Abstract
This study aimed to evaluate the accuracy and safety of robotic CT-guided needle insertion in phantom and animal experiments. A robotic system was developed for CT-guided needle insertion. For the phantom experiment, a specially made phantom containing multiple spherical was used. 15 robotic and manual insertions were conducted, and the accuracy, time, number of needle insertions, and radiation dose were compared between the robotic and manual insertion using Student's t-test. For the animal experiment, 20 robotic needle insertions were attempted toward simulated pulmonary nodules in the swine lung. The accuracy and safety of robotic CT-guided needle insertions were evaluated. In the phantom experiment, the mean accuracies of manual and robotic insertion were 1.8 ± 0.3mm and 1.9 ± 0.2mm. The accuracy of robotic needle insertion had no significant difference with manual needle insertion, but the number of needle insertions and radiation dose of the robotic needle placement significantly decreased compared to manual needle placement. In the animal experiment, the mean accuracy of the robotic needle insertion was 3.8 ± 1.3mm. The time for the whole needle insertion was 14.4 ± 4.8min. The whole robotic needle insertions were safe and only one mild pneumothorax occurred. CT-guided robotic needle insertion showed accuracy comparable to manual needle insertion, but the number of needle insertions, confirmatory scans, and radiation exposure had been reduced significantly. In future, we will further apply the robotic system to clinical experiments.
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