Medical & health - Biomedical
Through the development of laser sources for medical devices, ultrafast laser processes or optical and photonic systems, ALPhANOV supports you in your projects and responds to your requirements in the health, medical and biomedical fields.
Here, you can find the services and products that ALPhANOV develops for the health, medical and biomedical fields. For many years, we have been supporting you in your projects and respond to your requirements by:
A technology platform dedicated to the health sector
A training centre for workers in the medical field
La certification qualité a été délivrée au titre de la catégorie d'actions suivante : ACTIONS DE FORMATION
An eco-system of industrialists specialised in the health sector
Linked collaborative projects
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LAMIPoC - Mass production of microfluidic devices
Analyzing the potential of ultra-fast (femtosecond) laser technology for the mass production of microfluidic devices.
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ExoFlow - Characterizing exosomes in real time
Designing and manufacturing an innovative biomedical instrument for real time characterizing of biological nano-objects such as exosomes or viruses.
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SAPHIRE – A device for online optical inspection
Improving the production quality and efficiency of pharmaceutical tablets and capsules by developing an innovative, multimodal and fully integrated in-line optical inspection device.
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CRYST^3 - Prototype of a new material based on individual alkali atoms
Developing a new fully-fiber prototype, based on the trapping and cooling of cold atoms in a hollow core fiber.
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XPulse - Innovative laser-generated X-ray medical imaging system
Developing a phase contrast mammography system based on x-ray source generated by laser and dedicated to the early detection of breast cancer.
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SLALLOM - Holographic microscope
To develop a holographic microscope for all-optical brain studies with a single laser source.
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Atlantic-Ket-Med - Accompaniment of the biomedical sector
To establish a transnational advanced pilot manufacturing ecosystem for future biomedical products.
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PARACETAMOL - Picosecond laser source
To develop a protocol to remove tattoos by laser. In comparison with current tattoo removal techniques, this protocol will allow to remove colored tattoos with a reduction of pain and without side effects.
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PharmaSense - Manufacturing processes of medicines
(2015 - 2018)
Improve the manufacturing processes of medicines to meet the future costs, availability and safety challenges of medicines produces around the world.Learn more -
BONEPRINTING - Laser assisted bioimpression
(2011- 2015)
Laser assisted bioimpression for in vivo bone tissue engineering in mice.Learn more -
Blue laser - Development of blue fiber lasers
(2008 - 2012)
To develop a new family of high-power blue fiber lasers.Learn more
Publications
- Vascularization of Cell-Laden Microfibres by Femtosecond Laser Processing, I. Verit, L. Gemini, J. Preterre, P. Pfirmann, H. Bakis, J-C. Fricain, R. Kling, C. Rigothier
- Ablation of Bone Tissue by Femtosecond Laser: A Path to High-Resolution Bone Surgery, L. Gemini, S. Al-Bourgol, G. Machinet, A. Bakkali, M. Faucon, R. Kling
- Ablation of Bone Tissue by Femtosecond Laser: A Path to High-Resolution Bone Surgery - L. Gemini, S. Al-Bourgol , G. Machinet , A. Bakkali , M. Faucon, R. Kling
- Intra-volume processing of gelatine hydrogel by femtosecond laser-induced cavitation, I. Verit, L. Gemini, J.-C. Fricain, R. Kling & C. Rigothier
- Nonlinear imaging using a 35 fs 3.5 nJ all-PM fiber laser frequency doubled at 800 nm, C.-H. Hage, S. Boivinet, S. Vidal, G. Machinet, J. Boullet
- Prism-assembly for dual-band short-wave infrared region line-scan camera, B. Chassagne; L. de Laulanié; M. Pommiès
- Biofabrication of a vascular capillary by ultra-short laser pulses, I. Verit, C. Rigothier, L. Gemini, J. Preterre, C. Javaux-Leger; J.-C. Fricain, R. Kling
