The PRONOBIS project addresses the urgent need for prostate cancer diagnostics amid a shortage of qualified physicians. Our focus is on creating a robotic-assisted prostate biopsy procedure that leverages advanced robotics and artificial intelligence to enhance accuracy and efficiency.
The Company is working on a prototype that will be tested and validated to reduce physician workload, expedite diagnosis, and support effective treatment decisions for improved patient outcomes.

We are currently advancing the ANDROMEDA project to improve the safety and outcomes of neurosurgery. Traditional manual drilling techniques pose significant risks, while autonomous robotic systems have the potential to enhance surgical precision and reduce patient risk.
Our project focuses on targeted scientific research and engineering design processes to demonstrate innovative robotic kinematic structures and control models. These developments aim to optimize drilling force, timing, accuracy, and instrument positioning during craniotomy. The project fosters collaborative research between academia and industry, strengthening the research capabilities of our partners.

Following extensive research and development, the RONNA G6 commercial prototype was created to bring to fruition the years of research done on the RONNA project.
This prototype incorporates feedback from clinical trials and initial operations, integrating enhanced features and improved functionality. The development process involved rigorous testing to ensure the system's reliability, accuracy, precision, and safety in surgical environments.
This marked a significant milestone towards bringing our innovative robotic solutions to the global market.

After a decade of intensive research, collaboration with healthcare professionals, and iterative development, RONNA Medical Ltd. was incorporated. This process involved establishing partnerships with local healthcare facilities to gain insights into operational complexities and patient care standards.
The culmination of years of development led to the introduction of a transformative product designed to empower healthcare professionals and elevate patient care through state-of-the-art technology.

Building upon the success of the initial concept, the team developed the RONNA G4 prototype.
This next-generation system incorporated further enhancements based on the initial operations and feedback from clinical trials, paving the way for improved features and capabilities.

In March 2016, the first brain biopsy using the RONNA robotic system was successfully performed as an assistant to the surgeon. This remarkable milestone not only advanced the development of RONNA but also represented a significant shift in the field of neurosurgery.
It marked the beginning of clinical applications, leading to over 50 stereotactic neuronavigation procedures.

RONNA - Robotic NeuroNAvigation project was initiated at the Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb, in partnership with the Clinical Hospital Dubrava.
This project focused on researching and designing an innovative and competitive robotic system for application in neurosurgery.