GE Healthcare

From the early start, I took a leading role in the Common User Interface project, improving the quality of the synthesizer and dispenser reports by introducing more detailed and high-quality graphical representations. I modernized the user interface by migrating from WinForms to a vector-based WPF architecture, significantly enhancing usability and maintainability. In parallel, I led the development of the electro-mechanic rotary actuator control on the PLC side and improved the radioactivity detector calibration process by replacing manual operations with algorithm-driven automation.

Beyond user interfaces, my work focused on building robust and reliable systems in a highly regulated medical environment. I designed calibration workflows, anomaly tracking mechanisms, and custom event logging to ensure traceability and compliance with validation and verification standards. I was deeply involved in system documentation, UML modeling, and GaMP-compliant validation processes, ensuring that software quality met both technical and regulatory expectations.

I also contributed to the long-term evolution of the platform by leading major migrations, integrating third-party components, managing database tooling, and supporting IT operations. This experience laid the foundation of my career: delivering mission-critical software where precision, safety, and reliability are non-negotiable.

Technology Stack

C#, .NET Framework, .NET Core, ASP.NET Core, Blazor (Server & WebAssembly),WCF,WCF RIA Services,Entity Framework,Entity Framework Core,Minimal APIs