SI-Lab projects
Le premier projet que nous portons est celui du SI-Lab, né pour répondre aux défis uniques de la chirurgie pédiatrique, il a créé un écosystème dédié où les idées se transforment en solutions concrètes. En fédérant chirurgiens, ingénieurs, chercheurs et industriels, il brise les silos et accélère la collaboration.
Soutenir le SI-Lab, c’est intégrer un réseau vivant qui offre expertises, formations et visibilité, tout en contribuant à l’expansion de tous les projets qu’il porte.
Cette catégorie présente les initiatives accompagnées par le SI-Lab, des innovations technologiques aux partenariats stratégiques, toutes unies par une même ambition : réinventer la chirurgie pédiatrique ensemble.
Digital Logbook
This project aims to create an application dedicated to the training of pediatric surgeons, combining technological innovation with tailored pedagogy. Accessible on smartphones and PCs, it offers a personal space where each resident can track their progress, consult multimedia resources (technical sheets, expert videos, quizzes), and record their procedures using an integrated logbook. Coordinators benefit from advanced assessment tools, allowing them to adjust training programs to individual needs. Thanks to the integration of artificial intelligence, it provides personalized assessments and recommendations to optimize learning. This project, led by the SI-Lab, aims to strengthen excellence in pediatric surgery by making training more interactive, accessible, and effective.
Project led by Professor Jean Breaud
CHIRBABY
Newborn surgery presents a unique challenge, where every minute counts and precision is crucial. CHIRBABY is an innovative project that uses data and artificial intelligence to optimize the care of these fragile patients. By integrating intelligent planning tools and predictive algorithms, CHIRBABY will enable medical teams to anticipate resource needs, reduce delays, and improve coordination among the various stakeholders.
The result? Safer, faster, and better-organized procedures, to provide patients with the best possible care. This project is aimed at surgeons and operating room nurses, and seeks to make every procedure a success.
Project led by Dr. Frédéric Hameury
DIAPID
Children are not miniature adults, and their medical needs require specific solutions. DIAPID addresses this challenge by developing innovative medical devices specifically designed for pediatrics. Using cutting-edge technologies such as electrospinning and 3D printing, this project enables the creation of customized, safe, and effective devices that meet the unique needs of young patients. By collaborating with research laboratories, manufacturers, and clinicians, DIAPID ensures that each solution is both innovative and practical.
The goal? To make high-quality medical devices, designed for them and by experts, accessible to all children.
Project led by Dr. Isabelle Talon
ROMAXKID
Pediatric robotic surgery is a rapidly expanding field, but it requires specific training for healthcare teams. MAX is a digital solution designed to support operating room nurses in learning these new techniques. Through various interactive modules, MAX covers all the procedures and protocols related to robotic surgery, while also offering assessments to measure the real impact on skills, stress levels, and operating times. Accessible at any time, this platform allows for flexible learning adapted to the constraints of healthcare professionals. With MAX, operating room nurses are better prepared, more confident, and more efficient, ensuring optimal care for young patients.
Project led by Dr. Sarah Abdellaoui
