Share:
Share this content in WeChat
X
[Chinese][PDF]79692
Review
Research progess of diffusional kurtosis imaging in tumour
YAN kun  HU Sha-sha  YANG Pin  JIANG Chang-qin  LEI Jun-qiang 

DOI:10.12015/issn.1674-8034.2016.08.016.


[Abstract] Diffusional kurtosis imaging (DKI) was an emerging magnetic resonance imaging technology which was base on the model of non-Gaussian distribution, it was also the extension of diffusional weight imaging(DWI) and diffusional tensor imaging (DTI). DKI could describe the non-Gaussian distribution characteristic of hydrone of intracellular and extracellular through quantitative analysis, which can offer more plentiful, real and accurate microstructure information of tissue than DWI and DTI. In recent years, DKI gradually apply to diseases of different systems, had achieved some initial results especially in tumours of brain and prostate, which displayed excellent clinical value. This article proposed to summary the technic principles and aplication advances in tumours for DKI.
[Keywords] Diffusional kurtosis imaging;Diffusional weight imaging;Diffusional tensor imaging;Tumor

YAN kun Department of Radiology, the First Hospital of Lanzhou University, Lanzhou 730000, China

HU Sha-sha Department of Radiology, the First Hospital of Lanzhou University, Lanzhou 730000, China

YANG Pin Department of Radiology, the First Hospital of Lanzhou University, Lanzhou 730000, China

JIANG Chang-qin Department of Radiology, the First Hospital of Lanzhou University, Lanzhou 730000, China

LEI Jun-qiang* Department of Radiology, the First Hospital of Lanzhou University, Lanzhou 730000, China

*Correspondence to: Lei JQ, E-mail: leijq1990@163.com

Conflicts of interest   None.

Received  2016-03-28
Accepted  2016-05-11
DOI: 10.12015/issn.1674-8034.2016.08.016
DOI:10.12015/issn.1674-8034.2016.08.016.

[1]
Hui ES, Cheung MM, Qi L, et al. Towards better MR characterization of neural tissues using directional diffusion kurtosis analysis. Neuro image, 2008, 42(1): 122-134.
[2]
Jensen JH, Helpern JA, Ramani A, et al.Diffusional kurtosis imaging: the quantification of non-gaussian water diffusion by means of magnetic resonance imaging. Magn Reson Med, 2005, 53(6): 1432-1440.
[3]
Jensen JH, Helpern JA. MRI quantification of non-Gaussian water diffusion by kurtosis analysis.NMR Biomed, 2010, 23(7): 698-710.
[4]
Mariko Y, Masaaki H, Yokoyama K, et al. Diffusional kurtosis imaging of normal-appearing white matter in multiple sclerosis: preliminary clinical experience. Jpn J Radiol, 2013, 31(1): 50-55.
[5]
Rostoker G, Griuncelli M, Loridon C, et al. Reassessment of iron biomarkers for prediction of dialysis iron overload: An MRI study. PLo SOne, 2015, 10 (7):e132006.
[6]
Li X, Yang J, Gao J, et al. A robust post-processing workflow for data-sets with motion artifacts in diffusion kurtosis imaging. PLo SOne, 2014, 9(4): e94592.
[7]
Nilsson M, Wirestam R, Stahlberg F, et al.Regional values of diffusional kurtosis imaging estimates in the healthy brain.J MagnReson Imaging, 2013, 37(3): 610-618.
[8]
Yoshida M, Hori M, Yokoyama K, et al. Diffusional kurtosis imaging of normal-appearing white matter in multiple sclerosis: Preliminary clinical experience. Jpn J Radiol, 2013, 31(1): 50-55.
[9]
党玉雪,王晓明.磁共振新技术DKI和IVIM在中枢神经系统的研究现状.磁共振成像, 2015, 6(2): 145-150.
[10]
王科,潘婷,周欣,等.基于非高斯分布模型的扩散加权成像在体部疾病中的应用.磁共振成像, 2016, 7(1): 71-76.
[11]
Lazar M, Jensen JH, Xuan L, et al. Estimation of the orientation distribution function from diffusional kurtosis imaging. Magn Reson Med, 2008, 60(4): 774-781.
[12]
Hui ES, Cheung MM, Qi L, et al. Advanced MR diffusion characterization of neural tissue using directional diffusion kurtosis analysis. Conf Proc IEEE Eng Med Biol Soc, 2008, 2008: 3941-3944.
[13]
邵涵钎.利用新型扩散成像技术研究年老对大脑微观结构的影响.磁共振成像, 2016, 7(3): 218-225.
[14]
Raab P, Hattingen E, Franz K, et al. Cerebral gliomas:diffusional kurtosis imaging analysis of microstructural differences. Radiology, 2010, 254(3): 876-881.
[15]
Jensen JH, Falangola MF, Hu C, et al. Preliminary observations of increased diffusional kurtosis in human brain following recent cerebra infarction. NMR Biomed, 2011, 24(5): 452-457.
[16]
Poot DH, Dekker AJ, Achten E, et al. Optimal experimental design for diffusion kurtosis imaging. IEEE Trans Med Imaging, 2010, 29(3): 819-829.
[17]
Chen W, Zheng R, Baade PD, et al. Cancer statistics in China, 2015. CA Cancer J Clin, 2016, 66(2): 115-132.
[18]
Blockx I, De Groof G, Verhoye M. Microstructural changes observed with DKI in a transgenic Huntington rat model: evidence for abnormal neurodevelopment. Neuroimage, 2012, 59(2): 957-967.
[19]
Dolecek TA, Propp JM, Stroup NE, et al. CBTRUS Statistical report: primary brain tumors and central nervous system tumors diagnosed in the united states in 2005-2009. Neuro Oncol, 2012, 14(5): 21-49.
[20]
Raab P, Hattingen E, Franz K, et al. Cerebral gliomas: diffusional kurtosis imaging analysis of microstructural differences. Radiology, 2010, 254(3): 876-881.
[21]
Van CS, De KF, Sima DM, et al. Integrating diffusion kurtosis imaging, dynamic susceptibility-weighted contrast-enhanced MRI, and short echo time chemical shift imaging for grading gliomas. Neuro-Oncology, 2014, 16(7): 1010-1021.
[22]
Bai Y, Lin YS, Tian J. Grading of gliomas by using monoexponential, biexponential, and stretched exponential diffusion-weighted MR imaging and diffusion kurtosis MR imaging. Radiology, 2016, 278(2): 496-504.
[23]
Jiang RF, Jiang JJ, Zhao LY. Diffusion kurtosis imaging can efficiently assess the glioma grade and cellular proliferation. Oncotarget, 2015, 6(39): 42380-42393.
[24]
Tan Y, Wang XC, Zhang H. Differentiation of high-grade-astrocytomas from solitary-brain-metastases: comparing diffusion kurtosis imaging and diffusion tensor imaging. Eur J Radiol, 2015, 84(12): 2618-2624.
[25]
Mao YP, Xie FY, Liu LZ, et al. Re-evaluation of 6th edition of AJCC staging system for nasopharyngeal carcinoma and proposed improvement based on magnetic resonance imaging. Int J Radiat Oncol Biol Phys, 2009, 73(5): 1326-1334.
[26]
Lee AW, Tung SY, Chua DT, et al. Randomized trial of radiotherapy plus concurrent-adjuvant chemotherapy vs. radiotherapy alone for regionally advanced nasopharyngeal carcinoma. J Natl Cancer Inst, 2010, 102(15): 1188-1198.
[27]
Buehrlen M, Zwaan CM, Granzen B, et al. Multimodal treatment, including interferon beta, of nasopharyngeal carcinoma in children and young adults: preliminary results from the prospective, multicenter study NPC-2003-GPOH/DCOG. Cancer, 2012, 118(19): 4892-4900.
[28]
Kong L, Hu C, Niu X, et al. Neoadjuvant chemotherapy followed by concurrent chemoradiation for locoregionally advanced nasopharyngeal carcinoma: interim results from 2 prospective phase 2 clinical trials. Cancer, 2013, 119(23): 4111-4118.
[29]
OuYang PY, Xie C, Mao YP, et al. Significant efficacies of neoadjuvant and adjuvant chemotherapy for nasopharyngeal carcinoma by meta-analysis of published literature-based randomized, controlled trials. Ann Oncol, 2013, 24(8): 2136-2146.
[30]
Chen Y, Ren W, Zheng D. Diffusion kurtosis imaging predicts neoadjuvant chemotherapy responses within 4 days in advanced nasopharyngeal carcinoma patients. J Magn Reson Imaging, 2015, 42(5): 1354-1361.
[31]
Spick C, Pinker-Domenig K, Rudas M, et al. MRI-only lesions: application of diffusion-weighted imaging obviates unnecessary MR- guide breast biopsies. Eur Radiol, 2014, 24(6): 1204-1210.
[32]
Nogueira L, Brandao S, Matos E, et al. Application of the diffusion kurtosis model for the study of breast lesions. Eur Radiol, 2014, 24(6): 1197-203.
[33]
Wu D, Li G, Zhang J, et al. Characterization of breast tumors using diffusion kurtosis imaging (DKI). PLoS One, 2014, 9(11): e113240.
[34]
Sun K, Chen X, Chai W, et al. Breast cancer: diffusion kurtosis MR imaging-diagnostic accuracy and correlation with clinical-pathologic factors. Radiology, 2015, 277(1): 46-55.
[35]
Jemal A, Bray F, Center MM, et al. Global cancer statistics. CA: a cancer journal for clinicians, 2011, 61(2): 69-90.
[36]
Goshima S, Kanematsu M, Noda Y. Diffusion kurtosis imaging to assess response to treatment in hypervascular hepatocellular carcinoma. AJR Am J Roentgenol, 2015, 204(5): 543-549.
[37]
徐蒙莱,邢春华,陈宏伟,等. DKI技术在肝外胆管癌分级中的应用价值.磁共振成像, 2016, 7(1): 34-39.
[38]
Jemal A, Center MM, Desantis C, et al. Global patterns of cancer incidence and mortality rates and trends. Cancer Epidemiol Biomarkers Prev, 2010, 19(8): 1893-1907.
[39]
Heidenreich A, Bellmunt J, Bolla M, et al. EAU guidelines on prostate cancer. Part 1: screening, diagnosis, and treatment of clinically localized disease. Eur Urol, 2014, 65(1): 124-137.
[40]
Rosenkrantz AB, Sigmund EE, Johnson G, et al. Prostate cancer: feasibility and preliminary experience of a diffusional kurtosis model for detection and assessment of aggressiveness of peripheral zone cancer. Radiology, 2012, 264(1): 126-135.
[41]
Roethke MC, Kuder TA, Kuru TH, et al. Evaluation of diffusion kurtosis imaging versus standard diffusion imaging for detection and grading of peripheral zone prostate cancer. Invest Radiol, 2015, 50(8): 483-489.
[42]
Suo S, Chen X, Ji X. Investigation of the non-Gaussian water diffusion properties in bladder cancer using diffusion kurtosis imaging: a preliminary study. J Comput Assist Tomogr, 2015, 39(2): 281-285.

PREV The advantages and clinical value of high resolution MRI in evaluating the stability of carotid plaque
NEXT The application of MR oxygen extraction fraction imaging in astrocytoma grading
  


LINK


Tel & Fax: +8610-67113815    E-mail: editor@cjmri.cn