[1]Ocksrider J,Boden AL,Greif DN,et al.Radiographic evaluation of reconstructive surgery for segmental bone defects:What the radiologist should know about distraction osteogenesis and bone grafting[J].Clin Imaging,2020(67):15-29.
[2]Bakhsh K,Atiq-Ur-Rehman,Zimri FK,et al.Presentation and management outcome of tibial infected non-union with Ilizarov technique[J].Pak J Med Sci,2019,35(1):136-140.
[3]Humphries T,Wang BJ.Superiorized method for metal artifact reduction[J].Med Phys,2020,47(9):3984-3995.
[4]Peng C,Li B,Li M,et al.An irregular metal trace inpainting network for Xray CT metal artifact reduction[J].Med Phys,2020,47(9):4087-4100.
[5]Greffier J,Larbi A,Frandon J,et al.Influence of iterative reconstruction and dose levels on metallic artifact reduction:A phantom study within four CT systems[J].Diagn Interv Imaging,2019,100(5):269-277.
[6]Mohammadineiad P,Baffour FlAdkins MC,et al.Benefits of iterative metal artifact reduction and dua-energy CT towards mitigating artifact in the setting of total shoulder prostheses[J].Skeletal Radiol,2021,50(1):51-58.
[7]Rajiah P,Parakh A,Kay F,et al.Update on multienergy CT:Physics,principles,and applicationsl[J].Radiographics,2020,40(5):1284-1308.
[8]Li Y,Younis MH,Wang H,et al.Spectral computed tomography with inorganic nanomaterials:State-of-the-art[J].Adv Drug Deliv Rev,2022(189):114524.
[9]解琪琪,史卫东,李文洲,等.宝石能谱CT在骨骼系统中的应用进展[J].中国医学物理学杂志,2019,36(10):1173-1176.
[10]Zhang T,Wu C,Li Z,et al.CAMPO Precision128 Max energy spectrum CT combined with multiple parameters to evaluate the benign and malignant pleural effusion[J].J Healthc Eng,2021(26):5526977.
[11]Hu X,Gu Q,Zhang K,et al.Dualenergy computed tomography for the diagnosis of mediastinal lymph node metastasis in lung cancer patients:A preliminary study[J].Comput Assist Tomogr,2021,45(3):490-494.
[12]Dou P,Liu Z,Xie L,et al.The predictive value of energy spectral CT parameters for assessing Ki-67 expression of lung cancer[J].Transl Cancer Res,2020,9(7):4267-4278.
[13]Liu Q,Liu Z,Guo H,et al.The progress in quantitative evaluation of callus during distraction osteogenesis[J].BMC Musculoskelet Disord,2022,23(1):490.
[14]Demirler Simsir B,Danse E,Coche E.Benefit of dual-layer spectral CT in emergency imaging of different organ systems[J].Clin Radiol,2020,75(12):886-902.
[15]Wang X,Liu D,Zeng X,et al.Dual-energy CT quantitative parameters for evaluating immunohistochemical biomarkers of invasive breast cancer[J].Cancer Imaging,2021,21(1):4.
[16]Glazebrook KN,Doerge S,Leng S,et al.Ability of dualenergy CT to detect silicone gel breast implant rupture and nodal silicone spread[J].AJR Am J Roentgenol,2019,212(4):933-942.
[17]Young JW,Kostrubiak IS,Resnik CS,et al.Sonographic evaluation of bone production at the distraction site in Ilizarov limblengthening procedure[J].AJR Am J Roentgenol,1990,154(1):125-128.
[18]姚志兰,贲丽媛,姚志娟,等.骨延长术后骨痂愈合过程的B超监测[J].中国超声医学杂志,1997,13(1):45-46.
[19]陈雪峰,赵卫东,张永红,等.对比能谱CT与超声监测骨搬移过程的价值[J].中国医学影像技术,2019,35(4):586-591.
[20]史晓丽,赵卫东,张永红,等.能谱CT定量评价 rhBMP-2促进胫骨骨缺损牵张成骨的牵张期疗效[J].实用放射学杂志,2020,36(9):1454-1458
[21]邢浩,张永红,贺国宇,等.手风琴技术促进骨搬移延长骨段矿化的临床观察[J].中国骨伤,2021,34,(2):131-136
[22]邓亚军,韩蕾,解琪琪,等.能谱CT与DXA测量骨密度准确性的比较研究[J].中国医学物理学杂志,2019,36(2):194-198
[23]高思齐,赵卫东,张永红,等.双层探测器光谱CT使用单能量成像结合金属伪影减少算法去除骨搬移金属伪影的价值[J].山西医科大学学报,2022,53(2):244-250.
[24]So A,Nicolaou S.Spectral computed tomography:Fundamental principles and recent developments[J].Korean J Radiol,2021,22(1):86-96.
[25]Greffier J,Villani N,Defez D,et al.Spectral CT imaging:Technical principles of dual-energy CT and multi-energy photon-counting CT[J].Diagn Interv Imaging,2023,104(4):167-177
[26]Tanoue S,Nakaura T,Nagayama Y,et al.Virtual monochromatic image quality from dual-layer dual-energy computed tomography for detecting brain tumors[J].Korean J Radiol,2021,22(6):951-958.
[27] 马富强,黄耀渠,袁健祥,等.能谱CT去金属伪影技术在骨折金属内固定术后的应用[J].实用医学影像杂志,2022,23(5):439-441.
[28] Luzhbin D,Wu J.Model image-based metal artifact reduction for computed tomography[J].Digit Imaging,2020,33(1):71-82.
[29]Pan L,Jia X,Zhao X,et al.Study on the correlation between energy spectrum computed tomography imaging and the pathological characteristics and prognosis of cervical cancer[J] Transl Cancer Res,2021,10(9):4096-4105.
[30] Ma T,Cao LX,Li HJ,et al.Differences of energy spectrum CT findings between small cell lung cancer with mediastinal lymph node metastasis and mediastinal sarcoidosis[J].Zhongguo Yixue Kexueyuan Xuebao,2021,43(1):53-56.
[31] Li X,Li X,Li J,et al.The accuracy of bone mineral density measurement using dual energy spectral CT and quantitative CT:A comparative phantom study[J].Clin Radiol,2020,75(4):9-15.
[32] Huang S,Cui X,Han H,et al.Study on the scanning protocols for measuring bone mineral density by gemstone CT spectral imaging based on European spine phantom[J].Acta Radiol,2023,64(1):346-352.
[33]Zhou S,Zhu L,You T,et al.In vivo quantification of bone mineral density of lumbar vertebrae using fast kVp switching dual-energy CT:Correlation with quantitative computed tomography[J].Quant Imaging Med Surg,2021,11(1):341-350.
[34]陈雪峰,赵卫东.CT能谱技术在评价骨搬移术后成骨质量中的应用研究及临床意义[D].山西:山西医科大学,2019.
[35]Oda S,Takaoka H,Katahira K,et al.Low contrast material dose coronary computed tomographic angiography using a dual-layer spectral detector system in patients at risk for contrastnduced nephropathy[J].Br J Radiol,2019,92 (1094):20180215.