scholarly journals Deafferentation-Induced Plasticity of Visual Callosal Connections: Predicting Critical Periods and Analyzing Cortical Abnormalities Using Diffusion Tensor Imaging

2012 ◽  
Vol 2012 ◽  
pp. 1-18 ◽  
Author(s):  
Jaime F. Olavarria ◽  
Andrew S. Bock ◽  
Lindsey A. Leigland ◽  
Christopher D. Kroenke
Keyword(s):  
Diffusion Tensor Imaging ◽  
Critical Period ◽  
Diffusion Tensor ◽  
Close Association ◽  
Developmental Trajectory ◽  
Critical Periods ◽  
Callosal Connections ◽  
Retinal Input ◽  
The Relationship ◽  
Potential Tool

Callosal connections form elaborate patterns that bear close association with striate and extrastriate visual areas. Although it is known that retinal input is required for normal callosal development, there is little information regarding the period during which the retina is critically needed and whether this period correlates with the same developmental stage across species. Here we review the timing of this critical period, identified in rodents and ferrets by the effects that timed enucleations have on mature callosal connections, and compare it to other developmental milestones in these species. Subsequently, we compare these events to diffusion tensor imaging (DTI) measurements of water diffusion anisotropy within developing cerebral cortex. We observed that the relationship between the timing of the critical period and the DTI-characterized developmental trajectory is strikingly similar in rodents and ferrets, which opens the possibility of using cortical DTI trajectories for predicting the critical period in species, such as humans, in which this period likely occurs prenatally. Last, we discuss the potential of utilizing DTI to distinguish normal from abnormal cerebral cortical development, both within the context of aberrant connectivity induced by early retinal deafferentation, and more generally as a potential tool for detecting abnormalities associated with neurodevelopmental disorders.

scholarly journals Application of multishot diffusion tensor imaging in spinal cord tumors

2019 ◽  
Vol 5 (1) ◽  
pp. 59-64
Author(s):  
Jiefei Li ◽  
Le He ◽  
Yuqi Zhang
Keyword(s):  
Spinal Cord ◽  
Diffusion Tensor Imaging ◽  
Diffusion Tensor ◽  
Preoperative Imaging ◽  
Spinal Cord Tumors ◽  
Intramedullary Tumors ◽  
Routine Magnetic Resonance Imaging ◽  
Relationship Of ◽  
The Relationship ◽  
Diffusion Tensor Imaging Dti

Objective: To explore the usefulness of multishot diffusion tensor imaging (DTI) for evaluating the neurological function of patients with spinal cord tumors Methods: Routine magnetic resonance imaging and multishot DTI were performed in five patients with spinal cord tumors. The values of fractional anisotropy (FA) and radial diffusivity (RD) were analyzed. Results: Multishot DTI of spinal cord tumors allowed for defining the margins of tumors and determining the relationship of tumors with the adjacent white matter structures of the spinal cord. Multishot DTI demonstrated significantly increased RD and decreased FA of spinal cord tumors compared with those of the normal spinal cord. Conclusions: Multishot DTI is a potentially useful modality for differentiating resectable tumors from nonresectable ones based on preoperative imaging alone as well as for differentiating intramedullary tumors from extramedullary ones. Further prospective studies are warranted to confirm these results.

Diffusion Tensor Imaging of Brain Tumours at 3T: A Potential Tool for Assessing White Matter Tract Invasion?

2003 ◽  
Vol 58 (6) ◽  
pp. 455-462 ◽  
Author(s):  
S.J. Price ◽  
N.G. Burnet ◽  
T. Donovan ◽  
H.A.L. Green ◽  
A. Peña ◽  
...  
Keyword(s):  
Diffusion Tensor Imaging ◽  
White Matter ◽  
Brain Tumours ◽  
Diffusion Tensor ◽  
White Matter Tract ◽  
Potential Tool

scholarly journals The relationship between diffusion tensor imaging and volumetry as measures of white matter properties

NeuroImage ◽  
2008 ◽  
Vol 42 (4) ◽  
pp. 1654-1668 ◽  
Author(s):  
Anders M. Fjell ◽  
Lars T. Westlye ◽  
Doug N. Greve ◽  
Bruce Fischl ◽  
Thomas Benner ◽  
...  
Keyword(s):  
Diffusion Tensor Imaging ◽  
White Matter ◽  
Diffusion Tensor ◽  
The Relationship

scholarly journals Developmental trajectory of the prefrontal cortex: a systematic review of diffusion tensor imaging studies

2017 ◽  
Vol 12 (4) ◽  
pp. 1197-1210 ◽  
Author(s):  
Sónia S. Sousa ◽  
Edson Amaro ◽  
Alberto Crego ◽  
Óscar F. Gonçalves ◽  
Adriana Sampaio
Keyword(s):  
Systematic Review ◽  
Prefrontal Cortex ◽  
Diffusion Tensor Imaging ◽  
Diffusion Tensor ◽  
Developmental Trajectory ◽  
Imaging Studies

scholarly journals Evaluation of Brainstem Subcortical Auditory Pathways with Diffusion Tensor Imaging After Gamma Knife Radiosurgery in Intracanalicular Vestibular Schwannoma

2021 ◽  
Author(s):  
Dilek Hacer Çeşme ◽  
Alpay Alkan ◽  
Mehmet Ali Gültekin ◽  
Lütfullah Sarı ◽  
Gökberk Alkan ◽  
...  
Keyword(s):  
Diffusion Tensor Imaging ◽  
Tumor Volume ◽  
Diffusion Tensor ◽  
Gamma Knife Radiosurgery ◽  
Response To Treatment ◽  
Auditory Pathways ◽  
Significant Difference ◽  
Before And After ◽  
Adc Values ◽  
The Relationship

Objective: To investigate changes in DTI (Diffusion Tensor Imaging) parameters in brainstem subcortical auditory pathways after Gamma Knife Radiosurgery (GKR) in patients with intracanalicular vestibular schwannoma (ICVS) and to analyze the relationship between tumor volume and ADC (apparent diffusion coefficient) and FA (fractional anisotropy) values. Method: Seventeen patients with ICVS were evaluated before and after GKR. ADC and FA values of the lateral lemniscus (LL) and inferior colliculus (IC) and tumor volume were calculated. Patients who responded to GKR were classified as Group 1 and those who did not respond adequately as Group 2. The relationship between ADC and FA values and changes in tumor volume were analyzed. Results: Tumor volume significantly decreased after GKR. ADC values obtained from the tumor increased after GKR (p: 0.002). There was no significant difference in LL and IC before and after GKR in terms of FA and ADC values (n: 17). There was a positive correlation between response to treatment and contralateral LL ADC values after GKR (p=0.005, r: 0.652). There was a negative correlation between contralateral IC FA values after GKR and response to treatment (p=0.017, r: -0.568). There was a significant difference between Groups 1 and 2 in regards to contralateral LL ADC (p=0.03) and IC FA values (p=0.017). Conclusion: Since the cochlear nerve and subcortical auditory pathways have low regeneration potential after nerve damage, ADC and FA changes in LL and IC may be explained with the presence of intracanalicular tumors prior to GKR. Since GKR does not cause additional damage to the subcortical auditory pathways at the brainstem level, we think that GKR is a noninvasive treatment method that can be used safely in patients with ICVS.

Temperature measurement of intracranial cerebrospinal fluid using second-order motion compensation diffusion tensor imaging

2021 ◽  
Author(s):  
Shuhei Shibukawa ◽  
Tetsu Niwa ◽  
Tosiaki Miyati ◽  
Tetsuo Ogino ◽  
Daisuke Yoshimaru ◽  
...  
Keyword(s):  
Cerebrospinal Fluid ◽  
Diffusion Tensor Imaging ◽  
Motion Compensation ◽  
Diffusion Tensor ◽  
Human Study ◽  
Second Order ◽  
Phantom Study ◽  
System A ◽  
Magnetic Resonance Imaging Mri ◽  
The Relationship

Abstract AbstractTo reduce the determination errors of CSF pulsation in diffusion-weighted image (DWI) thermometry, we investigated whether applying second-order motion compensation diffusion tensor imaging (2nd-MC DTI) and fractional anisotropy (FA) processing improves the measurement of intracranial cerebrospinal fluid (CSF) temperature. In a phantom study, we investigated the relationship between temperature and FA in artificial CSF (ACSF) to determine the threshold for FA processing. The temperatures of ACSF were compared with those of water. In a human study, 18 healthy volunteers were scanned using conventional DTI (c-DTI) and 2nd-MC DTI on a 3.0T magnetic resonance imaging (MRI) system. A temperature map was created using diffusion coefficients from each DWI with/without FA processing. The temperatures of intracranial CSF were compared between each DTI image using Welch’s analysis of variance and Games–Howell’s multiple comparisons. In the phantom study, FA did not exceed 0.1 at any temperature. Consequently, pixels exceeding the threshold of 0.1 were removed from the temperature map. Intracranial CSF temperatures significantly differed between the four methods (p < 0.0001). The lowest temperature was 2nd-MC DTI with FA processing (mean, 35.62℃), followed in order by c-DTI with FA processing (mean, 36.16℃), 2nd-MC DTI (mean, 37.08℃), and c-DTI (mean, 39.08℃; p < 0.01 for each). Because the temperature of ACSF was estimated to be lower than that of water, the temperature of 2nd-DTI with FA processing was considered reasonable. The method of 2nd-MC DTI with FA processing enabled determining intracranial CSF temperature with a reduction in CSF pulsation.

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