A MELAS Patient Developing Fatal Acute Renal Failure with Lactic Acidosis and Rhabdomyolysis.

We herein present a patient with mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS), who developed serious acute renal failure with lactic acidosis, followed by rhabdomyolysis. Despite receiving intensive care, he suffered multiple cardiopulmonary arrests and died 10 days after presentation due to a sudden deterioration of his symptoms. Renal pathology revealed diffuse tubular necrosis with interstitial edema and tubular dilatation on light microscopy, and a severe degeneration of intracellular organelles on electron microscopy. These pathological findings could have resulted from multiple cardiopulmonary arrests; however, we must be aware of the extremely rare but sudden occurrence of these fatal conditions in MELAS patients.

An Autopsy Case of Amyotrophic Lateral Sclerosis with Diaphragm Pacing.

Respiratory insufficiency is a critical problem in amyotrophic lateral sclerosis (ALS) patients. We herein present the case of an autopsied patient with sporadic ALS who underwent diaphragm pacing (DP). The pathology showed several localized adhesions with a markedly atrophied diaphragm. A marked loss of motor neurons with Bunina bodies and phosphorylated TDP-43 positive inclusions was found in the spinal cord and primary motor cortex. Mild hyalinization and a few multinucleated giant cells were present around the electrode tracks in the diaphragm. However, no infiltration of inflammatory cells was detected. Our findings suggest that full-time DP might not cause severe damage to adjacent diaphragm tissue.

Primary granulomatous angiitis of the CNS preferentially involving small veins with a granulomatous leukoencephalitis-like lesion in the cerebrum.

We have reported an autopsy case of primary granulomatous angiitis of the CNS preferentially involving the small veins with a granulomatous leukoencepalitis-like lesion in the cerebral white matter of a 48-year-old man. The latter lesion was ischemic necrosis due to circumferential multiple perivenous granulomas in the adjacent Virchow-Robin space. Multifocal progressive involvement of venular adventitia by granulomas, leaving behind mural fibrosis and luminal stenosis, was related clinically to the prolonged stepwise deterioration observed in the patient, and pathologically to diffuse loosening with dilated veins in the deep cerebral white matter and subcortical hemorrhagic infarction in the left parietal lobe through chronic venous stagnation. PCR demonstrated negativity for Mycobacterium tuberculosis and Propionibacterium acnes, and in situ hybridization with EBV-encoded small nuclear RNA probe was also negative. The possibility of subarachnoidal latent infection with an unknown avirulent agent causing exclusively perivascular granulomas is proposed. It will be necessary to examine by autopsy whether the type (artery or vein) and size of the involved vessels and the pathological subtype of angiitis is related to the etiopathogenesis and prognosis. It is also pointed out that the entity of lymphocytic angiitis is problematic.

An autopsy case of Fabry disease with neuropathological investigation of the pathogenesis of associated dementia.

The pathogenesis of dementia associated with Fabry disease was examined neuropathologically in an autopsy case. The patient was a 47-year-old computer programmer who developed renal failure at the age of 36, necessitating peritoneal dialysis, and thereafter suffered in succession episodic pulmonary congestion, bradyacusia, heart failure, and dementia, before dying of acute myocardial infarction. MRI of the brain demonstrated leuko-araiosis. The CNS parenchyma showed widespread segmental hydropic swelling of axons in the bilateral cerebral and cerebellar deep white matter in addition to neuronal ballooning due to glycolipid storage in a few restricted nuclei and multiple tiny lacunae. Hydropic axonal swelling was also sparsely distributed in the pyramidal tract, pedunculus cerebellaris superior and brachium colliculi inferioris, but wallerian degeneration of these tracts was absent. Additional features included angiopathy of the subarachnoidal arteries due to Fabry disease, such as medial thickening resulting from glycolipid deposition in smooth muscle cells (SMCs) and adventitial fibrosis with lymphocytic infiltration, together with widespread subtotal or total replacement of medial SMCs by fibrosis, associated with prominent intimal fibrous thickening and undulation of the internal elastic membrane of medium-sized (1000-100 microm diameter) arteries. The findings in this case suggest that axonopathic leukoencephalopathy due to multisegmental hydropic swelling of axons in the bilateral cerebral deep white matter is responsible for the dementia associated with Fabry disease, and may be caused by ischemia resulting from widespread narrowing and stiffening of medium-sized subarachnoidal arteries and progressive heart failure.

An autopsy case of drug-induced diffuse cerebral axonopathic leukoencephalopathy: the pathogenesis in relation to reversible posterior leukoencephalopathy syndrome.

An autopsy case of diffuse axonopathic leukoencephalopathy induced by drug treatment is reported. A 70-year-old woman with multiple myeloma developed encephalopathy several days after completing a course of intravenous human immunoglobulin (IVIg) and granulocyte-colony stimulating factor (G-CSF), and died within I month. T2-weighted MRI demonstrated multifocal high-signal areas in the bilateral cerebral white matter, especially in the right frontal lobe. Neuropathologically, multifocal hydropic axonal swelling with a poor glial reaction was recognized diffusely in the bilateral deep cerebral white matter, being especially marked in the frontal lobe. The cortex, subcortical U-fibers, corpus callosum, and anterior commissure were spared. The cerebellar white matter also showed similar changes, albeit less marked, but the brainstem was spared. Microscopically, the myeloma involvement of the CNS was limited to the dura, and the cerebral arteries showed slight atherosclerosis, but neither thrombi nor angitis. This case, although ultimately fatal, neurologically and neuroradiologically resembled reversible posterior leukoencephalopathy syndrome (RPLS) induced by IVIg and/or G-CSF, and the nature and selective distribution of the neuropathological changes suggested that the pathogenesis involved vasospasm of the bilateral internal carotid artery and the main trunks of the cerebral arteries, due to unknown cause, inducing ischemia in the deep white matter, which is supplied by long nutrient arteries.

Pathology of the cerebral artery in Binswanger's disease in the aged: observation by serial sections and morphometry of the cerebral arteries.

Binswanger's disease (BD) is not rare in the aged. The aim of the present study was to compare the etiopathogenesis of BD of the aged (aged-BD) with that of classic-BD, with the aid of morphometry of the arterial medial thickness and reconstruction of the cerebral medullary arteries using serial sections from five autopsy cases. The age range of the aged-BD cases was 73-89 years. The mean heart weight of these cases was 296 g, in contrast to 391 g of the five age-matched cases of hypertension without diffuse myelin loss and atrophy of the cerebral white matter (HT). Although significant medial hypertrophy of the subarachnoid and medullary arteries was not found in all aged-BD cases, differently from classic-BD, all five cases of aged-BD commonly presented significantly widespread loss of the medial smooth muscle cells (SMC) of the medullary arteries as compared with HT, similar to the case in classic-BD. The etiopathogenesis of aged-BD is common to that of classic-BD; stiffening caused by hypertensive changes of the medullary artery, especially SMC loss, is responsible for the diffuse myelin loss and atrophy of the cerebral white matter of BD, rather than grade of hypertension itself or hypertensive medial hypertrophy. As the mechanism of such an especially severe involvement of the cerebral medullary artery in BD, some genetic abnormality in the functional response or vulnerability to hypertension of the artery should be considered.

Pathological changes in the cerebral medullary arteries of five autopsy cases of malignant nephrosclerosis: observation by morphometry and reconstruction of serial sections.

Hypertension (HT) is a serious risk factor of not only cerebral infarction and bleeding, but also Binswanger's encephalopathy (BE). In BE especially, severe stiffening of the cerebral medullary arteries because of hypertensive changes with loss of medial smooth muscle cells (SMC) occurs, which induces diffuse atrophy of the cerebral white matter. But, it is not yet ascertained whether HT is particularly severe in BE. Therefore, a spectrum of the pathological changes of the cerebral arteries were investigated by reconstruction of serial sections and morphometry of the medial thickness in five autopsied patients with malignant nephrosclerosis (MN) of exacerbated form. Each presented clinically acute progression of long-standing HT at the terminal stage and pathologically typical renal changes. The heartweight was 380-900 g. Morphometry of the medial thickness of the arachnoid arteries presented significant medial hypertrophy in four cases of MN, but in the medullary arteries it presented in only two cases with marked cardiomegaly of 700 g and 900 g. In four cases of MN, only a few medullary arteries showed slight pathological changes. However, in another case with cardiomegaly of 900 g, all 10 medullary arteries showed multiple segments of atheroma, medial SMC loss, and prominent dilatation; edematous concentric intimal fibrosis with luminal obstruction and atrophy of the white matter were absent. In conclusion, only one case of MN showing marked cardiomegaly of 900 g presented severe pathological changes of the cerebral medullary arteries comparable with those of BE, although other MN-cases showing severe cardiac hypertrophy presented only trivial arterial changes. Therefore, the cerebral medullary artery seems to be protected from HT, yet it is involved in a case of severe and long-standing HT inducing an extreme cardiomegaly.

Influence of experimental chronic hypertension on the cerebral and renal arteries of wild cats.

The influence of chronic hypertension (HT) on the cerebral and renal arteries was examined pathologically and morphometrically in wild cats without a specific genetic background. Chronic HT for 8-15 months was induced by uninephrectomy and salt-loading, and the blood pressure was monitored for a maximum of 5 months. The grade of systolic blood pressure elevation in each cat during the monitoring period was 21-51 mmHg. Histologically, the cerebral arachnoid and medullary arteries of all hypertensive cats showed a well-preserved medial layer, and neither loss of medial smooth muscle cells, adventitial fibrosis or fibrinoid exudation was detected. This experimental model of chronic HT in wild cats for 8-15 months induced segmental intimal elastofibrosis of the arachnoid and renal arteries, but spared the cerebral medullary artery. The parenchymal changes in the brain were negligible. Morphometrically, the arachnoid artery in control cats had a significantly thinner media than the renal artery, and the medial hypertrophy of the arachnoid artery resulting from HT occurred significantly less frequently than that of the renal artery. These findings suggest that the arachnoid and medullary arteries are relatively well protected from HT, and that this may be characteristic of cerebral arteries in general and ascribed to autoregulation.

Neurological dysfunctions versus regional infarction volume after focal ischemia in Mongolian gerbils.

BACKGROUND AND PURPOSE: With advances in the therapy of stroke at the postacute phase, the use of animal models for chronological and region-specific evaluation of neurological function has become increasingly important. Our aim was to test long-term behavioral dysfunction in gerbils after focal ischemia and to correlate the results with the regional distribution of infarction in the coordinating cortical regions. METHODS: Repetitive unilateral hemispheric ischemia (two 10-minute occlusions, 5-hour interval) was induced in Mongolian gerbils. The elevated body swing test (EBST), bilateral asymmetry test (BAT), and T-maze test were performed to assess asymmetrical motor behavior, somatosensory deficit, and spatial cognitive dysfunction during 4 weeks after ischemia. The results were correlated against the regional infarction volume of the primary motor, somatosensory, and primary visual cortices at 4 weeks after ischemia. RESULTS: In all postischemic gerbils, persistent sensorimotor and cognitive dysfunctions were detectable throughout the postischemic period. Histological examination revealed that a cortical zone of infarction surrounded the selective neuronal death in the ipsilateral cerebral hemisphere. The regional infarction volumes of the primary motor, somatosensory, and visual cortices were significantly correlated with the scores of the EBST, BAT, and T-maze test, respectively. These combinations had the highest regression coefficient of all pairs. CONCLUSIONS: Postischemic motor and somatosensory functions were significantly correlated with regional infarction volumes in the corresponding cortical regions. In gerbils, visual abnormality could be independently detected by the T-maze test. Such regional analyses of ischemic lesions would be useful for investigating the functional outcomes of stroke therapy.

Neuropathological study of the role of mast cells and histamine-positive neurons in selective vulnerability of the thalamus and inferior colliculus in thiamine-deficient encephalopathy.

The purpose of the present study was to examine the role of histamine in the pathogenesis of experimental thiamine-deficient encephalopathy. By studying sagittal serial sections the authors were able to examine the topographical relationship between histamine-positive neurons and fibers, the number of mast cells, and localized lesions in the thalamus (TH) and inferior colliculus (IC). Adult rats were given a thiamine-deficient diet and pyrithiamine was given intraperitoneally (30 microg/100 g bodyweight per day), and the distribution of vulnerable regions and petechial bleeding was histologically examined by reconstruction of the sagittal serial sections. The distribution of mast cells and histamine-positive neurons and fibers was examined immunohistochemically in control rats, and compared between the vulnerable and non-vulnerable regions of the TH and tectum. Changes in the aforementioned measures during the thiamine-deficient state were also examined. The blood-brain barrier was examined using antibodies against rat endothelial barrier antigen (EBA) and albumin. The density of histamine-positive fibers in the vulnerable regions of the TH and IC was very low and not different from the non-vulnerable regions, and the number of mast cells was significantly higher in the lateral portion of the TH than the medial portion of the TH. The numbers of mast cells increased on days 7-10 after the start of the experiment, and significantly decreased on days 14-21. Histamine-positive neurons and fibers in the TH and IC also had the same changes. Bleeding of the IC occurred exclusively around arteries, and perivenous bleeding was absent. Albumin exudation and suppression of EBA expression of capillaries were found in the spongy lesions of the TH and IC. The role of histamine in selective vulnerability of the TH and IC in experimental thiamine-deficient encephalopathy was not supported. Findings in the present study suggest that the spongy change is a primary event, and vascular changes are secondary.

Checkpoints and pitfalls in the experimental neuropathology of circulatory disturbance.

In neural tissue injury many pathological processes are common to different neurological disorders, including cerebral ischemia. Because ischemia has a fundamentally simple impact on neural tissue, good laboratory modeling can help improve the general understanding of the neuropathological processes involved. Summarized here are some basic principles that should be followed to ensure that cerebral ischemia studies are reproducible and informative: (i) selection of an appropriate model of cerebral ischemia in an appropriate species (although rodents are widely used for genomic studies, the use of larger animals, with brain structures macroscopically similar to those of humans, is appropriate for many studies, e.g. of white matter lesions or the pathophysiology of cerebral edema); (ii) correct maintenance of physiological parameters, including body temperature, systemic blood pressure, and blood gas tensions, under appropriate general anesthesia; (iii) selection of an appropriate method of cerebral blood flow (CBF) monitoring (decisions include whether or not the experiment requires real-time monitoring, in vivo measurement, and CBF mapping); (iv) appropriate timing of drug application in therapeutic studies (many drugs that are effective when given immediately after a short period of ischemia are ineffective in clinical trials, probably because of longer periods of ischemia and delayed drug delivery in clinical settings); and (v) multiparametric evaluation of therapeutic effect (with the recent increase in diagnosis of cases of mild stroke, measurement of mortality and infarct size have proven to be insufficient for the evaluation of therapeutic effect). Use of mild ischemia models and batteries of neurological tests for individual neurological functions, such as motor, somatosensory, and visual function, are becoming important in experimental ischemia research. In histological evaluation, assessment of the extent of both selective neuronal loss and the infarct will become mandatory. Regional analysis of each brain structure and coordination of the results with the apparent neurological dysfunction is a promising approach.

Neuropathology of delayed encephalopathy in cats induced by heavy-ion irradiation.

AIM: The pathogenesis of delayed encephalopathy induced by heavy-ion irradiation was investigated experimentally in cats. The left cerebral hemispheres were irradiated with 15-40 Gy of heavy ions (carbon), and histologically and morphometrically examined 12 months later. RESULTS: In the irradiated cerebral white matter the following occurred as the dose increased: astrocytic swelling, then the dilatation of small blood vessels with a fibrous thickening of the wall, and then loosening of the white matter with cavity formation and diffuse albumin deposition. Pathological features of these cavities suggested that they are induced by long-standing edema. Although the dilated vessels were arteries, veins, and capillaries, arteriovenous shunt and damage of the smooth muscle cells of the arterial media were absent. Changes of the cerebral cortex were scarce. Morphometrically, the irradiated cerebral white matter was swollen, and the capillary density tended to be reduced in the deep cortex and subcortical white matter, but this effect was not dose dependent. CONCLUSION: Heavy-ion irradiation induces delayed encephalopathy in cats, preferentially involving the white matter. The cardinal pathogenesis was long-standing edema of the white matter due to vascular hyperpermeability, and the vascular dilatation seemed to be caused by a reduction in the vascular bed and/or hemoconcentration due to hyperpermeability.

Arterial changes in cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) in relation to pathogenesis of diffuse myelin loss of cerebral white matter: examination of cerebral medullary arteries by reconstruction of serial sections of an autopsy case.

BACKGROUND AND PURPOSE: There is little information regarding the pathogenesis underlying diffuse myelin loss in the cerebral white matter and sparing of the U fibers in cerebral autosomal-dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), in which the medial smooth muscle cells of systemic arteries are characteristically involved. We sought to examine the precise extent and severity of changes in the cerebral arteries in an autopsy case of CADASIL in relation to pathogenesis of the diffuse myelin loss. METHODS: We reconstructed 1000 serial sections of the frontal cerebral medullary arteries of an autopsy subject, which was the first identified Japanese case of CADASIL, as confirmed by the presence of ultrastructural deposits of granular osmiophilic material in the media of some visceral arteries and by genetic analysis. RESULTS: We reconstructed 11 medullary arteries of the frontal lobe showing diffuse myelin loss and atrophy of the white matter with sparing of the U fibers. All of these showed complete loss of medial smooth muscle cells over their entire length and severe adventitial fibrosis. Although intimal fibrosis or hyalinosis was present, luminal occlusion was scarce. These changes were also observed in the small and large arachnoidal arteries but were relatively mild in the latter and in the cortical and subcortical medullary arteries. CONCLUSIONS: These arterial changes resulted in transformation of the cerebral arteries, in particular almost all the medullary arteries, to a so-called earthen pipe state. This supports the reported findings of a reduction in vascular reactivity to fluctuations in CO2 levels and systemic blood pressure in CADASIL.

Mechanism underlying the prevention of aneurismal rupture by coil embolization.

OBJECT: Endovascular treatment with Guglielmi detachable coil has been developed as a less invasive treatment for cerebral aneurysm. The aim of this study is to clarify the mechanism of the preventive effect of coil embolization. METHOD: Two aneurysm models were employed. One was a T-shaped bifurcation tube with a spherical dome made of glass, which was used for the measurement of pressure and visualization of flow pattern. The other model was a T-shaped glass tube with a spherical elastic silicone dome, which was used for the measurement of aneurismal wall displacement due to pulsation of flow. RESULT: 1, Guglielmi detachable coil caused no change in intra-aneurismal fluid pressure. 2, Coil insertion obstructed and slowed intra-aneurismal flow. This flow stagnation in the aneurysm might promote thrombus formation. 3, With increase in numbers of coils anchored at the intra-aneurismal wall, the displacement of the wall was considerably depressed. This suggests that coil insertion decreases the stress on the aneurismal wall. CONCLUSION: 1, Coil insertion depresses the pulsatile aneurysm wall movement, and diminishes the stress of the aneurysm wall. 2, Coil insertion obstructs intra-aneurismal flow and facilitates thrombus formation in the aneurysm. These two factors may operate synergistically to prevent aneurysm rupture.