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Study on microwave ablation temperature prediction model based on grayscale ultrasound texture and machine learning

Yan Xiong, Yi Zheng, Wei Long, Yuxin Wang, Qin Wang, Yi You, Yuheng Zhou, Jiang Zhong, Yunxi Ge, Youchen Li, Yan Huang and Zhiyong Zhou

PLOS ONE, 2024, vol. 19, issue 9, 1-20

Abstract: Background: Temperature prediction is crucial in the clinical ablation treatment of liver cancer, as it can be used to estimate the coagulation zone of microwave ablation. Methods: Experiments were conducted on 83 fresh ex vivo porcine liver tissues at two ablation powers of 15 W and 20 W. Ultrasound grayscale images and temperature data from multiple sampling points were collected. The machine learning method of random forests was used to train the selected texture features, obtaining temperature prediction models for sampling points and the entire ultrasound imaging area. The accuracy of the algorithm was assessed by measuring the area of the hyperechoic area in the porcine liver tissue cross-section and ultrasound grayscale images. Results: The model exhibited a high degree of accuracy in temperature prediction and the identification of coagulation zone. Within the test sets for the 15 W and 20 W power groups, the average absolute error for temperature prediction was 1.14°C and 4.73°C, respectively. Notably, the model’s accuracy in measuring the area of coagulation was higher than that of traditional ultrasonic grey-scale imaging, with error ratios of 0.402 and 0.182 for the respective power groups. Additionally, the model can filter out texture features with a high correlation to temperature, providing a certain degree of interpretability. Conclusion: The temperature prediction model proposed in this study can be applied to temperature monitoring and coagulation zone range assessment in microwave ablation.

Date: 2024
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pone00:0308968

DOI: 10.1371/journal.pone.0308968

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