1.Corticospinal tract degeneration in amyotrophic lateral sclerosis: a diffusion tensor imaging and fibre tractography study.
Hong YIN ; Sandy H T CHENG ; Jian ZHANG ; Lin MA ; Yuangui GAO ; Dejun LI ; C C Tchoyoson LIM
Annals of the Academy of Medicine, Singapore 2008;37(5):411-415
INTRODUCTIONMotor neuron damage and cortical spinal tract (CST) degeneration in amyotrophic lateral sclerosis (ALS) are difficult to visualise and quantify on conventional magnetic resonance imaging (MRI).
CLINICAL PICTUREWe studied 8 ALS patients and 12 normal volunteers using diffusion tensor imaging (DTI) and fibre tractography using fibre assignment by continuous tracking (FACT) to study the fibres of the CST and the posterior thalamic radiation (PTR), a nonmotor tract.
OUTCOMEFibre tractography was successfully performed in all normal volunteers and all patients except 1. The fibre bundles of the CST, but not the PTR, were significantly reduced (P <0.05) in patients compared to normal volunteers.
CONCLUSIONFibre tractography can visualise axonal degeneration in the CST and may provide supplementary information about upper motor neuron disease in ALS patients.
Amyotrophic Lateral Sclerosis ; pathology ; Case-Control Studies ; Diffusion Magnetic Resonance Imaging ; Echo-Planar Imaging ; Female ; Humans ; Male ; Middle Aged ; Nerve Degeneration ; pathology ; Pyramidal Tracts ; pathology
2.Role of diffusion tensor imaging in neuronavigation surgery of brain tumors involving pyramidal tracts.
Jin-song WU ; Liang-fu ZHOU ; Xun-ning HONG ; Ying MAO ; Gu-hong DU
Chinese Journal of Surgery 2003;41(9):662-666
OBJECTIVETo explore the role of diffusion tensor imaging (DTI) in neuronavigation surgery of brain tumors involving pyramidal tracts.
METHODSForty-nine patients with brain tumors involving pyramidal tracts were randomly divided into trial group (DTI navigation) and control group (traditional navigation). The patients in trial group underwent DTI and T1 weighted 3D navigational magnetic resonance imaging (MRI) studies. The main white matter tracts were constructed by the DTI datasets, and merged to the anatomical structure, which was delineated by the T1-weighted three-dimensional fast spoiled gradient recalled sequence (3D/FSPGR). The relationship between the tumors and adjacent pyramidal tracts were segmented and reconstructed for three-dimensional visualization.
RESULTSIn 25 patients of trial group and 24 patients of control group, the statistic analysis confirmed well balance of main variations. The tumors were completely resected in 12 patients (50.0%) of control group and in 20 patients (80.0%) of trial group (P < 0.05). Postoperative aggravated contralateral extremities weakness or hemiplegia due to pyramidal tract injury occurring in 75.0% cases of control group whereas only 20.0% patients in trial group (P < 0.01). The mean Karnofsky scale were 69.58 +/- 23.49 and 84.80 +/- 23.49 respectively in control and trial groups (P < 0.05). The excellent outcome ratio (Karnofsky scale = 90 - 100) was 37.5% in control group and 72.0% in trial group respectively (P < 0.05).
CONCLUSIONSDTI allows individual estimation of large fiber tracts of brain. Furthermore, to integrate spatial three-dimensional information concerning the white matter tracts into traditional neuronavigation images during surgery, was valuable in presenting topographical character of involving (shift or erosive) pyramidal tracts and relationship with the margins of neighboring tumors. The mapping of large fiber tracts was a safe, efficient, reliable technique. DTI should be routinely used in neuronavigation surgery of brain tumor involving pyramidal tracts to plan the optimal trajectory and ensure total resection of the lesions during operation, as well as to decrease potential disability after operation and to shorten the length of hospitalization.
Adolescent ; Adult ; Aged ; Brain Neoplasms ; pathology ; surgery ; Child ; Diffusion Magnetic Resonance Imaging ; methods ; Female ; Humans ; Imaging, Three-Dimensional ; Male ; Middle Aged ; Neuronavigation ; methods ; Pyramidal Tracts ; pathology
3.Corticospinal Tract Compression by Hematoma in a Patient with Intracerebral Hemorrhage: A Diffusion Tensor Tractography and Functional MRI Study.
Sung Ho JANG ; Yong Hyun KWON ; Mi Young LEE ; Sang Ho AHN ; Joong Hwi KIM ; Dong Hoon JEONG ; Byung Yeun CHOI ; Dong Gyu LEE
Yonsei Medical Journal 2006;47(1):135-139
The purpose of this study was to demonstrate corticospinal tract compression that was due to a hematoma by using diffusion tensor tractography (DTT) and functional MRI (fMRI) in a patient with an intracerebral hemorrhage (ICH). A 23-year-old right-handed woman presented with severe paralysis of her right extremities at the onset of a spontaneous ICH. Over the first three days from onset, the motor function of the affected upper and lower extremities rapidly recovered to the extent that she was able to overcome applied resistance to the affected limbs, and her limbs regained normal function 3 weeks after onset. The tract of the right hemisphere originated from the primary sensori-motor cortex (SM1) and it passed through the known corticospinal tract pathway. However, the tract of the left hemisphere was similar to that of the right hemisphere except that it was displaced to the antero-medial side by the hematoma at the cerebral peduncle. Only the contralateral SM1 area centered on the precentral knob was activated during affected (right) or unaffected (left) hand movements, respectively. In conclusion, fMRI and DTT demonstrated a corticospinal tract compression due to hematoma in this patient. We conclude that the combined use of these two modalities appears to improve the accuracy of investigating the state of the corticospinal tract.
Spinal Cord Compression/complications/*diagnosis/pathology
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Pyramidal Tracts/*pathology
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*Magnetic Resonance Imaging
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Humans
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Hematoma/complications/*diagnosis/pathology
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Female
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Diffusion Magnetic Resonance Imaging/*methods
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Cerebral Hemorrhage/complications/*diagnosis/pathology
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Adult
4.Proton Magnetic Resonance Spectroscopic Changes of the Primary Motor Cortex and Supplementary Motor Area in Hemiparetic Patients with Corticospinal Tract Injury due to Deep Intracerebral Hematoma.
Dong Joon YANG ; Byung Chul SON ; Hyun Man BAIK ; Sang Won LEE ; Jae Hoon SUNG ; Bo Young CHOE
Journal of Korean Medical Science 2004;19(5):744-749
This study was conducted to investigate the metabolic changes in the motor and motor association cortices following axonal injury in the internal capsule that was caused by deep intracerebral hematoma. Using proton magnetic resonance spectroscopy (1H MRS), the authors studied the primary motor cortices (M-1) and sup-plementary motor areas (SMA) of 9 hemiparetic patients with documentable hemi-paresis of varying severity, and we studied 10 normal volunteers as controls. To measure the M-1 and SMA biochemical changes, 4 separate single volumes of inter-est(VOIs) were located bilaterally in the affected and unaffected hemisphere (AH and UH).1H MRS provided a neuronal and axonal viability index by measuring levels of N-acetylaspartate (NAA) and creatine/phosphocreatine (Cr). The M-1/SMA NAA/Cr ratios of the AH and UH in patients, and the AH and normal volunteers were com-pared. The NAA/Cr ratios of the M-1 and SMA in AH, and the SMA in UH were sig-nificantly lower than those of normal volunteers. These 1H MRS findings indicate that axonal injury in the descending motor pathway at the level of internal capsule could induce metabolic changes in the higher centers of the motor pathway.
Adult
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Aged
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Aged, 80 and over
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Aspartic Acid/*analogs & derivatives/metabolism
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Basal Ganglia Hemorrhage/metabolism/*pathology
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Creatine/metabolism
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Female
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Humans
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*Magnetic Resonance Spectroscopy
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Male
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Middle Aged
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Motor Cortex/metabolism/*pathology
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Paresis/metabolism/*pathology
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Phosphocreatine/metabolism
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Protons
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Pyramidal Tracts/metabolism/*pathology
5.Comprehensive therapeutics targeting the corticospinal tract following spinal cord injury.
An-Kai XU ; Zhe GONG ; Yu-Zhe HE ; Kai-Shun XIA ; Hui-Min TAO
Journal of Zhejiang University. Science. B 2019;20(3):205-218
Spinal cord injury (SCI), which is much in the public eye, is still a refractory disease compromising the well-being of both patients and society. In spite of there being many methods dealing with the lesion, there is still a deficiency in comprehensive strategies covering all facets of this damage. Further, we should also mention the structure called the corticospinal tract (CST) which plays a crucial role in the motor responses of organisms, and it will be the focal point of our attention. In this review, we discuss a variety of strategies targeting different dimensions following SCI and some treatments that are especially efficacious to the CST are emphasized. Over recent decades, researchers have developed many effective tactics involving five approaches: (1) tackle more extensive regions; (2) provide a regenerative microenvironment; (3) provide a glial microenvironment; (4) transplantation; and (5) other auxiliary methods, for instance, rehabilitation training and electrical stimulation. We review the basic knowledge on this disease and correlative treatments. In addition, some well-formulated perspectives and hypotheses have been delineated. We emphasize that such a multifaceted problem needs combinatorial approaches, and we analyze some discrepancies in past studies. Finally, for the future, we present numerous brand-new latent tactics which have great promise for curbing SCI.
Animals
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Astrocytes/cytology*
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Axons/physiology*
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Cell Transplantation
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Disease Models, Animal
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Electric Stimulation
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Humans
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Microglia/cytology*
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Motor Neurons/cytology*
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Nerve Regeneration
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Neuroglia/cytology*
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Neuronal Plasticity
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Neurons/cytology*
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Oligodendroglia/cytology*
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Pyramidal Tracts/pathology*
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Recovery of Function
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Regenerative Medicine/methods*
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Spinal Cord Injuries/therapy*
6.Magnetic resonance diffusion tensor imaging for diagnosis of pyramidal tract damage in rats.
Shang-Xun LI ; Dai SHAN ; Yi-Jie DUAN ; Jing-Jun XING ; Yang DING ; Yi-Wu ZHOU
Journal of Forensic Medicine 2012;28(4):256-268
OBJECTIVE:
To explore the applicability of magnetic resonance diffusion tensor imaging (DTI) for diagnosis of pyramidal tract damage in rats.
METHODS:
Marmarou's model was set up, followed by DTI scanning at 3, 12, 24 and 72 h post trauma to acquire the dispersion parameter of bilateral pyramidal tracts. Moreover, axonal varicosities per square millimeter and the percentage of positive area of axons demonstrated by beta-amyloid precursor protein (beta-APP) immunostaining were obtained, as well as the mean density and sum density of neurofilament (NF) 68 immunostaining.
RESULTS:
Axial diffusivity (AD), fraction anisotropy (FA) and relative anisotropy (RA) in the pyramidal tract were significantly and continuously reduced and reached to the bottom at 72h post trauma (P < 0.05) in accord with the gradient of axonal damage verified by beta-APP and NF68 immunostaining. Furthermore, the changes of AD, FA and RA showed a significant negative correlation with the beta-APP immunohistochemical results.
CONCLUSION
DTI has important value for early diagnosis in pyramidal tract damage.
Amyloid beta-Protein Precursor/metabolism*
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Animals
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Anisotropy
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Axons/pathology*
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Brain/pathology*
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Brain Injuries/pathology*
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Diffusion Magnetic Resonance Imaging/methods*
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Disease Models, Animal
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Image Processing, Computer-Assisted
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Male
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Neurofilament Proteins/metabolism*
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Pyramidal Tracts/pathology*
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Rats
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Rats, Sprague-Dawley
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Severity of Illness Index
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Time Factors