Biotechnology
Biotechnology is the set of disciplines or sciences that aims to study living things or parts of living things in order to obtain goods and services. His area of study is in biology, biochemistry and chemical engineering. It has a major impact on pharmacy, medicine, microbiology, food science and agriculture.
These are the services that our research groups can develop. For customized information on the services, please contact us.
Areas of service | Applications of the service | Scientific infrastructure |
Characterisation and models of biological material | GRABI Materials Laboratory | |
Electromagnetic compatibility | Electromagnetic compatibility tests and advice on electronic design | Electromagnetic Compatibility Laboratory |
Computer simulations | AI-based predictive models in the health area | |
Analysis of big data in healthcare / data mining | B2lab | |
Real-time dashboards | B2lab | |
Machine learning | Development of machine learning techniques to detect types of cancer and predict relapses | |
Bioinformatics | Algorithms for genome sequencing | |
Analysis in bioinformatics (metabolomic, transcriptomic) | B2lab | |
Biomedical signal analysis | B2lab | |
Human motion capture and analysis. Instrumental analysis of normal and pathological gait. | Physical rehabilitation, motor neurorehabilitation, orthopedics, traumatology, injury prevention, sports performance, ergonomics. | BIOMEC. Movement Analysis Laboratory |
Development of smart websites | Integrated websites with components of advanced data visualisation and integration of AI models | B2lab |
Parts manufacture | Dimensional verification of form errors and the surface roughness of parts | LCEM, 3D printing laboratory |
Custom 3D printing of plastic parts using fused filament fabrication (FFF) | LCEM, 3D printing laboratory | |
Obtaining parts by filing removal (machining) | LCEM. 3D printing laboratory | |
Design and manufacture of printing systems in the biothecnology field | 3D printing of surgical models. Bioprinting with DIW technology. 3D printing with technical silicones. 3D printing of metals. | CIM biotecnology laboratory |
Microbiological corrosion | Detection of corrosion in metal implants | Corrosion laboratory |
Biocompatibility |
Microbiological studies of the antimicrobial properties if polymeric materials. Biocompatibility studies of polymeric materials with cells (in vitro) and with dead tissues (ex-vivo) |
Laboratory of cell coltures and biological characterization |
Healthtech, health, biotechnology, Characterization of human biological material, electromagnetic compatibility, electromagnetism, anechoic chamber, radiation, electronics, electronic devices, computer simulations, deep reinforment learning, IoT protocol optimization, network selection, 5G, 6G, bioinformatics, genome sequencing , cancer detection, Biomechanics, Human motion analysis, Simulation, Gait analysis, Biomechanics, Human movement analysis, Simulation, Gait analysis, AI prediction models, data mining, big data, dashboards, advanced data visualization, healthech, bioinformatics, biomedical signals, Machining, milling, turning, grinding, burnishing. Metrology, dimensional verification, shape errors, roughness, 3D printing, die casting (FDM) modeling, cast filament fabrication (FFF), stereolithography (SL), 3D printing, bioprinting, direct ink writting, silicone.
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