RASTER: Robot Assistant for Sonographic Tissue Examination and Reconstruction

Mart, Benjamin

Etd

RASTER: Robot Assistant for Sonographic Tissue Examination and Reconstruction

Público Deposited

While the exact prevalence of thyroid nodules in the wider population is not known, studies have shown them to be prevalent in between 2% and 65% of the the human population. The vast majority of these tumors are benign. However, the rate of thyroid cancer has at least doubled since 1980 while a corresponding increase in mortality has not occurred, leading researchers to conclude the rise is a measure of how many cancerous nodules are being found. Physicians have turned to ultrasonography as a relatively low-cost method of imaging thyroid nodules in a non-invasive way. These exams, when conducted by physicians and trained ultrasound technicians, are prone to human error which can cause inconsistent results between exams. This thesis proposes a novel robotic system for assisting physicians in conducting thyroid ultrasound exams. The proposed system uses a seven degree of freedom robotic manipulator mounted with a wireless ultrasound scanner to capture ultrasound images at known locations and a two-stage image segmentation framework to track the region of interest identified within the ultrasound image. The first stage is a real-time, non-machine learning image segmentation algorithm, initialized by the physician, that tracks the region of interest throughout the examination assisted by a force, scanner orientation, and position control framework. The second stage of the framework is a non-real time, non-machine learning image segmentation algorithm which, combined with the positional data from the robot, generates an approximation of the region of interest as a volume and displays a 3D representation of this volume. Testing completed on a training phantom demonstrated the ability of the system to track the patient profile accurately and in real-time. From the experimental data, a volume was repeatedly generated and visualized properly.

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