ライフサイエンスコーパス: diffusion tensor magnetic resonance imaging

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1 sures were compared with imaging findings on diffusion tensor magnetic resonance imaging.

2 oss sections, as measured by high-resolution diffusion tensor magnetic resonance imaging.

3 of the brain geometry from patient-specific diffusion tensor magnetic resonance imaging.

4 -based analysis and fiber tractography using diffusion tensor magnetic resonance imaging.

5 e water self-diffusion tensor as measured by diffusion tensor magnetic resonance imaging.

6 trols, using two complementary approaches to diffusion tensor magnetic resonance imaging.

7 easured with fractional anisotropy (FA) from diffusion tensor magnetic resonance imaging.

8 s result to mean that both microdialysis and diffusion tensor magnetic resonance imaging accurately r

9 Diffusion tensor magnetic resonance imaging and relaxome

10 n white matter microstructure was studied by diffusion tensor magnetic resonance imaging at baseline

11 ain extracellular space correlated well with diffusion tensor magnetic resonance imaging-based measur

12 Diffusion tensor magnetic resonance imaging data from 11

13 Diffusion tensor magnetic resonance imaging data were ac

14 ermined using region of interest analyses of diffusion tensor magnetic resonance imaging data.

15 Using diffusion tensor magnetic resonance imaging (DTI) to ana

16 We used diffusion tensor magnetic resonance imaging (DTI) to ass

17 nt studies on human acallosal patients using diffusion tensor magnetic resonance imaging (DTMRI) tech

18 DYT1 and DYT6 carriers also underwent diffusion tensor magnetic resonance imaging for the asse

19 Diffusion tensor magnetic resonance imaging has been use

20 However, neither microdialysis nor diffusion tensor magnetic resonance imaging have been va

21 reatment in neonatal mice was analyzed using diffusion tensor magnetic resonance imaging, immunohisto

22 cation to classical disconnection syndromes, diffusion tensor magnetic resonance imaging is becoming

23 Diffusion tensor magnetic resonance imaging (MRI) was us

24 d for structural and functional injury using diffusion tensor magnetic resonance imaging (MRI), elect

25 in schizophrenia with voxelwise analysis of diffusion tensor magnetic resonance imaging (MRI).

26 yzed wild-type and Fz3(-/-) brains using (1) diffusion tensor magnetic resonance imaging (muDTI), (2)

27 1 mutation carriers underwent volumetric and diffusion tensor magnetic resonance imaging, neuropsycho

28 rriers and 21 non-carrier controls underwent diffusion tensor magnetic resonance imaging, neuropsycho

29 s suggest that three-dimensional analysis of diffusion tensor magnetic resonance imaging provides a s

30 The application of submillimeter diffusion tensor magnetic resonance imaging provides an

31 Diffusion tensor magnetic resonance imaging scans at 3 T

32 we have developed a customized 3-dimensional diffusion tensor magnetic resonance imaging sequence on

33 ies in white matter integrity, measured with diffusion tensor magnetic resonance imaging, that are al

34 To address this, we employed diffusion tensor magnetic resonance imaging to explore t

35 The present study used diffusion tensor magnetic resonance imaging to investiga

36 e the advantages and limitations of applying diffusion tensor magnetic resonance imaging to the study

37 Diffusion tensor magnetic resonance imaging tractography

38 mia and cell therapy, with the use of serial diffusion tensor magnetic resonance imaging tractography

39 ues for tracing connections in vivo, such as diffusion tensor magnetic resonance imaging tractography

40 With diffusion tensor magnetic resonance imaging tractography

41 isylvian language connectivity using in vivo diffusion tensor magnetic resonance imaging tractography

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