参考文献

1.Kocak Z,Shankar L,Sullivan D C,et al.The Role of Imaging in the Study of Radiation-Induced Normal Tissue Injury//Late Effects of Cancer Treatment on Normal Tissues.Springer Berlin Heidelberg,2008.

2.Kim S,Naik M,Sigmund E,et al.Diffusion-weighted MR imaging of the kidneys and the urinary tract.Magn Reson Imaging Clin N Am,2008,16(4):585-596.

3.Ghobadi G,Hogeweg LE,Faber H,et al.Quantifying local radiation-induced lung damage from computed tomography.Int J Radiat Oncol Biol Phys,2010,76(2):548-56.

4.Guckenberger M,Baier K,Polat B,et al.Dose-response relationship for radiation-induced pneumonitis after pulmonary stereotactic body radiotherapy.Radiother Oncol,2010,97(1):65-70.

5.Kano H,Kondziolka D,Lobato-Polo J,et al.T1/T2 matching to differentiate tumor growth from radiation effects after stereotactic radiosurgery.Neurosurgery,2010,66(3):486.

6.Shemesh N,Sadan O,Melamed E,et al.Longitudinal MRI and MRSI characterization of the quinolinic acid rat model for excitotoxicity:peculiar apparent diffusion coefficients and recovery of N-acetyl aspartate levels.NMR Biomed,2010,23(2):196-206.

7.Zhou J,Tryggestad E,Wen Z,et al.Differentiation between glioma and radiation necrosis using molecular magnetic resonance imaging of endogenous proteins and peptides.Nat Med,2011,17(1):130-134.

8.Koizumi M.Encounter of cancer cells with bone.Radiotherapy for bone metastasis of cancer.Clin Calcium,2011,21(3):455-464.

9.Robbins ME,Brunso-Bechtold JK,Peiffer AM,et al.Imaging radiation-induced normal tissue injury.Radiat Res,2012,177(4):449-466.

10.Wang HZ,Qiu SJ,Lv XF,et al.Diffusion tensor imaging and 1H-MRS study on radiation-induced brain injury after nasopharyngeal carcinoma radiotherapy.Clin Radiol,2012,67(4):340-345.

11.McCurdy M,Bergsma DP,Hyun E,et al.The Role of Lung Lobes in Radiation Pneumonitis and Radiation-Induced Inflammation in the Lung:A Retrospective Study.J Radiat Oncol,2013,2(2):203-208.

12.Xiong WF,Shi JQ,Hong ZhW,et al.1H-MR spectroscopy and diffusion tensor imaging of normal-appearing temporal white matter in patients with nasopharyngeal carcinoma after irradiation:initial experience.J Magn Reson Imaging,2013,37(1):101-108.

13.Shah AH,Snelling B,Bregy A,et al.Discriminating radiation necrosis from tumor progression in gliomas:a systematic review what is the best imaging modality?J Neurooncol,2013,112(2):141-152.

14.Chao ST,Ahluwalia MS,Barnett GH,et al.Challenges with the diagnosis and treatment of cerebral radiation necrosis.Int J Radiat Oncol Biol Phys,2013,87(3):449-457.

15.Pinho MC,Polaskova P,Kalpathy-Cramer J,et al.Low incidence of pseudoprogression by imaging in newly diagnosed glioblastoma patients treated with cediranib in combination with chemoradiation.Oncologist,2014,19(1):75-81.

16.Thind K,Jensen MD,Hegarty E,et al.Mapping metabolic changes associated with early Radiation Induced Lung Injury post conformal radiotherapy using hyperpolarized 13C-pyruvate Magnetic Resonance Spectroscopic Imaging.Radiother Oncol,2014,110(2):317-322.

17.Ruzevick J,Kleinberg L,Rigamonti D.Imaging changes following stereotactic radiosurgery for metastatic intracranial tumors:differentiating pseudoprogression from tumor progression and its effect on clinical practice.Neurosurg Rev,2014,37(2):193-201.

18.Jiang X,Engelbach JA,Yuan L,et al.Anti-VEGF antibodies mitigate the development of radiation necrosis in mouse brain.Clin Cancer Res,2014,20(10):2695-2702.

19.Shen CY,Tyan YS,Kuo LW,et al.Quantitative Evaluation of Rabbit Brain Injury after Cerebral Hemisphere Radiation Exposure Using Generalized q-Sampling Imaging.PLoS One,2015,10(7):e0133001.

20.Chawla S,Wang S,Kim S,et al.Radiation injury to the normal brain measured by 3D-echo-planar spectroscopic imaging and diffusion tensor imaging:initial experience.J Neuroimaging,2015,25(1):97-104.

21.Yang X,Yoshida E,Cassidy RJ,et al.Quantitative Ultrasonic Nakagami Imaging of Neck Fibrosis After Head and Neck Radiation Therapy.Int J Radiat Oncol Biol Phys,2015,92(2):407-414.

22.Cunliffe A,Armato SG 3rd,Castillo R,et al.Lung texture in serial thoracic computed tomography scans:correlation of radiomicsbased features with radiation therapy dose and radiation pneumonitis development.Int J Radiat Oncol Biol Phys,2015,91(5):1048-1056.

23.Chuang M T,Liu Y S,Tsai Y S,et al.Differentiating Radiation-Induced Necrosis from Recurrent Brain Tumor Using MR Perfusion and Spectroscopy:A Meta-Analysis.Plos One,2016,11(1):e0141438.

24.Molad JA,Blumenthal DT,Bokstein F,et al.Mechanisms of post-radiation injury:cerebral microinfarction not a significant factor.J Neurooncol,2017,131(2):277-281.