CURRENT PROJECTS

We are committed to work on projects for  Micro-Cannula tracking and treatment optimization systems using ultra-sensitive multi-modal sensors for tissue mapping and AI Integration of human to robot learning. 

 

​Our projects address the fundamental challenge of blind navigation in soft-tissue surgery. We pioneer a new guidance system with extra-corporeal ultra-sensitive sensors which can achieve non-invasive, real-time tracking of surgical instruments with accuracy at clinically relevant depths. 

We are working on machine learning to enable to reconstruct 3D treatment pathways from measurements. Our system uses real time 3D visualization and recording of cannula movements using ex-vivo  and in-vivo transmitters and sensors. With recorded data and with the help of AI corrections to the treatment plan can be made. Finally we  integrate robotic arm and automated interventions for procedures like liposuction, soft tissue biopsy and targeted drug delivery. Initially procedure is performed by experienced surgeon, cannula pathway is recorded using multi-modal universal sensors via Bluetooth® and our SubQ Master program. After that treatment pathway is analyzed by AI, under-treated areas are identified and data transmitted to robotic arm and final treatment is completed by robotic arm with clear instructions to achieve desired predictable outcome. We have secured preliminary patents for the system where initial human input is measured and recorded, then analyzed by AI and finally completed by robotic arm which leads to better treatment outcome.