Sinan Li scite author profile

Sinan Li

3Publications

16Citation Statements Received

343Citation Statements Given

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213

341

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Beijing University of Technology

Publications

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A Review of Quantitative Ultrasound-Based Approaches to Thermometry and Ablation Zone Identification Over the Past Decade

Zhou

et al. 2022

Ultrason Imaging

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Percutaneous thermal therapy is an important clinical treatment method for some solid tumors. It is critical to use effective image visualization techniques to monitor the therapy process in real time because precise control of the therapeutic zone directly affects the prognosis of tumor treatment. Ultrasound is used in thermal therapy monitoring because of its real-time, non-invasive, non-ionizing radiation, and low-cost characteristics. This paper presents a review of nine quantitative ultrasound-based methods for thermal therapy monitoring and their advances over the last decade since 2011. These methods were analyzed and compared with respect to two applications: ultrasonic thermometry and ablation zone identification. The advantages and limitations of these methods were compared and discussed, and future developments were suggested.

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Ultrasound Homodyned-K Contrast-Weighted Summation Parametric Imaging Based on H-scan for Detecting Microwave Ablation Zones

Zhou

et al. 2023

Ultrason Imaging

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The homodyned-K (HK) distribution is a generalized model of envelope statistics whose parameters α (the clustering parameter) and k (the coherent-to-diffuse signal ratio) can be used to monitor the thermal lesions. In this study, we proposed an ultrasound HK contrast-weighted summation (CWS) parametric imaging algorithm based on the H-scan technique and investigated the optimal window side length (WSL) of the HK parameters estimated by the XU estimator (an estimation method based on the first moment of the intensity and two log-moments, which was used in the proposed algorithm) through phantom simulations. H-scan diversified ultrasonic backscattered signals into low- and high-frequency passbands. After envelope detection and HK parameter estimation for each frequency band, the α and k parametric maps were obtained, respectively. According to the contrast between the target region and background, the ( α or k) parametric maps of the dual-frequency band were weighted and summed, and then the CWS images were yielded by pseudo-color imaging. The proposed HK CWS parametric imaging algorithm was used to detect the microwave ablation coagulation zones of porcine liver ex vivo under different powers and treatment durations. The performance of the proposed algorithm was compared with that of the conventional HK parametric imaging and frequency diversity and compounding Nakagami imaging algorithms. For two-dimensional HK parametric imaging, it was found that a WSL equal to 4 pulse lengths of the transducer was sufficient for estimating the α and k parameters in terms of both parameter estimation stability and parametric imaging resolution. The HK CWS parametric imaging provided an improved contrast-to-noise ratio over conventional HK parametric imaging, and the HK αcws parametric imaging achieved the best accuracy and Dice score of coagulation zone detection.

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Nakagami Parametric Imaging Based on the Multi-pyramid Coarse-to-Fine Bowman Iteration (MCB) Method

Zhou

2022

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Nakagami-m parametric imaging has been used for imaging and detection of coagulation zone in microwave ablation. In order to improve the image smoothness and accuracy of coagulation zone detection, the multi-pyramid coarse-to-fine bowman iteration (MCB) method was proposed and compared with traditional moment-based estimator (MBE) method. Phantom simulations showed that the MCB method could obtain better image smoothness and higher accuracy in lateral target size detection than the MBE method. Experimental results of porcine liver ex vivo (n = 18) indicated that the m parameter obtained by the MCB method was more accurate than that obtained by the MBE method in detecting the coagulation zone. Nakagami-m parametric imaging based on MCB method can be used as a potential tool for microwave ablation monitoring.

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Sinan Li

A Review of Quantitative Ultrasound-Based Approaches to Thermometry and Ablation Zone Identification Over the Past Decade

Ultrasound Homodyned-K Contrast-Weighted Summation Parametric Imaging Based on H-scan for Detecting Microwave Ablation Zones

Nakagami Parametric Imaging Based on the Multi-pyramid Coarse-to-Fine Bowman Iteration (MCB) Method

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