i2S’s scientific, software, technical and regulatory skills in the fields of optronics and imaging allow us to meet the most complex challenges of our customers.
Benefiting from an ecosystem entirely dedicated to images, and recognized know-how in image capture and processing, we activate our project “incubator” for you. We invite you to benefit from our personalized offer of technological bricks, in particular on 3D imaging, learning by Artificial Intelligence and our “Photon to Cloud” approach.
Customer
Condor and Biotech Dental (dentistry players)
Application areas
Dental
Project
Design of the 3D micro-scanner for dental digitization • Mass production of the imaging equipment
Made work
WOW dental probe
Customer problem
Our client wanted to be able to take a very high resolution 3D impression, in real time and without contact.
Our realization and its characteristics
We have developed highly integrable tailor-made electronics and optics in a volume comparable to a toothbrush from a software solution provided by our partner.
The probe performs a dental diagnosis and directly transmits digital files for the manufacture of prostheses without the need for molding.
We manufacture in series, from our own assembly site, this integrated and miniaturized imaging system equipped with a double sensor and LED lighting for health and well-being applications.
The advantages of our solution
This technology can be adapted to model in 3D, visualize and measure small objects or hard-to-reach cavities.
Customer
BIO-RAD (microbiology laboratory equipment supplier)
Application areas
Microbiology
Project
Design of the biomedical imaging device • Mass production of the equipment
Made work
ADAGIO antibiotic test reader
Customer problem
Our customer wanted to have a reliable, repetitive measuring device with which the biologist keeps control to validate, adjust or correct the result provided by the machine.
Our realization and its characteristics
We have designed an automatic antibiogram on Petri dishes of very varied appearance (dish shapes, number of disks, agars, bacteria, etc.). This integrated imaging system is able to measure the size of the zone of inhibition around an antibiotic disc. This automated measurement by real-time imaging is possible thanks to the presence of multiple cameras and lighting manufactured from our own assembly site.
The advantages of our solution
Customer
Product developed by i2S
Application areas
Anatomopathology, Biology, Screening test, Embryology, Bioproduction control, …
Project
Design of custom-made microscopes for cell analysis • Manufacture of the ATLIS™ Modulo microscope, a true development platform.
Made work
Modular digital microscope – ATLIS™ Modulo
Project problem
We wanted to create miniaturized imaging systems providing high quality images to help the biologist or pathologist in their diagnosis.
The realization and its characteristics
A platform to help you develop your microscope.
Our team of engineers has designed an integrated and miniaturized, innovative, easily integrated imaging system with very high image quality for diagnostic assistance.
This OEM digital microscopy platform accelerates your integrated vision projects. This system can be integrated as a sub-assembly in a medical device for automated measurement by real-time imaging and allows to take an image on several planes of space. It can also be used as a starting point for the development of a benchtop microscope or an ultra-customized optical module. Equipped with a custom camera and lighting, this technology is customizable: LEDs, fluorescence, infrared, etc.
ATLIS™ Modulo Features
The ATLIS™ Modulo is an OEM microscope dedicated to the application. Each of its characteristics can be adjusted according to the needs of the client’s imaging project.
Benefits of our solution
Operated by Irisolution
Customer
Product developed by i2S
Application areas
Embryology
Project
Design and Manufacture of the ATLIS for embryos™ and its associated software
Made work
Time-lapse incubator for monitoring embryonic development in an in vitro fertilization procedure
Project problem
Time-lapse incubators are widely used in embryology to aid assisted reproduction procedures. These systems are expensive and bulky.
We wanted to make this technology accessible with unprecedented image quality for better diagnosis.
Our realization and its characteristics
We have developed a time-lapse micro-automaton containing an incubator for maintaining embryo development conditions and monitoring their evolution. This solution was designed to accommodate 4 patients/machine, 16 embryos/patient, all with perfect identification and traceability.
The advantages of our solution
Customer
Product developed by i2S
Application areas
Dermatology, Cosmetics, Biomedical, Anti-counterfeiting, Industrial control
Project
Design and Manufacture of FLUOSENSE
Made work
Fluorescence imaging solution for non-microscopic applications
Project problem
Fluorescence imaging is widely used in the microscopy sector to reveal very useful information on living cells (viruses, bacteria, etc.).
These systems are expensive and not portable. We wanted to make it possible to observe by fluorescence on non-microscopic objects.
Our realization and its characteristics
We have developed an integrated and miniaturized imaging system for non-microscopic objects. This new 1.2MP CMOS camera dedicated to fluorescence imaging features built-in LED illumination including different wavelengths, 40mm x 60mm scene size, 1.2 million pixels and USB 3.0 interface. This solution was designed to be portable and easy to implement. We mass-produce this camera for health and wellness applications from our own assembly site.
The advantages of our solution
This technology can be adapted to other applications.
Customer
DIAGAST France (supplier of the French Blood Establishment and other establishments, laboratories worldwide)
Application areas
Immunohematology
Project
Design and mass production of the SMART READER
Made work
Embeddable SMART READER microplate reader for antibody screening, grouping and phenotyping
Project problem
Our client wanted to perform grouping, phenotyping, search for irregular antibodies and classify according to shape and texture. The product had to integrate a 96-well plate and barcode reading.
Our realization and its characteristics
This realization is based on the principle of magnetization of the red blood cells which are attracted to the bottom of the well of the microplate. To meet the customer’s needs, our design office has designed a reliable and repetitive measuring device on which the biologist keeps control to validate, adjust or correct the result provided by the machine. In addition, the integrated imaging system features a custom camera and backlight providing automated real-time imaging measurement. This imaging sub-assembly is mass-produced in our factory.
The advantages of our solution
Customer
Treefrog Therapeutics (Cell Therapy Biotech Company)
Application areas
Bioproduction
Project
Design of the benchtop microscope dedicated to image capture • Specific image analysis algorithms to qualify production • Mass production of the device
Made work
Benchtop microscope for offline quality control of stem cell production
Customer problem
Our client wanted to have an easy, fast and reproducible off-line image acquisition and analysis system in order to characterize and control the capsules and/or stem cells produced by an operator.
Our realization and its characteristics
We have designed a benchtop microscope allowing off-line imaging of stem cell culture dishes on a routine basis. This imaging system contains custom image processing algorithms allowing real-time analysis of various statistics to monitor cell development.
The advantages of our solution
Customer
Poietis (Biotech company specializing in 3D printing of biological tissues)
Application areas
Bioproduction, bioprinting
Project
Design and Manufacture of a microscope module
Made work
Microscopy module for quality control of bioprinted human tissues
Customer problem
Our client wanted to have a microscopy module integrated into its bio-printing automaton to perform quality control of bio-printed tissues, with better image quality and greater depth of field than the existing solution.
Our realization and its characteristics
We have developed a microscopy module composed of a camera/lighting assembly allowing a wide-field view of the entire box containing the bio-printed tissues.
The advantages of our solution