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
Assessment of the chemical stability and maintenance of the physico-mechanical properties of the scaffolds
Biodistribution analysis
Biologic evaluation of scaffoldswith 3D cultures in dynamic regime in bioreactor
Carbon-based materials (graphene oxides, TPG, etc.)
Ceramic materials (oxides, nitrides, carbides, etc.)
Ceramic matrix composites and nanocomposites
Ceramics or ibrid implantable formulations for controlled release of drugs
Chemico-physical-morphological-ultrastructural and thermo-mechanical characterization of the scaffolds
Clinical trials for scaffold validation
Conventional and controlled release oral dosage forms
Corrosion: protection and inhibition
Cosmetics
Deposition of thin films and coatings
Dermatopharmacokinetics (in vivo accumulation) of transdermal drug delivery systems
Design and development of nanofibrous scaffolds mimicking the extracellular matrix
Design and development of scaffolds for organ regeneration
Design and development of scaffolds for regeneration of hard tissues and ligaments
Design and development of scaffolds for soft tissue regeneration
Design of protocols for clinical evaluation
Design of protocols for pre-clinical evaluation (in vitro and in vivo)
Design, scale-up end industrial production
Development of sinterable polymeric particles
Elastomers
Filling of the Common Tecnical Document (CTD) relative to the Quality part
Formulation for inhalation
Glass and glass-ceramic materials
Ibtrid implantable formulation stimuli responsive
In vitro deposition and drug release and stability of inhalatory formulations
In vitro drug release of nanoparticles and complex scaffolds
In vitro evaluation of the cell response to drug delivery systems
In vitro mechanical characterization of scaffolds
In vitro mechanical characterization of scaffolds
In vitro permeation od transdermal drug delivery systems
Injectable formulations based on magnetical, biocompatible and bioresorbable nanoparticles for remote activation on demand
Magnetic materials both bulk and nano
Magnetorheological fluids
Materials of natural origin and derived (wood, paper, cellulose, fibers, etc.)
Materials with self-diagnostic and self-healing properties
Mechanical evaluation (elasticity; adhesion in vitro/in vivo) of transdermal drug delivery systems
Metal matrix composites and nanocomposites