytokines Biosensors and Bioelectronics: X 2, 100025
Ortega, María A., Fernández-Garibay, Xiomara, Castaño, Albert G., De Chiara, Francesco, Hernández-Albors, Alejandro, Balaguer-Trias, Jordina, Ramón-Azcón, Javier, (2019). Muscle-on-a-chip with an on-site multiplexed biosensing system for in situ monitoring of secreted IL-6 and TNF-α Lab on a Chip 19, 2568-2580
De Chiara, F., Checcllo, C. U., Ramón-Azcón, J., (2019). High protein diet and metabolic plasticity in non-alcoholic fatty liver disease: Myths and truths Nutrients 11, (12), 2985
de Goede, M., Dijkstra, M., Obregón, R., Ramón-Azcón, J., Martínez, Elena, Padilla, L., Mitjans, F., Garcia-Blanco, S. M., (2019). Al2O3 microring resonators for the detection of a cancer biomarker in undiluted urine Optics Express 27, (13), 18508-18521
García-Lizarribar, Andrea, Fernández-Garibay, Xiomara, Velasco-Mallorquí, Ferran, Castaño, Albert G., Samitier, Josep, Ramon-Azcon, Javier, (2018). Composite biomaterials as long-lasting scaffolds for 3D bioprinting of highly aligned muscle tissue Macromolecular Bioscience 18, (10), 1800167
Ino, Kosuke, Nashimoto, Yuji, Taira, Noriko, Ramón-Azcon, Javier, Shiku, Hitoshi, (2018). Intracellular electrochemical sensing Electroanalysis 30, (10), 2195-2209
de Goede, M., Chang, L., Dijkstra, M., Obregón, R., Ramón-Azcon, J., Martínez, Elena, Padilla, L., Adan, J., Mitjans, F., García-Blanco, S.M., (2018). Al2O3 Microresonator based passive and active biosensors ICTON 2018 20th International Conference on Transparent Optical Networks , IEEE Computer Society (Bucharest, Romania) , 8473820
de Goede, M., Chang, L., Dijkstra, M., Obregón, R., Ramón-Azcon, J., Martínez, Elena, Padilla, L., Adan, J., Mitjans, F., García-Blanco, S.M., (2018). Al2O3 Mmicroresonators for passive and active sensing applications Sensors 2018 Optical Sensors , OSA - The Optical Society (Zurich, Switzerland) Part F110, 1-2
Mohammadi, M. H., Obregón, R., Ahadian, S., Ramón-Azcón, J., Radisic, M., (2017). Engineered muscle tissues for disease modeling and drug screening applications Current Pharmaceutical Design , 23, (20), 2991-3004
Obregón, R., Ramón-Azcón, J., Ahadian, S., (2017). Nanofiber composites in blood vessel tissue engineering Nanofiber Composites for Biomedical Applications (ed. Ramalingam, M., Ramakrishna, S.), Elsevier (Duxford, UK) Woodhead Publishing Series in Biomaterials, 483-506
(See full publication list in ORCID)
Micro and nanofabrication techniques:
- 3D microstructures on hydrogel materials
- Mini-bioreactor for 3D cell culture
- Microelectrodes fabrication
- Synthesis and chemical modification of polymers and surfaces
- Dielectrophoretic cells and micro particles manipulation
- Optical Microscopes (white light/epifluorescence)
- Electrochemical techniques (Potentiometric/Amperometric/Impedance spectroscopy)
- Immunosensing techniques (Fluorescence ELISA/Colorimetric ELISA/magneto ELISA)
- Microfluidic systems (High precision syringe pumps/Peristaltic pumps/Micro valves)
- Biological safety cabinet (class II)
- Epifluorescence microscope for live-cell imaging
- Pulsar – a high-resolution, 60MHz benchtop NMR spectrometer from Oxford Instruments
Access to the Nanotechnology Platform (IBEC Core Facilities): equipment for hot embossing lithography, polymer processing and photolithography, chemical wet etching, e-beam evaporation and surface characterization (TOF-SIMS)
Access to the Scientific and Technological Centers (University of Barcelona): equipment for surface analysis (XPS, AFM, XRD), organic structures characterization (NMR) and microscopy techniques (SEM, TEM, confocal)
- Prof. Josep Samitier
- Dr. Elena Martinez
- Dr. Anna Novials
Institut d’Investigacions Biomediques August Pi i Sunyer (IDIBAPS)
- Dr. Ramon Gomís
Institut d’Investigacions Biomediques August Pi i Sunyer (IDIBAPS)
- Dr. Eduard Montanya
The Bellvitge Biomedical Research Institute (IDIBELL)
- Prof. Enric Bertran
Physics and Engineering of Amorphous Materials and Nanostructures (FEMAN), Department of Applied Physics, University of Barcelona
- Dr. Montserrat Costa
2020, Director Plasma Proteins Research, Bioscience Industrial Group, Grifols, Barcelona Spain, Collaborative project
- Tryfon Antonakakis
2019, Co-Founder & CEO Multiwave Technologies AG 3 Chemin du Pré Fleuri 1228, Geneva Switzerland, FET-open project
- Robert Hardy
2019, Project Manager Oxford Instruments plc Abingdon, Oxfordshire, England, FET-open project
- Dr. Carlos Villaescusa
2018, Principal Scientist/Specialist, Project Leader, Department of Stem Cell Discovery, Novo Nordisk Denmark, Collaborative project
- Project “TATAMI” funded by Fundación Bancaria “La Caixa” – CaixaHealth program. In this project, we are developing a platform to perform drug screening analysis in human engineered microtissues in close collaboration with Professor Ruben Artero from Instituto de Investigaciones Clínicas de Valencia (INCLIVA) and medical doctor Vilchez from Hospital de la Fe (Valencia)
- We are also collaborating with Hospital de Sant Pau (Barcelona), with the group of senior professor Isabel Illa Sendra we are developing human microtissues to study the myasthenia gravis neuromuscular rare disease.
- In a Smart Specialization Project (RIS3CAT, ADVANCECAT project), I am working with senior professor Eduard Montanya from Hospital de Bellvitge (Barcelona) to develop transplantable patches of human pancreatic islets.
- Finally, we are collaborating with Doctor Jesus Castro from Hospital de la Vall de Hebron (Barcelona) to study chronic fatigue.
The Biosensors for bioengineering group led by Javier Ramón has developed a sensing platform for the in-situ detection of tissue-secreted pro-inflammatory molecules, the so-called cytokines. This new methodology opens a new door in the understanding of metabolic-disorders such those found in muscular diseases, as well as the development of drug-screening applications.
Although 40% of total body mass is skeletal muscle tissue, there is no specialized clinical doctor for the treatment of muscular diseases, according to the American Medical Association. The research group of Dr. Javier Ramón at IBEC works to fill this gap between muscle disorders and ad hoc therapies.
This weekend Javier Ramon’s European Research Council-funded project, DAMOC, was one of eight highlighted in a special exhibition in Madrid to mark the ERC’s tenth anniversary.
Alcobendas’ Museo Nacional de Ciencia y Tecnología (MUNCYT) displayed the most “outstanding” projects led by researchers in Spain as part of a full weekend of activities to celebrate the first decade of the prestigious funding body, which was launched in 2007 by the European Union and has funded nearly 7,000 researchers, among them six Nobel Prize winners.
IBEC’s Dr. Javier Ramón is one of just six researchers in Catalonia to have been awarded a 2016 Starting Grant by the European Research Council (ERC).
The senior researcher in the Biomimetic Systems for Cell Engineering group won funding for his project ‘Diabetes Approach by Multi-Organ-on-a-Chip’ (DAMOC) from Europe’s most prestigious funding body.
With the support, which will last for up to five years, Javier will start a new line to design a innovative new tool to test drugs for diabetes. As well as improving drug testing approaches, the multi-organ-on-a-chip device will provide new therapies to prevent the loss of beta cell mass and defects in the glucose uptake in skeletal muscle associated with type 2 diabetes.
“This project will give me the opportunity to have a multidisciplinary group of researchers working together from the beginning in a synchronized way, the most rewarding experience that a researcher can have,” he says.