Journal of Shandong University (Health Sciences) ›› 2021, Vol. 59 ›› Issue (10): 96-102.doi: 10.6040/j.issn.1671-7554.0.2020.1116

Previous Articles     Next Articles

Observation value of neonatal cerebral fiber bundle and its effect on lateralization

LIU Yanyan1, FU Zhenmei1,2,3, YU Qiaowen1,2,3, SUI Yi4, CHEN Jinge1, GAO Jie1, LIN Xiangtao1,2,3, WANG Ximing1,2,3, HOU Zhongyu1,2,3   

  1. 1. Department of Imaging, Shandong Provincial Hospital Affiliated to Shandong First Medical University, Jinan 250021, Shandong, China;
    2. Department of Imaging, Shandong Provincial Hospital Affiliated to Shandong University, Jinan 250021, Shandong, China;
    3. Department of Imaging, Shandong Provincial Hospital, Jinan 250012, Shandong, China;
    4. Department of Imaging, The Second Peoples Hospital of Dongying, Dongying 257000, Shandong, China
  • Published:2021-10-15

PDF (PC)

188

Abstract: Objective To explore the effect of the changes of parameters of neonatal cerebral fiber bundle on the reproducibility and lateralization. Methods High angular resolution diffusion imaging(HARDI)data were obtained in 40 term infants born between 36.6 and 42.1 weeks(median 40 weeks). Multiple regions of interest(ROIs)protocol were used to describe the main brain tracks, such as cortico-spinal tract(CST), cingulum cingulate(CGC), forceps major(Fmajor)and frontal projection(Fminor)of corpus callosum, inferior longitudinal fasciculus(ILF), uncinate fasciculus(UNC)and inferior fronto-occipital fasciculus(IFO)by MRtrix3 software. Different cutoff values and angles were analyzed to evaluate the volume changes and reproducibility of tracks, and the effect on lateralization was analyzed with splicing design variance analysis. Results The volume of tracts significantly reduced if the angle was 45, while the inter-rater and intra-rater variability reduced with the consistency dispersion increased if the cutoff value was 0.02. The changes of tractography parameters affected the results of lateralization analysis. The bilateral CST, CGC and UNC showed significant lateralization. The FA values of corticospinal tract and cingulate tract showed statistically significant lateralization, which were mainly affected by changes of the cutoff and angle. Conclusion Optimal parameters of tractography will improve the reproducibility of results of fiber tracking, which is expected to be helpful to describe development of newborn white matter tracts.

Key words: Newborn, White matter bundle, Tractography, Multi-shell high angular resolution diffusion imaging

CLC Number: 

  • R722.1
[1] Prckovska V, Rodrigues P, Puigdellivol Sanchez A, et al. Reproducibility of the structural connectome reconstruction across diffusion methods [J]. Neuroimaging, 2016, 26(1): 46-57.
[2] Vasung L, Charvet CJ, Shiohama T, et al. Ex vivo fetal brain MRI: recent advances, challenges, and future directions [J]. Neuroimage, 2019, 195: 23-37. doi:10.1016/j.neuroimage.2019.03.034.
[3] Tournier JD, Smith R, Raffelt D, et al. MRtrix3: A fast, flexible and open software framework for medical image processing and visualization [J]. Neuroimage, 2019, 202: 116137. doi:10.1016/j.neuroimage.2019.116137.
[4] Ouyang A, Yu Q, Mishra V, et al. Structural development of human brain white matter from mid-fetal to perinatal stage [J]. Proc SPIE Int Soc Opt Eng, 2015, 9417: 94171P. doi:10.1117/12.2082418.
[5] Yu Q, Peng Y, Mishra V, et al. Microstructure, length, and connection of limbic tracts in normal human brain development [J]. Front Aging Neurosci, 2014, 6: 228. doi:10.3389/fnagi.2014.00228.
[6] Kastler A, Attye A, Heck O, et al. Greater occipital nerve MR tractography: Feasibility and anatomical considerations [J]. J Neuroradiol, 2018, 45(1): 54-58.
[7] Stieltjes B, Kaufmann WE, van Zijl PC, et al. Diffusion tensor imaging and axonal tracking in the human brainstem [J].Neuroimage, 2001, 14(3): 723-735.
[8] 王丽凤, 李峥, 于乔文. 足月新生儿大脑皮质时间-空间异质性发育的磁共振弥散张量及弥散峰度[J]. 山东大学学报(医学版), 2019, 57(9): 97-103,108. WANG Lifeng, LI Zheng, YU Qiaowen. MR-diffusion tensor image and diffusion kurtosis image of spatio-temporal development of new-born cerebral cortex [J]. Journal of Shandong University(Health Sciences), 2019, 57(9): 97-103,108.
[9] 侯欣, 杨健,鱼博浪. 磁共振扩散张量成像在新生儿脑发育的应用及展望[J]. 磁共振成像, 2012, 3(1): 74-78. HOU Xin, YANG Jian, YU Bolang. Assessment of neonatal brain development by diffusion tensor imaging [J]. Chinese Journal of Magnetic Resonance Imaging, 2012, 3(1): 74-78.
[10] Barnett ML, Tusor N, Ball G, et al. Exploring the multiple-hit hypothesis of preterm white matter damage using diffusion MRI [J]. Neuroimage Clin, 2017, 17: 596-606. doi:10.1016/j.nicl.2017.11.017.
[11] Dubois J, Dehaene-Lambertz G, Kulikova S, et al. The early development of brain white matter: a review of imaging studies in fetuses, newborns and infants [J]. Neuroscience, 2014, 276: 48-71. doi:10.1016/j.neuroscience.2013.12.044.
[12] Nath V, Schilling KG, Blaber JA, et al. Comparison of Multi-Fiber Reproducibility of PAS-MRI and Q-ball With Empirical Multiple b-Value HARDI [J].Proc SPIE Int Soc Opt Eng, 2017, 10133:101330L.doi:10.1117/12.2254736.
[13] Xu G, Takahashi E, Folkerth RD, et al. Radial coherence of diffusion tractography in the cerebral white matter of the human fetus: neuroanatomic insights [J]. Cereb Cortex, 2014, 24(3): 579-592.
[14] Martínez-Heras E, Varriano F, Prckovska V, et al. Improved framework for tractography reconstruction of the optic radiation [J]. PLoS One, 2015,10(9): e0137064. doi:10.1371/journal.pone.0137064.
[15] Katorza E, Strauss G, Cohen R, et al. Apparent diffusion coefficient levels and neurodevelopmental outcome in fetuses with brain MR imaging white matter hyperintense signal [J]. AJNR Am J Neuroradiol, 2018, 39(10): 1926-1931.
[16] Kulikova S, Hertz-Pannier L, Dehaene-Lambertz G, et al. Multi-parametric evaluation of the white matter maturation [J]. Brain Struct Funct, 2015, 220(6): 3657-3672.
[17] Song JW, Mitchell PD, Kolasinski J, et al. Asymmetry of white matter pathways in developing human brains [J]. Cereb Cortex, 2015, 25(9): 2883-2893.
[18] Neal JB, Filippi CG, Mayeux R. Morphometric variability of neuroimaging features in children with agenesis of the corpus callosum [J]. BMC Neurol, 2015, 15: 116. doi:10.1186/s12883-015-382-5.
[19] Ocklenburg S, Friedrich P, Güntürkün O, Gen E. Intrahemispheric white matter asymmetries: the missing link between brain structure and functional lateralization [J]. Rev Neurosci, 2016, 27(5): 465-480.
[20] Telford EJ, Cox SR, Fletcher-Watson S, et al. A latent measure explains substantial variance in white matter microstructure across the newborn human brain [J]. Brain Struct Funct, 2017, 222(9): 4023-4033.
[21] Ciliz M, Sartor J, Lindig T, et al. Brain-Area specific white matter hyperintensities: associations to falls in Parkinson's Disease [J]. J Parkinsons Dis, 2018, 8(3): 455-462.
[22] Jolles D, Wassermann D, Chokhani R, et al. Plasticity of left perisylvian white-matter tracts is associated with individual differences in math learning [J]. Brain Struct Funct, 2016, 221(3): 1337-1351.
[23] Briggs RG, Chakraborty AR, Anderson CD, et al. Anatomy and white matter connections of the inferior frontal gyrus [J]. Clin Anat, 2019, 32(4): 546-556.
[24] Tokariev A, Stjerna S, Lano A, et al. Preterm Birth Changes Networks of Newborn Cortical Activity [J]. Cereb Cortex, 2019, 29(2): 814-826.
[25] Wheelock MD, Austin NC, Bora S, et al. Altered functional network connectivity relates to motor development in children born very preterm [J]. Neuroimage, 2018, 183: 574-583. doi:10.1016/j.neuroimage.2018.08.051.
[1] ZOU Liping, HE Yujing, XIE Yuanzhong, ZHAO Jianyun, XU Chunhua, MA Yongsheng, LI Chuanbin, LIU Xiaoxue, LIU Chong, ZHAO Xiaodong, SUN Hongyun. Time distribution and influencing factors of hepatitis B vaccine birth dose in 1,614 newborns of HBsAg positive women, Jinan City [J]. Journal of Shandong University (Health Sciences), 2022, 60(11): 113-120.
[2] WANG Lifeng, LI Zheng, YÜ Qiaowen. MR-diffusion tensor image and diffusion kurtosis image of spatio-temporal development of new-born cerebral cortex [J]. Journal of Shandong University (Health Sciences), 2019, 57(9): 97-103.
[3] CHEN Dong, LI Xiaoying, MA Jing, WANG Yunfeng, ZHANG Wen. Applications of electronic bronchoscope in diagnosis and treatment of dyspnea in newborns [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2016, 54(8): 84-87.
[4] ZHUANG Genmiao, TANG Ling, ZANG Lijiao, AN Li. Correlation between serum prealbumin and neonatal behavioral neurological assessment of hypoxic-ischemic encephalopathy in neonates [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2016, 54(12): 37-40.
[5] MENG Lin-lin1,WANG Qing1, LI Yi-fang2, WANG Fang1, WANG Qian1, LI Wen1,MA Xiang-xing1. Application of MR ASL perfusion weighted imaging in the diagnosis of full-term neonatal hypoxic ischemic encephalopathy [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2014, 52(2): 65-68.
[6] GU Qing-ping, QI Zi-hua. Application of diffusion tensor and fiber tractography imaging of 3.0 magnetic
 resonance in the diagnosis of musculoskeletal tumors in lower limbs [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2012, 50(3): 113-.
[7] GUO Wei1, XU Qun2, SHAO Chao-peng3. RhD isoimmunization analysis of 304 RhD-negative pregnant and lyingin women   [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2010, 48(11): 94-97.
[8] FANG Ying-li,LIU Ai-ting,ZHOU Wen. Relationship between time and concentration of Lacto-tinidazole after drug combination [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2008, 46(8): 815-818.
[9] MA Jing,ZHU Wei-wei,LUO Huan-hua,YAO Ping-bo. Effect of NEP1-40 and GM-1 on hypoxic ischemic brain damage in newborn rats [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2008, 46(3): 240-244.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] JIANG Bao-dong,MA Xiang-xing,WANG Qing,WANG Qian,FENG Xiao-yuan,LI Ke,YU Fu-hua. Imaging parameters of multislice spiral CT venography in cerebral veins[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2008, 46(11): 1084 -1086 .
[2] TANG Fang1,2, ZHANG Yingqian3, WANG Zhiqiang4, KANG Dianmin4,
WANG Jiezhen1, XUE Fuzhong1. A 2D minimal spanning tree model of the spatial structures of natural focal disease[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2009, 47(01): 106 -110 .
[3] ZHU Xiaoli1, GUO Shuling1, SU Lei1, FENG Yuxin2, YUAN Fangshu1. Extraction of total proteins from demodex and qualification of their molecular weights[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2014, 52(5): 58 -62 .
[4] LI Wei,LI Dao-wei,YE Qian,GAO Shun-cui,JIANG Shu-juan.

Diagnostic value of transbronchial needle aspiration in paratracheal mediastinal lesions

[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2008, 46(11): 1063 -1065 .
[5] LYU Longfei, LI Lin, LI Shuhai, QI Lei, LU Ming, CHENG Chuanle, TIAN Hui. Application of laparoscopic fine needle catheter jejunostomy in minimally invasive McKeown resection of esophageal cancer[J]. Journal of Shandong University (Health Sciences), 2020, 1(7): 77 -81 .
[6] SHAO Haigang, WANG Xuan, WANG Qing. Anatomy of the root canal system of mandibular first premolar in population of Shandong Province[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2014, 52(9): 85 -89 .
[7] LIU Hai-Chun, ZHANG Jian-Feng, CHEN Yuan-zhen. Bone collagen and biomechanical propertyies in the femur of osteoporosis rats[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2009, 47(5): 42 -45 .
[8] FENG Fuli1, WEI Shuzhen2, ZHANG Yonghuan3, LI Li1, CHEN Rong1, LIRuifeng1. Relationship between high mortality and altered expression of Klotho in insulin resistance rats[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2010, 48(6): 5 -8 .
[9] ZHONG Nv-juan1, SONG Yong-mei2, LIU Gengsheng2, XUE Fu-zhong1, LIU Yan-xun1. Construction and application of the Bayes network model in
traditional Chinese medicine elements[J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2012, 50(2): 157 .
[10] WANG Xu-ping,ZHAO Ling,FENG Yu-xin,SHANG Lin-shan,LIU Jin-cheng,. [J]. JOURNAL OF SHANDONG UNIVERSITY (HEALTH SCIENCES), 2006, 44(6): 564 -567 .
Copyright 2018 © Editorial office of Journal of Shandong University (Health Sciences)
Supported by Beijing Magtech Co.Ltd