Variable histopathology features of neuronal dyslamination in the cerebral neocortex adjacent to epilepsy-associated vascular malformations suggest complex pathogenesis of focal cortical dysplasia ILAE type IIIc.

Focal cortical dysplasia type IIIc (FCD-IIIc) is histopathologically defined by the International League Against Epilepsy's classification scheme as abnormal cortical organization adjacent to epilepsy-associated vascular malformations (VM). However, the incidence of FCD-IIIc, its pathogenesis, or association with the epileptogenic condition remains to be clarified. We reviewed a retrospective series of surgical brain specimens from 14 epilepsy patients with leptomeningeal angiomatosis of Sturge-Weber syndrome (LMA-SWS; n = 6), cerebral cavernous malformations (CCM; n = 7), and an arteriovenous malformation (AVM; n = 1) to assess the histopathological spectrum of FCD-IIIc patterns in VM. FCD-IIIc was observed in all cases of LMA-SWS and was designated as cortical pseudolaminar sclerosis (CPLS). CPLS showed a common pattern of horizontally organized layer abnormalities, including neuronal cell loss and astrogliosis, either manifesting predominantly in cortical layer (L) 3 extending variably to deeper areas with or without further extension to L2 and/or L4. Another pattern was more localized, targeting mainly L4 with extension to L3 and/or L5. Abnormal cortical layering characterized by a fusion of L2 and L3 or L4-L6 was also noted in two LMA-SWS cases and the AVM case. No horizontal or vertical lamination abnormalities were observed in the specimens adjacent to the CCM, despite the presence of vascular congestion and dilated parenchymal veins in all VM. These findings suggest that FCD-IIIc depends on the type of the VM and developmental timing. We further conclude that FCD-IIIc represents a secondary lesion acquired during pre- and/or perinatal development rather than following a pathomechanism independent of LMA-SWS. Further studies will be necessary to address the selective vulnerability of the developing cerebral neocortex in LMA-SWS, including genetic, encephaloclastic, hemodynamic, or metabolic events.

Dual pathology in a patient with temporal lobe epilepsy associated with neocortical glial scar after brain abscess and end folium sclerosis/hippocampal sclerosis type 3.

End folium sclerosis or hippocampal sclerosis (HS) type 3 is often associated with another coexisting epileptogenic lesion (dual pathology); however, the pathogenesis of HS type 3 remains elusive. A 46-year-old man presented with medically intractable focal aware seizures and focal impaired awareness seizures (FIAS) with occasional focal to bilateral tonic-clonic seizures (FBTCS) two years after surgical treatment with extensive cranial reconstruction for a brain abscess in the right temporal lobe associated with intracranial extension of ipsilateral cholesteatoma. Head magnetic resonance imaging (MRI) at age 49 revealed atrophy of the right cerebral hemisphere including the hippocampus and amygdala. The patient's first epilepsy surgery was a lateral temporal lobectomy, in which the mesial temporal structures were preserved because no epileptiform discharge was detected on the intraoperative electrocorticogram. However, FIAS with FBTCS started 15 months after the operation. The second surgery, amygdalohippocampectomy, at age 52, resulted in the patient being seizure-free again for one year before seizures of the right lateral temporal origin recurred. He underwent a third surgery, resection of the Heschl's and supramarginal gyri, at age 53, but he continued to have drug-resistant epilepsy over two years after that. Histopathological examination revealed dual pathology consisting of glial scar in the lateral temporal lobe and ipsilateral HS type 3 with an unusually severe lesion in the subiculum. No significant inflammatory change was observed. The clinicopathological features in the present case indicate that HS developed secondarily in the context of neocortical epilepsy due to glial scar, suggesting a role of repetitive abnormal electrical input from neocortical epileptogenic lesions into the hippocampus finally via the perforant pathway in the pathogenesis of HS type 3. Severe hippocampal atrophy on preoperative MRI together with its silent electrocorticogram recording at initial epilepsy surgery may represent clinically pre-epileptogenic HS in a seizure-free "silent or latent period" before completion of hippocampal epileptogenesis to the extent that clinical epileptic seizures occur.

Histopathological Findings in Brains of Patients Who Died in the Acute Stage of Poor-grade Subarachnoid Hemorrhage.

Patients with poor-grade aneurysmal subarachnoid hemorrhage (SAH) are likely to die due to irreversible acute-stage primary brain damage. However, the mechanism(s) and pathology responsible for their high mortality rate remain unclear. We report our findings on the brains of individuals who died in the acute stage of SAH. An autopsy was performed on the brains of 11 SAH patients (World Federation of Neurosurgical Societies grade 5) who died within 3 days of admission and who did not receive respiratory assistance. All brains were free of intracranial hematoma and hydrocephalus; all harbored ruptured aneurysms. In all brains, multiple infarcts with perifocal edema were scattered throughout the cortex and subcortical white matter of the whole brain. Infarcts with a patchy - were more often seen than infarcts with a wedge-shaped pattern. Microscopic examination revealed multiple areas with cytotoxic edema and neuronal death indicative of acute ischemic changes. Edema and congestion were more obvious in areas where the subarachnoid clot tightly adhered to the pia mater. Pathologically, the brains of deceased patients with acute poor-grade SAH were characterized by edema and multifocal infarcts spread throughout the whole brain; they were thought to be attributable to venous ischemia. Diffuse disturbance in venous drainage attributable to an abrupt increase in the intracranial pressure and focal disturbances due to tight adhesion of the subarachnoid clot to the pia mater, may contribute strongly to irreversible brain damage in the acute stage of SAH.

Benign hereditary chorea 2: pathological findings in an autopsy case.

Two Japanese families with benign hereditary chorea (BHC) 2 have recently been reported. BHC 2 is characterized by adult-onset non-progressive chorea, and by genetic abnormality in the locus of chromosome 8q21.3-q23.3. This differs from the genetic abnormality previously reported in BHC. Here we report the first autopsied case of a member of one of two known families with BHC 2. A normally developed woman recognized choreiform movements of her bilateral upper extremities beginning approximately at age 40. The movements had slowly spread to her trunk and lower extremities by approximately age 60. Generalized muscular hypotonia was also observed. The symptoms persisted until her death at the age 83, but had not worsened. Neuropathological examination revealed mild to moderate neuronal loss and astrocytosis in the striatum and decreased volume of cerebral white matter with astrocytosis bilaterally. Additionally, sparse but widely distributed neurofibrillary tangles and argyrophilic threads as well as scattered tufted astrocytes immunoreactive for 4-repeat isoform of tau were observed in the cerebrum, brainstem and cerebellum, showing 4-repeat tauopathy similar to that of progressive supranuclear palsy (PSP). Unique neuronal cytoplasmic inclusions were observed in the oculomotor nuclei; however, any specific immunoreactivities (e.g. ubiquitin and p62) were not detected, suggesting the presence of previously undescribed protein intracellular inclusions. Clinicopathologically, chorea accompanied with generalized muscular hypotonia seemed to be associated with mild degeneration of the striatum and cerebral white matter. The significance of PSP-like changes in the pathogenesis of BHC 2 remains to be elucidated.

Co-occurrence of types 1 and 2 PrP(res) in sporadic Creutzfeldt-Jakob disease MM1.

The genotype (M/M, M/V, or V/V) at polymorphic codon 129 of the human prion protein (PrP) gene and the type (1 or 2) of protease-resistant PrP (PrP(res)) in the brain are major determinants of the clinicopathological phenotypes of sporadic Creutzfeldt-Jakob disease (sCJD). According to this molecular typing system, sCJD has been classified into six subgroups (MM1, MM2, MV1, MV2, VV1, and VV2). Besides these pure subgroups, mixed cases presenting mixed neuropathological phenotypes and more than one PrP(res) type have been found in sCJD. To investigate the frequency of the co-occurrence of types 1 and 2 PrP(res) in sCJD patients classified as MM1, we produced type 2 PrP(res)-specific antibody Tohoku 2 (T2) that can specifically detect the N-terminal cleavage site of type 2 PrP(res) after protease treatment and examined brain samples from 23 patients with sCJD-MM1. Western blot analysis using the T2 antibody revealed that the minority type 2 PrP(res) could be detected in all sCJD-MM1 brain samples including those of the cerebellum where sCJD-MM2 prions rarely accumulate. These results show that the co-occurrence of types 1 and 2 PrP(res) within a single sCJD-MM1 patient is a universal phenomenon. The general co-occurrence of multiple PrP(res) fragments within a single prion strain questions the validity of the conventional molecular typing system.

F-18 FDG-PET imaging of dysembryoplastic neuroepithelial tumor-like astrocytoma.

Cerebral astrocytoma needs to be distinguished from dysembryoplastic neuroepithelial tumor (DNT) when a well-demarcated, cortically based and pseudo-cystic tumor with minimal mass effect is demonstrated on magnetic resonance imaging. We report an unusual case of DNT-like astrocytoma. 18F fluoro-deoxy-glucose (FDG) positron emission tomography showed a focal increase of FDG uptake in a deep part of the tumor. Histologic examination revealed predominantly microcystic change with oligodendrocyte-like cells, leading to a diagnosis of DNT. However, increased cellularity and nuclear atypia of astrocytes within the tumor were conspicuous as for DNT. Four years after excision, tumor recurrence was detected. FDG-positron emission tomography is useful for identifying the malignant potential of DNT-like astrocytoma.

Ischemia alters the expression of connexins in the aged human brain.

Although the function of astrocytic gap junctions under ischemia is still under debate, increased expression of connexin 43 (Cx43) has been observed in ischemic brain lesions, suggesting that astrocytic gap junctions could provide neuronal protection against ischemic insult. Moreover, different connexin subtypes may play different roles in pathological conditions. We used immunohistochemical analysis to investigate alterations in the expression of connexin subtypes in human stroke brains. Seven samples, sectioned after brain embolic stroke, were used for the analysis. Data, evaluated semiquantitatively by computer-assisted densitometry, was compared between the intact hemisphere and ischemic lesions. The results showed that the coexpression of Cx32 and Cx45 with neuronal markers was significantly increased in ischemic lesions. Cx43 expression was significantly increased in the colocalization with astrocytes and relatively increased in the colocalization with neuronal marker in ischemic lesions. Therefore, Cx32, Cx43, and Cx45 may respond differently to ischemic insult in terms of neuroprotection.

[Elderly patient with cerebellar malignant astrocytoma].

Malignant cerebellar astrocytoma is very rare and the prognosis is extremely poor. We report herein the case of an elderly patient with malignant cerebellar astrocytoma. This 80-year-old man initially presented with dizziness and ataxia of the right hand. Metastatic cerebellar tumor was diagnosed on first admission, based on a past history of colon cancer treated by surgery and magnetic resonance imaging (MRI) findings supporting the diagnosis of metastasis. The patient underwent gamma knife surgery (20 Gy) and was discharged. Follow-up after discharge was insufficient. Two years after gamma knife surgery, he returned to our hospital complaining of dizziness, headache, and right limb ataxia. MRI revealed a cystic mass in the right cerebellar hemisphere, and the lesion was removed by right suboccipital craniotomy. The tumor represented malignant astrocytoma. Optimal management of patients harboring sush difficult. to-treat tumors, including the role of gamma-knife radiosurgery, is discussed.

Exogenous l-DOPA induce no dopamine immuno-reactivity in striatal astroglias and microglias of adult rats with extensive nigro-striatal dopaminergic denervation.

The aim of this study was to determine whether striatal glial cells of adult rats with extensive nigro-striatal dopaminergic denervation are induced to contain dopamine by injection of exogenous l-DOPA. At 2 weeks after injection of 6-hydroxydopamine into the medial forebrain bundle of rats, immuno-reactivity of glial cells was detected with antibodies against glial fibrillary acidic protein (GFAP) or ionized calcium binding adapter molecule 1 (Iba1) in the intact and lesioned striatum. Double-labeling immunofluorescence method was secondly performed. In the lesioned striatum, immuno-reactivity of GFAP was significantly increased, whereas immuno-reactivity of Iba1 was significantly increased except for ventral portion. Exogenous l-DOPA induced DA immuno-reactivity in the striatum, which was independently detected from GFAP immuno-positive astroglial cells or Iba1 immuno-positive microglial cells in the intact side as well as in the lesioned side. These findings suggest that the proliferation of glial cells in the striatum is the response to the loss of dopaminergic terminals but the glial cells do not compensate for the lost dopaminergic terminals.

Amplified expression of uncoupling proteins in human brain ischemic lesions.

Uncoupling proteins (UCPs) are reported to regulate mitochondrial respiration and energy metabolism during hibernation. Recently, it has been reported that UCP2 and UCP5 might reduce free radical stress in the ischemic condition in in vitro models, suggesting both as potential neuroprotective agents. We therefore investigated the levels of UCP2 and UCP5 expression in the lesion of human brain infarction. Brain slice sections were prepared from pathological samples collected at our hospital. Embolic stroke brains sectioned because of the stroke (n = 5) and multiple brain infarction with several stroke episodes (n = 4) were selected for this study. We observed the amount of UCP2 and UCP5 expression in both lesioned and intact areas, and compared them between embolic stroke and multiple infarction cases. The results showed that the expression of UCP2 and UCP5 was significantly elevated in the ischemic lesions compared to the intact area. UCP5 expression in the lesions was higher in multiple infarction cases than in embolic stroke cases. In conclusion, brains may respond to neuroprotection through the increased expression of UCP2 and UCP5 under ischemic conditions. Moreover, UCP5 may respond to repetitive ischemic stresses or have a long-term effect.

[A patient with GM2 gangliosidosis presenting with motor neuron disease symptom in his forties].

Here, we report a Japanese man with adult Sandhoff disease who presented with a motor neuron disease phenotype with slow progression. At the age of 42, he noticed weakness in his legs. At the age of 46, he was admitted to our hospital. Neurological examination revealed muscle weakness and atrophy of the upper and lower extremities, and hyperreflexia of the upper extremities. Magnetic resonance imaging showed very mild cerebellar atrophy. We diagnosed him as having atypical amyotrophic lateral sclerosis. Because of the atypical course of motor neuron disease, hexosaminidase activity in peripheral leukocytes was indicated. Asseys of hexosaminidase A and hexosaminidase B showed low activities, and we found a membranous cytoplasmic body in the submucosal nerve, leading to the diagnosis of Sandhoff disease. This is the second case of a Japanese adult with Sandhoff disease presenting with a motor neuron disease phenotype, and to our knowledge, this is the latest age of onset in Japan.

Enhanced connexin 43 immunoreactivity in penumbral areas in the human brain following ischemia.

Astrocytes support neurons not only physically but also chemically by secreting neurotrophic factors and energy substrates. Moreover, astrocytes establish a glial network and communicate through gap junctions in the brain. Connexin 43 (Cx43) is one of major component proteins in astrocytic gap junctions. Heterozygote Cx43 KO mice and astrocyte specific Cx43 KO mice exhibited amplified brain damage after ischemic insults, suggesting a neuroprotective role for astrocytic gap junctions. However, some reports mentioned unfavorable effects of gap junctions in neuronal support. Therefore, the role of astrocytic gap junctions under ischemic condition remains controversial. Since these studies have been performed using animal models, we investigated the Cx43 expression in human brain after stroke. Brain slice sections were prepared from pathological samples in our hospital. Embolic stroke brains sectioned because of the stroke were considered as acute ischemic models. Multiple infarction brains sectioned because of pneumonia or cancer were considered as chronic models. We observed the levels of Cx43 in both lesioned and intact areas, and compared them with acute and chronic models. As the results, astrocytes were strongly activated in penumbral lesions both of acute and chronic ischemic models. The Cx43 immunoreactivity was significantly amplified in the penumbra of chronic model compared to that of the acute model. Neurons were well preserved in chronic model compared to acute model. These findings suggested that the brain may generate neuronal protection by increasing the levels of Cx43 and amplifying the astrocytic gap junctional intercellular communication under hypoxic condition.

Curvilinear T1 hyperintense lesions representing cortical necrosis after cerebral infarction.

Curvilinear T1 hyperintense lesions in the cerebral cortex in patients with subacute infarction were investigated for: (1) the presence or absence of T2* hypointensity and (2) correlations with neuropathologic findings. Thirty-six consecutive patients with subacute to chronic embolic infarction, in whom curvilinear hyperintense lesions in the infarcted cortex were seen on T1-weighted images, underwent echo-planar gradient-echo (GRE-EPI) T2*-weighted imaging. GRE-EPI T2*-weighted imaging revealed no evidence of hemorrhage within the curvilinear T1 hyperintense lesions of the cerebral cortex in all of the patients. In 11 of the 36 patients, focal hypointense lesions were seen in the depth of infarcted gyri on GRE-EPI T2*-weighted images. In the remaining 25 patients, no T2* hypointensities were seen in the infarct zone. Pathological correlation was performed in a patient with middle cerebral artery infarction and curvilinear hyperintense lesions on postmortem T1-weighted images. In the autopsied brain, curvilinear T1 hyperintense lesions corresponded to necrosis of all the cortical layers on histological examination. These data suggest that curvilinear hyperintense lesions in the cerebral cortex on T1-weighted images during the subacute to chronic period of cerebral infarction may not represent hemorrhage.

Serotonergic hyperinnervation into the dopaminergic denervated striatum compensates for dopamine conversion from exogenously administered l-DOPA.

The aim of this study was to determine whether raphe-striatal serotonergic neurons of adult rats with extensive nigro-striatal dopaminergic denervation are induced by injection of exogenous L-DOPA to contain dopamine. Double-labeling immunofluorescence study was conducted. In the lesioned striatum of rats that received L-DOPA, serotonergic hyperinnervation was observed, and dopamine was detected in serotonergic varicose fibers. These findings suggest that striatal serotonergic hyperinnervation can compensate for the lost function of dopaminergic neurons.

Attenuation of ischemia and/or reperfusion injury during myocardial infarction using mild hypothermia in rats: an immunohistochemical study of Bcl-2, Bax, Bak and TUNEL.

The aim of the present study was to determine the beneficial effect of mild hypothermia during ischemia and/or reperfusion injury in myocardial infarction. Sprague-Dawley rats (400 +/- 20 g) were subjected to 30 min occlusion of the left coronary artery followed by 24 h reperfusion. Rats were divided into normothermic (NT; 37 degrees C) and hypothermic (HT; 34 degrees C) groups. In the HT group hypothermia was maintained during coronary occlusion and continued for 30 min following reperfusion. Histological analysis revealed dead cardiomyocytes and polymorphonuclear neutrophil infiltration after 24 h. Myocardial infarction, measured using an image analyzer, showed that the percentage area of infarction was significantly decreased in the HT group. Immunohistochemical analysis was carried out using antibodies against Bcl-2, Bax and Bak. DNA fragments were labeled in situ using the 3'-OH end-labeling method (TUNEL). In the HT group Bcl-2 was induced in many myocytes, whereas Bax and Bak were induced in only a few myocytes. A higher number of TUNEL-positive cells were recorded in the NT group than in the HT group, but these were more thinly scattered in the HT group. The expression pattern revealed that many myocytes could survive at the border zone in the HT group; in contrast, few myocytes in the NT group were able to survive. Our results suggest that mild hypothermia selectively interferes with, and mitigates, reperfusion injury.

Posterior encephalopathy subsequent to cyclosporin A presenting as irreversible abulia.

A case of cyclosporin A (Cys A)-induced posterior encephalopathy developed into persistent abulia despite rapid and marked improvement of abnormal T2- and FLAIR MRI hyperintense regions. Diffusion-weighted MRI signal intensity was also high at the onset. This change is atypical in Cys A-induced encephalopathy and was thought to predict poor recovery from the encephalopathy. Persistent abulia was probably due to marked hypoperfusion in the whole cortex including bilateral frontal lobes and basal ganglia as detected by SPECT. Apart from the breakdown of the blood-brain barrier, direct toxicity of Cys A to the brain may play a role in the pathogenesis of chronic, irreversible encephalopathy.

Choroid plexus carcinoma presented with spinal dysfunction caused by a drop metastasis: a case report.

A 2-year-old girl demonstrating gait disturbance and dysuria was evaluated and showed two large remote tumors at the left lateral ventricle and lower spinal canal. Pathological analysis demonstrated both of the tumors to be choroid plexus carcinoma (CPC) with high MIB-1 labeling index. The enhanced mitotic propensity would have contributed to an early stage of drop metastasis from the primary site to the sacral sac and following accelerated formation of a longitudinal tumor, which had grown in the subarachnoid space conforming to the spinal canal and finally caused the presenting symptoms of spinal dysfunction. This report shows that CPC can develop exophytically in the subarachnoid space as well as in the ventricle simultaneously before appearance of clinical symptoms and confirms the importance of extensive neuroimaging in its evaluation.

Thalamic retrograde degeneration in the congenitally hydrocephalic rat is attributable to apoptotic cell death.

Congenitally hydrocephalic HTX rats develop ventricular dilatation with extensive damage of the cerebral white matter. Recently, we have reported that neuronal cell death also occurs in the thalamus of HTX rats. To investigate the mechanism underlying this thalamic degeneration in these animals, we carried out a histopathological study of the brain at different phases of postnatal development. Eosinophilic neurons with condensed chromatin or fragmented nuclei were observed in the thalamus from postnatal day 17 onward. The incidence of cell death in the thalamus increased with the progression of hydrocephalus. Ultrastructurally, thalamic neurons occasionally had apoptotic features including nuclear chromatin condensation and marginalization. Immunohistochemically, single-stranded DNA-positive neuronal nuclei were found in the thalamus. They were also positively stained with the TUNEL method. Marked loss of myelin and axons with many TUNEL-positive oligodendrocytes were found in the cerebral white matter. These findings suggest that the neuronal cell death observed in the thalamus in hydrocephalic HTX rats is retrograde degeneration due to extensive damage of axons in the cerebral white matter and that the thalamic retrograde degeneration is attributable to apoptotic cell death.