Skip to main content

Breast cancer is the most prevalent cancer in women worldwide, making advancements in treatment crucial. The standard surgical approach for breast cancer, known as lumpectomy, involves removing the tumor from the breast while preserving as much healthy tissue as possible. However, limitations in surgical navigation often result in the need for additional surgeries, impacting both patient well-being and healthcare costs.

At Queen's University, a team of dedicated scientists has developed a state-of-the-art surgical navigation system that combines ultrasound, electromagnetic tracking, and proprietary software. This groundbreaking technology aims to enhance spatial awareness during lumpectomy surgery, ultimately reducing the necessity for additional procedures. By minimizing the need for follow-up surgeries, this multi-system approach offers numerous benefits, including cost reduction, improved patient outcomes, and lower trauma levels.

The Features and Benefits of the Multi-System Approach

This surgical navigation system incorporates ultrasound technology, providing real-time imaging of the breast tissue during the procedure. By utilizing sound waves, doctors can accurately locate and visualize the tumor, ensuring precise removal. This high level of accuracy helps reduce the likelihood of leaving any cancerous tissue behind, ultimately improving the chances of successful treatment.

The integration of electromagnetic tracking within the system allows for precise tracking of surgical instruments and their movements. Surgeons can navigate the intricate network of tissues and vessels with enhanced accuracy and confidence. This level of precision significantly reduces the risk of damage to surrounding healthy tissue, leading to improved cosmetic outcomes post-surgery.

The advanced proprietary software developed by the team at Queen's University serves as the backbone of the surgical navigation system. This software combines the data gathered from ultrasound imaging and electromagnetic tracking, providing surgeons with an accurate and detailed representation of the breast's internal structures. By having a comprehensive view, surgeons can make informed decisions during the surgery, minimizing the need for additional procedures.

The Benefits for Patients and the Healthcare System

The multi-system approach developed at Queen's University offers a plethora of advantages for both patients and the healthcare system as a whole.

One of the most significant benefits of this new approach is the reduced necessity for additional surgeries. With the improved spatial awareness provided by the surgical navigation system, surgeons can more effectively remove tumors during the initial lumpectomy procedure. By minimizing the need for follow-up surgeries, patients experience less trauma, shorter recovery times, and decreased healthcare costs.

Preserving the aesthetic appearance of the breast is a crucial aspect of breast cancer treatment. With the aid of the multi-system approach, surgeons can navigate the breast tissue with increased accuracy, ensuring minimal damage to healthy tissue. This precision leads to improved cosmetic outcomes, helping women regain confidence and maintain a positive body image after surgery.

By reducing the number of additional surgeries required, the multi-system approach contributes to significant cost savings within the healthcare system. Fewer surgeries mean fewer hospital stays, decreased use of resources, and a more efficient allocation of healthcare funds. This approach not only benefits individual patients but also supports the overall sustainability of the healthcare system.


In conclusion, the multi-system approach developed by the team at Queen's University offers a revolutionary advancement in the treatment of breast cancer. By integrating ultrasound technology, electromagnetic tracking, and proprietary software, surgeons can enhance their spatial awareness during lumpectomy surgeries. This advanced navigation system reduces the need for additional surgeries, resulting in improved patient outcomes, reduced healthcare costs, and enhanced cosmetic results. As we continue striving for innovative solutions in breast cancer treatment, this multi-system approach stands as a beacon of hope for women worldwide.

Integrate People, Process and Technology