Neuronal intranuclear hyaline inclusion disease (NIHID) is a group of neurodegenerative disorders characterized by the presence of intranuclear inclusions in neurons (NIs). We report here clinicopathological findings of a 25-year-old female patient who died after 13 years of a clinical course characterized by progressive gait disturbance and movement disorders. Histological examination revealed widespread NIs with neuronal loss in restricted regions; neuronal loss was severe in the subthalamic nucleus, internal pallidum, substantia nigra, Edinger-Westphal nucleus and Purkinje cell layer. Quantification of the NIs combined with a graded evaluation of neuronal loss revealed an overall tendency for more severe neuronal loss to be accompanied by a lower frequency of NIs. A morphological similarity to the nuclear inclusions recently identified in several CAG repeat diseases prompted us to examine the immunolocalization of ubiquitin and expanded polyglutamine stretches, which demonstrated the presence of ubiquitin at the periphery of most NIs. An expanded polyglutamine stretch was seen in the center of limited number of NIs. These findings indicate that abnormal fragments such as expanded polyglutamine regions are incorporated into the inclusion, aggregated in its center, and thereby metabolized by a ubiquitin-dependent proteolytic pathway. Although it remains to be elucidated how the formation of NIs is related to neuronal degeneration, our findings suggest that NIs are formed in the process of sequestering or degrading abnormal protein fragments and formation of NIs may not be immediately toxic to neurons.
The clinical efficacy of lidocaine for convulsive status epilepticus in 53 convulsive episodes was examined in 37 children (17 males, 20 females). Mean age of patients receiving lidocaine was 3 years 7 months (SD 3y 5mo). Lidocaine administration achieved control of status epilepticus in 19 of 53 convulsive episodes (35.8%). Seizures ceased within 5 minutes of lidocaine administration in all 19 patients who were responsive to the drug. Regarding aetiology of status epilepticus and types of seizures, there was no statistical difference in effectiveness. Mild decrease of oxygen saturation, monitored by pulse oximetry, was observed in one patient, which improved by oxygenation using a mask. Lidocaine is a useful anticonvulsive agent; however, the response rate to lidocaine appears to be quite low, as less than half of the seizures were effectively controlled by lidocaine. Favourable properties of the drug include prompt responses, less alteration of consciousness, and fewer adverse effects, including less respiratory depression.
Three cases of Lewy body disease were investigated in order to compare the morphological and immunohistochemical characteristics of the neuronal inclusions in the cerebral cortex (CC) and brain‐stem (BS). Ultrastructurally, the CC contained intermediate‐sized filaments with variable amounts of granular material and other organelles, whereas the BS consisted of an electron‐dense core and an outer area with radially oriented filaments. The cerebral cortex was immuno‐reactive with antibodies against tyrosine hydroxylase (TH) and tau protein, and differed from BS. In addition, although the CC were antigenically similar to BS in their neurofilament (70, 160 and 200 kDa) and ubiquitin contents, the localization of neurofilament immunoreactivity differed between them, being confined positively to the core of CC, but to the periphery of the BS. Although Lewy bodies (LB) in idiopathic Parkinson's disease are morphologically similar to BS, they have been reported to differ in their immunoreactivity with antibodies against tau. It has been reported that CC differ from LB with regard to immunoreactivity with antibodies against TH and tropomyosin. It is inferred that these inclusions (CC, BS and LB) differ in morphogenesis.
Ataxia-telangiectasia-like disorder (ATLD) is caused by mutations of the MRE11 gene and is characterized by cerebellar ataxia, increased frequency of chromosomal translocations and hypersensitivity to ionizing radiation. ATLD is a rare genetic disease and the associated pathological changes in the brain are unclear. Here, we report the neuropathological findings in the first cases of genetically confirmed ATLD in a pair of Japanese male siblings. Magnetic resonance imaging studies performed during infancy revealed that both subjects had cerebellar atrophy. They died of pulmonary cancer at 9 and 16 years. The siblings had the same compound heterozygous mutations of the MRE11 gene. Brain autopsy demonstrated mild and severe cerebellar atrophy in the vermis and medial part of the hemispheres, oral to the horizontal fissure, respectively. Nuclear immunoreactivity for MRE11 was absent in neurons of cerebellar cortex, cerebral cortex, basal ganglia and midbrain, whereas being widespread in normal control brains. Immunoreactivity for the DNA oxidative stress marker, 8-hydroxy-2'-deoxyguanosine, was identified in nuclei of granule cells and Bergmann glial cells. The combination of MRE11 deficiency and DNA oxidative injury might have led to selective cerebellar degeneration.
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