Abstract
According to the gray value in CT image sequence of NSCLC, the visualization of CT images can facilitated surgeries to analyze and judge detailed characteristics inside the tumor. Through the color distribution of the heat map, it can identify a representative position for tumor puncture biopsy. CT images sequence is reconstructed three-dimensional model, including the skin, bone, lungs and tumor, the reconstructed model and the patient’s real body are registered. The four-dimensional heat map of the tumor as a reference to determine the space location of the puncture. In this paper, we conducted reconstructions of a four-dimensional heat map of region of interest and designed the best puncture path. The use of AR navigation technology to guide the puncture biopsy, which achieved the purpose of precise puncture, and facilitate the doctor to take a sample to do pathology analysis. Validations demonstrated our precise puncture system based on AR navigation and four-dimensional heat map reconstruction perform a greatly improved the accuracy of tumor puncture and the diagnoses rate of tumor biopsy
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Ho, L.S., Nariya, C., Ja, K.S., et al.: Correlation between high resolution dynamic MR features and prognostic factors in breast cancer. Korean J. Radiol. 9(1), 10–17 (2008)
Panpan, H., Jiazhou, W., et al.: Radiomics in precision radiotherapy. Chin. J. Radiat. Oncol. 26(1), 103–106 (2017)
Lambin, P., Riosvelazquez, E., et al.: Radiomics: extracting more information from medical images using advanced feature analysis. Eur. J. Cancer 48(4), 441–446 (2012)
Guinney, J., Dienstmann, R., Wang, X., et al.: The consensus molecular subtypes of colorectal cancer. Nat. Med. 21(11), 1350 (2015)
Lughezzani, G., Sun, M., Budäus, L., et al.: Effect of the number of biopsy cores on prostate cancer detection and staging. Future Oncol. 6(3), 381–390 (2010)
Solomon, S.B., White Jr., P.M.D., Wiener, C.M., et al.: Three-dimensional CT-guided bronchoscopy with a real-time electromagnetic position sensor: a comparison of two image registration methods. Chest 118(6), 1783–1787 (2001)
Laurent, F., Latrabe, V., Vergier, B., et al.: Percutaneous CT-guided biopsy of the lung: comparison between aspiration and automated cutting needles using a coaxial technique. Cardiovasc. Intervent. Radiol. 23(4), 266–272 (2000)
Jing, X., Xiangdong, Y., et al.: Intra-operation 3D ultrasound navigation system in intervention therapy for liver cancer. Chin. J. Biomed. Eng. 26(5), 719–723 (2007)
Sonn, G.A., Natarajan, S., Margolis, D.J., et al.: Targeted biopsy in the detection of prostate cancer using an office-based MR-US fusion device. J. Urol. 189(1), 86 (2013)
Grimson, E., Leventon, M., et al.: Clinical experience with a high precision image-guided neurosurgery system. In: Medical Image Computing and Computer-Assisted Intervention, MICCAI 1998, pp. 63–73 (1998)
Azuma, R., Baillot, Y., Behringer, R., et al.: Recent advances in augmented reality. IEEE Comput. Graph. Appl. 21(6), 34–47 (2001)
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Qin, Z. et al. (2018). Development of NSCLC Precise Puncture Prototype Based on CT Images Using Augmented Reality Navigation. In: Qiao, F., Patnaik, S., Wang, J. (eds) Recent Developments in Mechatronics and Intelligent Robotics. ICMIR 2017. Advances in Intelligent Systems and Computing, vol 691. Springer, Cham. https://doi.org/10.1007/978-3-319-70990-1_78
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DOI: https://doi.org/10.1007/978-3-319-70990-1_78
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