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Advanced analysis laboratory
for biomedical engineering

We use the most advanced measurement and analysis techniques to develop materials for demanding biomedical engineering applications.

3D-4D visualisation, dimensional or in situ control of syringes, catheters, implants, prostheses, bandages, and other passive or active medical devices: all this is possible with our non-destructive analysis methods.

Integrate experimental data from advanced methodologies into your innovation, product or process development, or intellectual property expertise processes. And consolidate your position!

blue gloved hand holding a catheter

Optimise your materials through knowledge of microstructure

  • 4D visualisation and characterisation of the microstructure of new materials studied under tension/compression
  • Mapping of minerals and metals in biocompatible materials
  • Characterisation of the supramolecular structure of polymers: permeability, aging, etc.
  • Non-destructive 3D visualisation of complex devices, technical fabrics, bandages, etc.
  • Identification and mapping of trace chemical elements in biomaterials, polymers, ceramics, or composites
Contact us!

Control finished products: manufacturing process, intellectual property, quality

  • 3D-4D visualisation of objects and dimensional or functional checks under operational conditions
  • Integrity and dimensions of needles, implants, prostheses
  • Porosity, cracks, delamination, leaks in medical materials or devices under operational conditions
  • Integrity of packaging or seals
Contact us!

Digital twins, in-operando testing, and materials studies for medical devices

  • Dimensions, integrity, and quality with 3D visuals: bandages, implants, transdermal patches, syringes, dressings
  • In situ study of the morphological evolution of implants for sustained-release drugs
  • Material and dimensional health of orthopedic implants
  • Digital twins of medical devices and comparison with CAD
  • Complete 3D monitoring of the deployment or operation of a medical device
Contact us!

They trust us

University of Washington

Université du Littoral Côte d’Opale

BD

Browse some articles about device and material characterization

Tracking the evolution of materials microstructure : in situ mechanical testing with Novi CT Rig

Tracking the evolution of materials microstructure : in situ mechanical testing with Novi CT Rig

Why perform microCT during tensile/compression tests? The use of…

More
Comparison of the scanned full volume of a part with its CAD model

Comparison of the scanned full volume of a part with its CAD model

High-resolution, high-energy X-ray tomography provides non-destructive access to the…

More
Tracking the evolution of materials microstructure : in situ mechanical testing with Novi CT Rig

Tracking the evolution of materials microstructure : in situ mechanical testing with Novi CT Rig

Why perform microCT during tensile/compression tests? The use of…

More
Comparison of the scanned full volume of a part with its CAD model

Comparison of the scanned full volume of a part with its CAD model

High-resolution, high-energy X-ray tomography provides non-destructive access to the…

More
All articles

Measurement, analysis and testing services for medical devices

Contrôle non-destructif avancé

Comparaison CAO

Analyse 3D de porosités

Caractérisation 3D de fissures

Tomographie in situ

Analyse des métaux et alliages

Accompagnement et partenariat R&D

Formation en tomographie

NOVITOM: your partner for materials R&D and in-situ medical device testing

Expertise

A multidisciplinary team of experts in the analytical techniques used by scientists

Innovation

Original and reliable analytical approaches for product and process development

Accompagnement

Unique knowledge and expertise in analytical sciences and 2D-3D-4D imaging

Contact-us!