弥散张量纤维成像检测大脑半球弓形束曲率.pdf

1、NEURAL REGENERATION RESEARCH Volume 8,Issue 3,January 2013 doi:10.3969/j.issn.1673-5374.2013.03.006 www.nrronline.org;www.sjzsyj.org Lee DH,Hong CP,Kwon YH,Hwang YT,Kim JH,Park JW.Curvature range measurements of the arcuate fasciculus using diffusion tensor tractography.Neural Regen Res.2013;8(3):24

2、4-250.244 www.nrronline.org Dong Hoon Lee,Studying for doctorate.Corresponding author:Ji Won Park,Ph.D.,P.T.,Associate professor,Department of Physical Therapy,College of Medical Science,Catholic University of Daegu,330 Geumrak 1-ri,Hayang-eup,Gyeongsan-si,Gyeongbuk 712-702,Republic of Korea,mylovep

3、t.Received:2012-11-06 Accepted:2012-12-29 (N20121105007/H)Curvature range measurements of the arcuate fasciculus using diffusion tensor tractography*Dong Hoon Lee1,Cheol Pyo Hong1,Yong Hyun Kwon2,Yoon Tae Hwang3,Joong Hwi Kim4,Ji Won Park4 1 Department of Radiological Science,College of Health Scien

4、ce,Yonsei University,Gangwondo 220-710,Republic of Korea 2 Department of Physical Therapy,Yeungnam College of Science&Technology,Daegu 705-703,Republic of Korea 3 Department of Physical Therapy,Gangneung Yeongdong College,Gangwondo 210-792,Republic of Korea 4 Department of Physical Therapy,College o

5、f Medical Science,Catholic University of Daegu,Gyeongsan-si,Gyeongbuk 712-702,Republic of Korea Abstract Because Brocas area and Wernickes area in the brain are connected by the arcuate fasciculus,understanding the anatomical location and morphometry of the arcuate fasciculus can help in the treatme

6、nt of patients with aphasia.We measured the horizontal and vertical curvature ranges of the arcuate fasciculus in both hemispheres in 12 healthy subjects using diffusion tensor tractography.In the right hemisphere,the direct curvature range and indirect curvature range values of the arcuate fascicul

7、us horizontal part were 121.13 5.89 and 25.99 3.01 degrees,respectively,and in the left hemisphere,the values were 121.83 5.33 and 27.40 2.96 degrees,respectively.In the right hemisphere,the direct curvature range and indirect curvature range values of the arcuate fasciculus vertical part were 43.97

8、 7.98 and 30.15 3.82 degrees,respectively,and in the left hemisphere,the values were 39.39 4.42 and 24.08 4.34 degrees,respectively.We believe that the measured curvature ranges are important data for localization and quantitative assessment of specific neuronal pathways in patients presenting with

9、arcuate fasciculus abnormalities.Key Words neural regeneration;neuroimaging;clinical practice;diffusion tensor tractography;diffusion tensor imaging;arcuate fasciculus;direct curvature range;indirect curvature range;anatomical location;quantitative information;aphasia;Brocas area;Wernickes area;arch

10、ed fiber;grant-supported paper;photographs-containing paper;neuroregeneration Research Highlights(1)In this study,the anatomical location and quantitative information on the arcuate fasciculus was provided to help in the treatment of arcuate fasciculus disease.Measurement of curvature range is impor

11、tant for more accurately defining the anatomical characteristics of the arcuate fasciculus.(2)The degree of curvature of the arcuate fasciculus vertical part in the left hemisphere was less than that in the right hemisphere,and the variation of the arcuate fasciculus angle in the dominant hemisphere

12、 was less than that in the other hemisphere.(3)The detailed arcuate fasciculus curvature information should facilitate the diagnosis and management of patients with aphasia.The results also provide good preliminary arcuate fasciculus curve shape measurements.Abbreviations DCR,direct curvature range;

13、ICR,indirect curvature range;ROI,region of interest;FA,fractional anisotropyLee DH,et al./Neural Regeneration Research.2013;8(3):244-250.245 INTRODUCTION Human language function is mediated by two brain areas,Brocas area and Wernickes area1-3.A prominent fiber pathway,the arcuate fasciculus,which co

14、nnects these two areas,originates in the temporal lobe,curves around the sylvian fissure,and projects to the frontal lobe.The arcuate fasciculus is directly connected to regions of speech production and comprehension.Therefore,interruption of the arcuate fasciculus pathway leads to specific aphasic

15、deficits1-4.For this reason,clarification of the anatomical location and quantitative assessment of the arcuate fasciculus are important for clinical neuroscience and for the diagnosis of patients with aphasia.In the past,many researchers have attempted to determine the location of the arcuate fasci

16、culus in the human brain1-11.They have often used invasive methods,such as postmortem brain dissection,encephalotomy,and cortical stimulation during surgery7-12.These methods enable the accurate observation of the arcuate fasciculus.However,they have several disadvantages,including being time consum

17、ing and requiring painful surgical procedures.Recently,a number of diffusion tensor imaging-based arcuate fasciculus tractography studies have been reported1-8,13-28.Diffusion tensor imaging is a non-invasive neuroimaging technique that allows the visualization and localization of fiber tracts at th

18、e subcortical level,and is based on the directional diffusion of water in the white matter1-8,19-38.Most diffusion tensor tractography studies have demonstrated asymmetry in the arcuate fasciculus,with the left arcuate fasciculus larger than the right13-16,39-42.However,these studies are limited in

19、their description of the anatomical localization of the arcuate fasciculus and lack quantitative measurements of the fiber tract2,6.Nevertheless,among these studies,a few of them have reported the anatomy and function of the arcuate fasciculus in greater detail2,6.In 2008,Glasser et al 2 reported th

20、at the arcuate fasciculus is divided into two segments,with one terminating in the posterior superior temporal gyrus and the other in the middle temporal gyrus.Hong et al 6 determined the relative location of the arcuate fasciculus by measuring the distance between the fiber tract and the lateral ve

21、ntricle using diffusion tensor tractography.However,measurements of the relative location are limited for describing the accurate anatomical location of the arcuate fasciculus because it is a brain association tract composed of arched fibers1.Therefore,the arcuate fasciculus is curved,and measuremen

22、ts of the curvature are important for the investigation of arcuate fasciculus anatomy.In this study,we used diffusion tensor tractography to track the arcuate fasciculus connections to the cortical regions.The curvature range of the arcuate fasciculus in the human brain was investigated to provide d

23、ata on the anatomical location of the fiber tract.This quantitative information should help in the management of patients with arcuate fasciculus abnormalities.RESULTS Quantitative analysis of subjects All 12 healthy subjects were suitable for final analysis.Curvature range measurements Table 1 show

24、s the direct curvature range(DCR)and indirect curvature range(ICR)values measured for the arcuate fasciculus horizontal and vertical parts from each subject in the left hemisphere.For the subjects,the maximum and minimum values were 132.88/31.56 and 112.56/22.58 degrees for the DCR/ICR of the arcuat

25、e fasciculus horizontal part.For the arcuate fasciculus vertical part,the values were 47.57/32.35 and 32.47/18.12 degrees for the DCR/ICR.Table 2 shows the DCR and ICR values measured for the arcuate fasciculus horizontal and vertical parts from each subject in the right hemisphere.The maximum and m

26、inimum values were 130.52/30.11 and 113.96/21.44 degrees for the DCR/ICR of the arcuate fasciculus horizontal part.For the arcuate fasciculus vertical part,the values were 61.48/36.22 and 33.26/22.11 degrees for the DCR/ICR.Table 1 The arcuate fasciculus curvature range(degree)measurement for each s

27、ubject in the left hemisphere Subject Horizontal part Vertical part DCR ICR DCR ICR 1 113.63 22.58 40.67 20.56 2 132.88 24.07 47.57 29.23 3 121.76 25.32 44.50 27.45 4 112.56 30.07 36.22 22.57 5 121.96 29.23 41.69 18.12 6 120.96 25.02 32.47 18.29 7 125.31 31.56 33.76 32.35 8 124.26 30.73 42.02 27.01

28、9 120.96 28.91 36.35 21.04 10 119.51 27.60 41.58 23.90 11 125.00 29.21 37.57 23.96 12 123.32 24.54 38.34 24.57 Mean SD 121.835.33 27.40 2.96 39.39 4.42 24.08 4.34 DCR:Direct curvature range;ICR:indirect curvature range.Lee DH,et al./Neural Regeneration Research.2013;8(3):244-250.246 The maximum limi

29、t of the angles was 180 degrees.In the right hemisphere,the DCR and ICR of the arcuate fasciculus horizontal part were 121.13 5.89 and 25.99 3.01 degrees,respectively.In the left hemisphere,the values were 121.83 5.33 degrees for the DCR and 27.40 2.96 degrees for the ICR.The DCR and ICR values for

30、the arcuate fasciculus vertical part in the right hemisphere were 43.97 7.98 and 30.15 3.82 degrees,respectively.In the left hemisphere,the values were 39.39 4.42 degrees for the DCR and 24.08 4.34 degrees for the ICR.For the arcuate fasciculus horizontal part curvature ranges,there were no signific

31、ant differences between the DCR and ICR in either hemisphere.However,for the arcuate fasciculus vertical part curvature ranges,there were some differences between the right and left hemispheres.On average,the differences between the two hemispheres for the DCR and ICR for the arcuate fasciculus vert

32、ical part were approximately 4 and 6 degrees,respectively.DISCUSSION The arcuate fasciculus is the most important pathway in the neural processing of human language.Accurate anatomical localization and quantitative in vivo information on the arcuate fasciculus can help treat patients with abnormal l

33、anguage function10,43-46.Neuroscientists have attempted invasive methods in the past to examine the role of the arcuate fasciculus in connecting Brocas and Wernickes language areas in the dominant hemisphere7-11,47-48.Catani et al 47 obtained evidence demonstrating the importance of the arcuate fasc

34、iculus in language processing using arcuate fasciculus lesion models.In 1975,Rasmussen et al 48 examined the arcuate fasciculus using surgery and Duffau et al 8 studied the pathway by performing intraoperative mapping of the subcortical pathways using direct electrical stimulation.However,these meth

35、ods are invasive and can cause discomfort.In this study,we measured the curvature ranges of the arcuate fasciculus and divided them into two partshorizontal and verticalfor final analysis.We found that the mediolateral curvature ranges of the arcuate fasciculus vertical part in both hemispheres were

36、 different from the arcuate fasciculus horizontal part curvature values,and the degree of curvature of the arcuate fasciculus vertical part in the left hemisphere was less than that in the right hemisphere.In conclusion,this study aimed to provide information on the generalized anatomical location o

37、f the arcuate fasciculus and to generate quantitative information on the fiber tract through an examination of the curvature range of the structure in the normal human brain.We believe that the curvature range measurements provide important data for the management of patients who have arcuate fascic

38、ulus disorders.To the best of our knowledge,this is the first study to evaluate and research the curvature values of the arcuate fasciculus in the human brain.Although our results have some limitations with respect to the measurements and region of interest set-up,which are user-dependent operations

39、they provide good preliminary quantitative arcuate fasciculus curvature measurements and present detailed anatomical localization data for the arcuate fasciculus.Future studies will use a combination of functional MRI and diffusion tensor tractography to provide more accurate localization and morph

40、ometric measurements.SUBJECTS AND METHODS Design Neuroimaging,observational study.Time and setting All experiments were performed at the Department of Physical Medicine and Rehabilitation,Yeungnam University Hospital,Republic of Korea in June 2008.Subjects Twelve healthy subjects,nine males and thre

41、e females,aged 39 4.13(range 2650)years were recruited by volunteers advertising at the Yeungnam University Hospital.They had no previous history of neurological or physical disease.Subjects were restricted to Table 2 The arcuate fasciculus curvature range(degree)measurement for each subject in the

42、right hemisphere Subject Horizontal part Vertical part DCR ICR DCR ICR 1 114.55 26.82 46.17 28.71 2 123.96 29.60 61.48 30.85 3 123.21 22.38 46.79 31.22 4 119.52 27.91 43.83 25.77 5 116.19 21.44 54.46 36.22 6 126.21 29.46 40.47 22.11 7 113.96 30.11 33.26 27.80 8 122.47 25.53 47.86 32.08 9 118.09 25.5

43、4 39.95 28.74 10 114.70 22.08 37.36 30.96 11 130.19 26.87 38.40 33.69 12 130.52 24.23 37.67 33.69 Mean SD 121.135.89 25.99 3.01 43.97 7.98 30.15 3.82 DCR:Direct curvature range;ICR:indirect curvature range.Lee DH,et al./Neural Regeneration Research.2013;8(3):244-250.247 right-handed individuals,and

44、handedness was determined using the Edinburg Handedness Inventory49.All subjects understood the purpose of the study and provided written,informed consent prior to participation.The institutional review board of the Yeungnam University Hospital approved the study protocol.Methods Diffusion tensor im

45、aging data acquisition Diffusion tensor imaging data were obtained using a 1.5 T MR scanner(Gyroscan Intera,Philips Healthcare,Best,Netherlands)with a six-channel phased array sensitivity encoding(SENSE)head coil.Each diffusion tensor imaging dataset was acquired with two diffusion-sensitizing gradi

46、ents based on the single-shot spin echo echo-planar imaging pulse sequence.The imaging parameters were as follows:field of view=221 mm 221 mm,repetition time/echo time=10 726/75 ms,matrix=128 128,slice thickness=2.3 mm,and SENSE factor=2.Diffusion weighting was applied along 32 distinct directions w

47、ith a b-value of 1 000 s/mm2.We obtained 6367 contiguous transverse slices covering the entire brain parallel to the anterior and posterior commissure lines with no slice gap6.The diffusion tensor imaging datasets were transferred to a personal computer running a Windows platform,and image distortio

48、n corrections were performed prior to image processing.Image distortion was caused by susceptibility artifacts due to the use of the echo-planar imaging technique and eddy currents due to diffusion gradient changes in diffusion-weighted images.The susceptibility artifacts were reduced using parallel

49、 imaging because a reduction of the phase-encoding steps translated directly into a reduced echo train length that reduces phase error in single-shot echo-planar imaging50-53.Therefore,we used the SENSE parallel imaging technique with a phased array coil to reduce susceptibility artifacts.The effect

50、s of eddy currents and small bulk motion of the head were corrected with 12-mode linear affine registration using each subjects non-diffusion-weighted image(b-value=0 s/mm2)as a template for all diffusion-weighted images52-53.Diffusion tensor imaging data analysis The diffusion tensor imaging datase