BACKGROUND AND PURPOSE: Involvement of the corpus callosum (CC) is reported to be a consistent feature of amyotrophic lateral sclerosis (ALS). We examined the CC pathology using diffusion tensor tractography analysis to identify precisely which fiber bundles are involved in ALS. METHODS: Diffusion tensor imaging was performed in 14 sporadic ALS patients and 16 age-matched healthy controls. Whole brain tractography was performed using the multiple-region of interest (ROI) approach, and CC fiber bundles were extracted in two ways based on functional and structural relevance: (i) cortical ROI selection based on Brodmann areas (BAs), and (ii) the sulcal-gyral pattern of cortical gray matter using FreeSurfer software, respectively. RESULTS: The mean fractional anisotropy (FA) values of the CC fibers interconnecting the primary motor (BA4), supplementary motor (BA6), and dorsolateral prefrontal cortex (BA9/46) were significantly lower in ALS patients than in controls, whereas those of the primary sensory cortex (BA1, BA2, BA3), Broca's area (BA44/45), and the orbitofrontal cortex (BA11/47) did not differ significantly between the two groups. The FreeSurfer ROI approach revealed a very similar pattern of abnormalities. In addition, a significant correlation was found between the mean FA value of the CC fibers interconnecting the primary motor area and disease severity, as assessed using the revised Amyotrophic Lateral Sclerosis Functional Rating Scale, and the clinical extent of upper motor neuron signs. CONCLUSIONS: Our findings suggest that there is some degree of selectivity or a gradient in the CC pathology in ALS. The CC fibers interconnecting the primary motor and dorsolateral prefrontal cortices may be preferentially involved in ALS.
Amyotrophic Lateral Sclerosis* ; Anisotropy ; Brain ; Corpus Callosum* ; Diffusion Tensor Imaging ; Diffusion* ; Humans ; Motor Neuron Disease ; Motor Neurons ; Pathology ; Prefrontal Cortex

The clinical features of cerebral infarction (CI) which cause late post-infarct epilepsy (PIE), are not well understood. We tried to identify the clinical signs which might be associated with late PIE development. We analyzed 60 consecutive patients (PIE group) who had recurrent seizures at least a week after the CI. Neuroradiological findings, clinical features during the acute phase of CI, types of seizures, and the interval between CI and first seizure were analyzed. These data were compared with those of randonly sampled nonepikptic patients with CI (60 patients with CI group). In the epikptic patients who had the history of previous CI (46 patients), hemiparesis was frequent symptom during the acute phase of CI (93.5%). Diabetes mellitus and hypertension were frequent underlying illnesses and were not different between the groups. Heart diseaseswere common in PIE group (40% vs. 13.3%) and correspondingly, the cortical CI involving the superior division of the MCA including motor area was frequent brain pathology (46.7%). Seizures usually began with focamotor activity (50%), but generalized seizure ws also common (35%). In 14 patients, silent CI was identified after the first seizure. Their usual site of CI was subcortical (42.9%), whereas the subcortical CI was infrequent in those with history of CI (13.0%). Acute PIE occurred in six patients and persisted thereafter. These findings suggest that the cortical infarct involving the motor cortex is frequent pathology in the late PIE, that acute PIE may remains as late PIE, and that silent infarct may be an important cause in adult-onset epilepsy.
Brain Diseases ; Cerebral Infarction ; Diabetes Mellitus ; Epilepsy* ; Heart ; Humans ; Hypertension ; Motor Cortex ; Paresis ; Pathology ; Seizures

OBJECTIVE: To explore the geomorphological performance, the characteristics of volume, and the largest signal intension of blood oxygenation level dependent functional magnetic resonance imaging (BOLD-fMRI) in brain tumors located in or closed to the central area. METHODS: We recruited 13 normal volunteers and 31(13 benign tumors and 18 malignant tumors) patients with brain tumor located in or closed to the central area, to examine both side hand motor and tactile function by BOLD-fMRI and obtained the activation map and its superposition image with T1 imaging, the volume, and the largest signal intension of the functional area by SPM software which manipulated the raw data in the off-line work station. The volume and the largest signal intension data of the functional area were statistically analyzed by SPSS 13.0. RESULTS: The volume and the largest signal intension of the activation map in the normal functional area had hemisphere advantage. There was difference in the activated signal pixel number and the largest signal intension of the functional area between the benign brain tumors, malignant brain tumors, and the normal volunteers (P < 0.05). The shape, anatomic location, the volume, and the largest signal intension of the functional area were changed in the patients with brain tumors. CONCLUSION BOLD-fMRI is a valid method to assess the pre-surgical risk of patients with brain tumors, which can get the volume, the largest signal intension, the basic shape,and the anatomic location of the functional area.
Adolescent ; Adult ; Aged ; Brain Neoplasms ; blood ; physiopathology ; Female ; Hand ; physiopathology ; Humans ; Magnetic Resonance Imaging ; methods ; Male ; Middle Aged ; Motor Cortex ; pathology ; physiopathology ; Oxygen ; blood ; Somatosensory Cortex ; pathology ; physiopathology

BACKGROUNDTumor surgery in brain motor functional areas remains challenging. Novel techniques are being developed to gain maximal and safe resection for brain tumor surgery. Herein, we assessed the magnetic resonance diffusion tensor imaging (MR-DTI) and fluorescein sodium dyeing (FLS) guiding technique for surgery of glioma located in brain motor functional areas.

METHODSTotally 83 patients were enrolled according to our inclusion and exclusion criteria (56 patients in experimental group, 27 patients in control group). In the experimental group, the surgical approach was designed by DTI imaging, which showed the relationship between the tumor and motor tract. The range of resection in the operation was determined using the FLS-stained area, which recognized the tumor and its infiltrated tissue. The traditional routine method was used in the control group. Postoperatively, all patients underwent enhanced brain MRI within 72 hours to ascertain the extent of resection. Patients were followed in our outpatient clinic over 6 - 24 months. Neurological deficits and Karnofsky scoring (KPS) were evaluated.

RESULTSThere were no significant differences in balance test indexes of preoperative data (sex, age, lesion location and volume, and neurological deficits before operation) and diagnosis of histopathology between the two groups. There was a trend in the experimental group for greater rates of gross total resection (80.4% vs. 40.7%), and the paralysis rate caused by surgery was lower in experimental (25.0%) vs. control (66.7%) groups (P < 0.05). The 6-month KPS in the low-grade and high-grade gliomas was 91 ± 11 and 73 ± 26, respectively, in the experimental group vs. 82 ± 9 and 43 ± 27, respectively, in the control group (P < 0.05 for both).

CONCLUSIONSMR-DTI and FLS dye guiding for surgery of glioma located in brain motor functional areas can increase the gross total resection rate, decrease the paralysis rate caused by surgery, and improve patient quality of life compared with traditional glioma surgery.

Adolescent ; Adult ; Aged ; Brain Neoplasms ; pathology ; psychology ; surgery ; Diffusion Tensor Imaging ; methods ; Female ; Fluorescein ; Glioma ; pathology ; psychology ; surgery ; Humans ; Male ; Middle Aged ; Motor Cortex ; pathology ; Muscle Strength ; Prognosis

BACKGROUNDBlood oxygen level-dependent (BOLD) functional magnetic resonance imaging (fMRI) plays an important role in identifying functional cortical areas of the brain, especially in patients with gliomas. This study aimed to assess the value of fMRI in presurgical planning and functional outcome of patients with gliomas in the motor cortical areas.

METHODSTwenty-six patients with gliomas in the motor cortex were recruited in the study. Before operation, fMRI was performed in each patient to obtain the mapping of bilateral hands area on the primary sensorimotor cortex. This examination was performed on a 3.0T scanner with a bilateral hands movement paradigm. During microsurgery under awake anesthesia, the motor area was identified using direct electrical stimulation and compared with preoperative mapping. Finally the tumor was resected as much as possible with the motor cortex preserved in each patient. Karnofsky performance status (KPS) was evaluated in all patients before and after operation.

RESULTSTwenty-three patients showed a successful fMRI mapping. Among them, 19 were classified to be grade III; 4, grade II; 3, grade I. The operation time was about 7 hours in the 23 patients, 8.5 hours in the other 3. The pre- and postoperative KPS score was 82.3 +/- 8.6 and 94.2 +/- 8.1, respectively.

CONCLUSIONSPreoperative fMRI of the hand motor area shows a high consistency with intraoperative cortical electronic stimulation. Combined use of the two methods shows a maximum benefit in surgical treatment.

Adult ; Brain Neoplasms ; pathology ; surgery ; Female ; Glioma ; pathology ; surgery ; Humans ; Magnetic Resonance Imaging ; methods ; Male ; Middle Aged ; Motor Cortex ; pathology ; Oxygen ; blood

Transcranial direct current stimulation (tDCS) is associated with enhancement or weakening of the NMDA receptor activity and change of the cortical blood flow. Therefore, repeated tDCS of the brain with cerebrovascular injury will induce the functional and histologic changes. Sixty-one Sprague-Dawley rats with cerebrovascular injury were used. Twenty rats died during the experimental course. The 41 rats that survived were allocated to the exercise group, the anodal stimulation group, the cathodal stimulation group, or the control group according to the initial motor function. Two-week treatment schedules started from 2 days postoperatively. Garcia, modified foot fault, and rota-rod performance scores were checked at 2, 9, and 16 days postoperatively. After the experiments, rats were sacrificed for the evaluation of histologic changes (changes of the white matter axon and infarct volume). The anodal stimulation and exercise groups showed improvement of Garcia's and modified foot fault scores at 16 days postoperatively. No significant change of the infarct volume happened after exercise and tDCS. Neuronal axons at the internal capsule of infarct hemispheres showed better preserved axons in the anodal stimulation group. From these results, repeated tDCS might have a neuroprotective effect on neuronal axons in rat stroke model.
Animals ; Axons/pathology ; Cerebral Cortex/physiology ; Disease Models, Animal ; Electric Stimulation ; Motor Activity/physiology ; Rats ; Rats, Sprague-Dawley ; Stroke/metabolism/*pathology/physiopathology

OBJECTIVEFunctional magnetic resonance imaging (fMRI) was used to detect the cerebral cortical somatotopy during maximum voluntary clenching with and without soft splint in patients with hemimasticatory spasms (HMS) and the central mechanisms of HMS and the rule of the splint therapy.

METHODSFour HMS patients were selected and the spasms sides were right in two cases and left in the other two cases. FMRI images were obtained on Elscint/GE 2.0 Tesla MR system. Block design was used and the movement pattern was the onset of spasms after maximum voluntary clenching with and without soft splint. The fMRI data were analyzed by SPM99 software.

RESULTSWith the onset of spasms after maximum voluntary clenching, the activation of motor cortex in 3 HMS patients was found lateral dominance on the left side, and the other one showed bilateral activation. All the 4 patients were found activation in cingulate area. With the onset of spasms after maximum clenching wearing soft splints, the activation of motor cortex showed no lateral dominance on the left side, and 3 patients were not found activation in cingulate area.

CONCLUSIONSThe changes of the activation in motor cortex and cingulate area during the onset of spasms after clenching with and without soft splint might be the central mechanisms of the rule of splint therapy, through which the soft splint might function in alleviating muscle pain.

Brain ; physiopathology ; Female ; Humans ; Magnetic Resonance Imaging ; methods ; Male ; Masticatory Muscles ; pathology ; physiopathology ; Middle Aged ; Motor Cortex ; physiopathology ; Mouth Protectors ; Muscle Spasticity ; pathology ; physiopathology

OBJECTIVETo compare the relation between the preoperative functional magnetic resonance imaging (fMRI) with blood oxygen level dependent (BOLD) technique and intraoperative motor evoked potential (MEP) monitoring for cortical mapping of primary motor cortex in patients with tumors near the central area. And to determine whether non-invasive preoperative fMRI can provide results equivalent to those achieved with the invasive neurosurgical "gold standard".

METHODSA prospective study of 16 patients with various pathological tumors of the central area was conducted. Preoperative fMRI scans using the BOLD contrast technique in each patient were performed. An activation scan was achieved by using a motor task paradigm, which consisted of simple flexion-extension finger movements and finger-to-thumb touching in a repeating pattern. The anatomical structure was delineated by the T(1)-weighted three-dimensional fast spoiled gradient recalled sequence (3D/FSPGR) immediately afterward. The BOLD images were overlaid on the T(1)-weighted 3D/FSPGR images, and then co-registered to the neuronavigation system. The fMRI activations were documented by using a neuronavigation system in sequence, and compared to standardized intraoperative MEP monitoring, which included direct cortical electrical stimulation (DCES) or transcranial cortical electrical stimulation (TCES) or their combination. The compound muscle action potentials of forearm flexor and hand muscle responses were recorded during either TCES or DCES. Two techniques were compared to determine the accuracy for cortical mapping of primary motor areas with fMRI.

RESULTSOverall, the intraoperative MEP monitoring showed good correlation with fMRI activation in 92.3% of cases. The coincidence rate, however, was 100.0% between TCES and fMRI, and 66.7% between DCES and fMRI respectively. There was no statistically difference between two cortical mapping techniques, chi-square test of paired comparison of enumeration data, P < 0.01.

CONCLUSIONBOLD fMRI was a high sensitive and reliable technique to locate the position of the primary motor areas and their spatial relation with adjacent tumor, especially for the presurgical planning in patients with central area brain tumor.

Adolescent ; Adult ; Brain Neoplasms ; pathology ; physiopathology ; surgery ; Child ; Evoked Potentials, Motor ; Female ; Humans ; Magnetic Resonance Imaging ; methods ; Male ; Middle Aged ; Monitoring, Intraoperative ; Motor Cortex ; pathology ; physiology ; Neuronavigation ; Oximetry ; Prospective Studies ; Transcranial Magnetic Stimulation ; methods

BACKGROUND: Topographic mappings of somatosensory evoked potentials (SEP) on subdural electrodes help identify the motor cortex quickly during chronic subdural recordings or during the operation. We tried to assess the ease and reliability of the routine use of SEP for identification of the sensorimotor cortex depending on pathology and location of the lesion. METHODS: We reviewed 75 SEP studies of 63 patients who needed functional mappings of the sensorimotor area. The phase reversal (PR) of SEP around the 20 msec latency in response to contralateral median nerve stimulations by subdural electrodes was used to identify the position of the central sulcus. The patients included 20 with nonlesional epilepsy, 30 with tumor, 12 with arteriovenous malformation (AVM), and 1 with cavernous angioma. RESULTS: SEP-PRs were successfully recorded in 67 SEP among 75 studies (89.3%). SEP-PRs were recorded in 37 of 43 patients with lesions (86.0%), and in all patients without lesions (100.0%). In regards to pathology, the absence of SEP-PR was noted in 3 out of 12 patients with AVM (25.0%), 3 out of 30 patients with tumor (10.0%), and 0 out of 1 patient with cav-ernous angioma (0.0%). The SEP-PRs were obtained the least frequently for the location of lesions when the lesions involved both the frontal and parietal areas. CONCLUSIONS: Intraoperatively, the SEP-PR can be easily obtained and the median nerve SEP is an useful test for confirming the identification of the central sulcus. SEP-PR can be detected more frequently in patients without lesions rather than in those with lesions, especially patients with AVM or whose lesions are over the frontoparietal areas.
Arteriovenous Malformations ; Brain Mapping ; Electrodes* ; Epilepsy ; Evoked Potentials ; Evoked Potentials, Somatosensory* ; Hemangioma ; Hemangioma, Cavernous ; Humans ; Median Nerve ; Motor Cortex ; Neurosurgery ; Pathology ; Rabeprazole

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 ; Aged ; Aged, 80 and over ; Aspartic Acid/*analogs & derivatives/metabolism ; Basal Ganglia Hemorrhage/metabolism/*pathology ; Creatine/metabolism ; Female ; Humans ; *Magnetic Resonance Spectroscopy ; Male ; Middle Aged ; Motor Cortex/metabolism/*pathology ; Paresis/metabolism/*pathology ; Phosphocreatine/metabolism ; Protons ; Pyramidal Tracts/metabolism/*pathology