Database providing access to the High Technology Network's industrial research offering: research competences, type of analyses and tests available at the Laboratories. Companies can consult the Catalogue to find Laboratories and researchers that match their needs.
Competence
Acquisition and pre-processing of signals for model identification
Advanced Therapy Design (epithelial cells)
Advanced Therapy Design (fat cells)
Advanced Therapy Design (nervous cells)
Advanced Therapy Design (skeletal muscle cells)
Analysis by means of molecular biology as well as biochemical, immunoenzymatic, histologic, immunohistochemical, biomechanical, radiographic
Assessment of the requirements by clinical experts
Continuous-time and discrete-time mathematical modeling of systems and processes
Data analysis on 2D,3D and 4D histomorphometric data
Discrete events mathematical modeling of systems and processes
Evaluation of the bio-safety of medical devices in vitro
Extensive cellular manipulation
Finite element simulation (FEM)
Formal languages for systems modeling (Unified Modeling Language-UML and SysML-System Modeling Language)
GMP manufacturing (epithelial cells)
GMP manufacturing (fat cells)
GMP manufacturing (skeletal muscle cells)
GMP process and product validation (epithelial cells)
GMP process and product validation (fat cells)
GMP process and product validation (skeletal muscle cells)
GMP-compliant process development (epithelial cells)
GMP-compliant process development (fat cells)
GMP-compliant process development (skeletal muscle cells)
Identification of models and parameters estimation
In vitro and in vivo pre-clinical validation (cardiac cells)
In vitro and in vivo pre-clinical validation (epithelial cells)
In vitro and in vivo pre-clinical validation (fat cells)
In vitro and in vivo pre-clinical validation (nervous cells)
In vitro and in vivo pre-clinical validation (skeletal muscle cells)
In vivo functional characterization of the device
Infinite-dimensional mathematical modeling of systems
Isolation, target carachterisation (fat cells)
Isolation, target carachterisation (nervous cells)
Isolation, target carachterisation (skeletal muscle cells)
Microscopic/nanoscopic/nanomechanical, mechanical and in vitro functional characterization of the device
Modeling of the collision of bodies in mechanical systems
Non-parametric modeling (neural networks, etc.)
Numerical design of devices
Preclinical evaluation of devices by numerical simulations
Scaffold or substrate identification (cardiac cells)