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Clinical Neuroscience

JANUARY 30, 2020

Marchiafava-Bignami disease: Report of three cases

GUNAY Gul, MESUDE Özerden, ZEYNEP Ozdemir, CAHIT Keskinkiliç, HAKAN Selçuk, BATUHAN Kara, AYSUN Soysal

Marchiafava-Bignami disease (MBD) is a rare alcohol-associated disorder characterized by demyelination and necrosis of the corpus callosum. We report three patients who had history of chronic alcoholism, different clinical presentation and MRI findings consistent with the diagnosis of Marchiafava-Bignami disease.

Clinical Neuroscience

SEPTEMBER 30, 2019

Acute bilateral drop foot as a complication of prolonged squatting due to haemorrhoid

KOKSAL Ayhan, DOGAN Burcu Vasfiye

Drop foot is defined as difficulty of dorsiflexion of the foot and ankle due to weak anterior tibial, extensor hallucis longus and extensor digitorum longus muscles. Cauda equina syndrome, local peroneal nerve damage due to trauma, nerve entrapment, compartment syndrome and tumors are common etiologies. A 32-year-old male patient was applied with difficulty in dorsiflexion of both of his toes, feet and ankles after he had squatted in toilette for 6-7 hours (because of his haemorrhoid) after intense alcohol intake 2 weeks before. Acute, partial, demyelinating lesion in head of fibula segment of peroneal nerves was diagnosed by electromyography. This case was reported since prolonged squatting is an extremely rare cause of acute bilateral peroneal neuropathy. This type of neuropathy is mostly demyelination and has good prognosis with physical therapy and mechanical devices, but surgical intervention may be required due to axonal damage. People such as workers and farmers working in the squatting position for long hours should be advised to change their position as soon as the compression symptoms (numbness, tingling) appear.

Clinical Neuroscience

MARCH 30, 2019

[Symptomatic trigeminal autonomic cephalalgia without headache]

RÓZSA Anikó, KOVÁCS Krisztina, GUBA Katalin, GÁCS Gyula

[We report the case of a 60-year-old man who exhibited trigeminal autonomic symptoms on his right side (numbness of the face, reddening of the eye, nasal congestion) occurring several times a day, for a maximum of 60 se­conds, without any pain. The complaints were similar to trigeminal autonomic cephalalgia, just without any headache. Our 60-year-old male patient underwent a craniocervical MRI as part of his neurological workup, which revealed lesions indicative of demyelination. Further testing was guided (ophthalmological examination, VEP, CSF test) by the presumptive diagnosis of multiple sclerosis. It is likely that in his case the cause of these trigeminal and autonomic paroxysms is MS. Here we present an overview of the few cases we found in the literature, although we did not find any similar case reports. Perhaps the most interesting among these is one in which the author describes a family: a 54-year-old female exhibiting the autonomic characteristics of an episodic cluster headache, only without actual headache, her son, who had typical episodic cluster headaches with autonomic symptoms, and the woman’s father, whose short-term periorbital headaches were present without autonomic symptoms. We had not previously encountered a case of trigeminal autonomic cephalalgia without headache in our practice, nor have we had an MS patient exhibiting similar neurologic symptoms. The significance of our case lies in its uniqueness. ]

Clinical Neuroscience

JULY 30, 2012

[Selective ultrastructural vulnerability in the cuprizone-induced experimental demyelination]

ÁCS Péter, KOMOLY Sámuel

[Background and purpose - It has been reported that multiple sclerosis has four different neuropathological subtypes, and two of them (type III and IV) are characterized by primary oligodendrocyte loss. However, the exact pathomechanism that lead to oligodendrocyte apoptosis in human demyelinating diseases is still elusive. The copper chelator cuprizone induces primary oligodendrocyte apoptosis and consequent demyelination in well defined areas of the mouse brain. Nevertheless, the precise subcellular events that result in oligodendrocyte cell death in the cuprizone model are still unknown. We aimed to study the ultrastructural alterations that might induce oligodendrocyte apoptosis in the cuprizone experimental demyelination model. Methods - C57BL/6 mice were given cuprizone for two, 21 and 35 days to induce demyelination to investigate early pathological events, and different stages of demyelination. In addition, mice were given cuprizone for 35 days and were allowed to recover for two or 14 days to study early and late remyelination. After the cuprizone treatment, mice were sacrificed and the corpus callosum, the superior cerebellar peduncle, the optic nerve and the sciatic nerve were studied by electron microscopy. Results - The ultrastructural analysis revealed that cuprizone induced oligodendrocyte apoptosis is accompanied by the formation of giant mitochondria in the affected cells in the corpus callosum and in the superior cerebellar peduncle. Apoptosis of the myelin producing cells was present through the whole cuprizone challenge. Severe demyelination occurred after three weeks of cuprizone administration associated with massive macrophage infiltration and astrocytosis of the demyelinated areas. Axons and neurons remained unaffected. Conclusion - The formation of giant mitochondria in myelin producing oligodendrocytes is the first pathological sign in the cuprizone experimental demyelination. Mitochondrium pathology in the cuprizone challenge might serve as a useful model to study the pathomechanism of multiple sclerosis subtypes (III and IV) characterized by primary oligodendrocyte degeneration.]

Clinical Neuroscience

JUNE 02, 2009

[99-mTc-HMPAO single photon emission computed tomography examinations in genetically determined neurometabolic disorders]

ARANKA László, AMBRUS Edit, VÖRÖS Erika, SVEKUS András, KÓBOR Jenõ, BEREG Edit, PALATKA János, PÁVICS László

[The aim of our study was to determine regional cerebral blood flow (rCBF) abnormalities in different types of enzymopathies. Patients and methods - Among the patients with genetically determined enzymopathies 3 patients had aminoacidopathies, and 11 had different types of encephalopathies, from which 10 had mitochondrial encephalomyopathy (MEMP), and 1 patient had hyperuricaemic encephalopathy. Besides the mentioned 14 patients, 1 had ceroid lipofuscinosis and another patient had tuberous sclerosis. The further distribution of the MEMP patients’ group was the following - 5 patients had MEMP with lactic acidosis, 5 had Leigh’s disease (subacute necrotizing encephalopathy), from which 1 had cytochrome-c-oxidase deficiency (COX). Additionally in all patients were performed cerebral MRI and SPECT examination 10 min. after intravenous administration of 20 Mbq/kg 99 mTc-HMPAO. Results - Fourteen out of 16 SPECT findings were pathologic, showing decreased focal frontal/temporal/temporoparietal cerebral blood perfusion. Aminoacidopathic group - all the 3 patients revealed pathologic signs from the aminoacidopathic patients’ group. Among them the ornithine transcarbamylase (OTC) heterozygous female patient with left-sided hemiparesis caused by hyperammonemic stroke at 10 month-age, showed right sided temporoparietal, occipital and left frontal hypoperfusion, nearly 6 years after the cerebral vascular attack. This finding might be resulted because of diaschisis. Mitochondrial encephalo-myopathic (MEMP) group - all the four patients with MEMP and lactic acidosis showed focal hypoperfusion in the temporal region, while the perfusion was normal in the COX deficient patient and in 2 Leigh’s disease (subacute necrotizing encephalopathy) patients. In the remaining 1 Leigh’s patient frontotemporal hypoperfusion was found. In all patients there were non specific structural abnormalities detected by MRI - cortical and subcortical atrophy, and scattered demyelination foci. In the case of ceroid lipofuscinosis the MRI showed cerebral atrophy and cerebellar hypoplasia, and the SPECT showed right frontal and occipital hypoperfusion, bilateral parietal physiological riping process. The patient with tuberous sclerosis showed bilateral temporo-occipital hypoperfusion. Conclusion - 1. SPECT images demonstrated hypoperfusion rCBF changes in 14 out of all 16 patients. 2. Regional cerebral/cerebellar hypoperfusion was detected by SPECT in mitochondrial encephalomyopathies, with lactate acidosis and aminoacidopathies giving high informative value about the cerebral perfusion.]

Clinical Neuroscience

JANUARY 20, 2005

[EXPERIMENTAL DEMYELINATION CAUSED BY PRIMARY OLIGODENDROCYTE DYSTROPHY Regional distribution of the lesions in the nervous system of mice brain]

KOMOLY Sámuel

[Background and purpose - Heterogeneity of multiple sclerosis lesions has been recently indicated: In addition to T-cell-mediated or T-cell plus antibody-mediated autoimmune mechanisms (patterns I-II) two other patterns (III-IV) were described. Patterns III-IV are characterized by primary oligodendrocyte dystrophy, reminiscent of virus- or toxin-induced demyelination rather than autoimmunity. It was described more than 30 years ago that dietary application of a copper-chelating agent called cuprizone results in primary oligodendrocyte degeneration which is followed by demyelination. The aim of the present study was to examine the regional distribution of cuprizone induced oligodendrocyte dystrophy and demyelination in the nervous system of mice. Material a methods - Demyelination was induced in male weanling Swis-Webster mice by feeding them on a diet containing 0.6% (W/W) cuprizone bis(cyclohexanone)-oxalyldihydrazone (G. F. Smith Chemical, Columbus OH) for 8 weeks. Animals were sacrificed after 3, 7, 14, 27, 35, 56 days of cuprizone administration. Samples were taken from corpus callosum, anterior commissure, optic nerve, cervical spinal cord and sciatic nerve. Samples were examined by immunohistochemistry, in situ hybridization for myelin proteins and myelin protein mRNA-s, respectively. Conventional neuropathological stainings and electron microscopy was also performed. Results - Oligodendrocyte degeneration and demyelination followed a particular standard pattern in the central nervous system. Profound myelin loss developed in the superior cerebellar peduncle, anterior comissure and corpus callosum, whereas the optic nerves, velum medullare anterior and spinal cord showed little or no demyelination. Sciatic nerves were unaffected. No infiltration by lymphocytes or blood-brain barrier damage was observed during cuprizone treatment. Conclusion - Cuprizone induced oligodendrocyte damage and demyelination follows a particular standard pattern in the central nervous system of mice. Cuprizone induced demyelination might be considered as a model for human demyelinating disorders with primary oligodendrocyte dystrophy and apoptosis.]

Clinical Neuroscience

MARCH 15, 2004

[Serum IgG and IgM ganglioside GM1 antibodies in patients with multiple sclerosis]

ZAPRIANOVA Emilia, MAJTÉNYI Katalin, DENISLAVA Deleva, OLIA Mikova, ANDON Filchev, BORISLAV Sultanov, VERA Kolyovska, SULTANOV Emil, LILIA Christova, XENIA Kmetska, DIMITAR Georgiev

[INTRODUCTION - In order to obtain more information concerning the pathogenic significance of ganglioside GM1 in multiple sclerosis serum polyclonal IgG and IgM antibodies to GM1 were evaluated in multiple sclerosis patients with relapsing-remitting and secondary progressive forms of the disease. PATIENTS AND METHODS - The evaluated sera were from 55 patients with clinically definite multiple sclerosis and from 20 healthy subjects. Forty-two of patients were with relap-sing-remitting and 13 with secondary progressive multiple sclerosis. Antibodies to GM1 were measured using a modification of the enzyme-linked immunosorbent assay technique of Mizutamari et al (1994). RESULTS - A statistically significant difference of serum IgG antibody titres to GM1 was found between the healthy subjects and the multiple sclerosis patients with relapsing-remitting form of the disease (p=0.04), as well as of serum IgG antibody titres to GM1 between the patients with relapsing-remitting multiple sclerosis in relapse and in remission (p=0.01). CONCLUSION - Bearing in mind the heterogeneity of multiple sclerosis, the pathogenic significance of serum antibo-dies to GM1 should be interpreted concerning the precise clinical form of the disease and not the whole group of MS patients. The findings in this study argue for the possible involvement of ganglioside GM1 in the pathogenesis of demyelination in relapsingremitting multiple sclerosis.]

Clinical Neuroscience

MARCH 25, 2009

[MR imaging of acute disseminated encephalomyelitis and multiple sclerosis in children. A review (in English language)]

PATAY Zoltán

[Inflammatory diseases of the central nervous system (CNS) are relatively rare in children, but their relevance to public health is considerable due to frequent and significant long term morbidity and even mortality. As in adults, acute disseminated encephalomyelitis (ADEM) and multiple sclerosis (MS) and their variants are the most common entities in this group of pathologies in the pediatric patient population. Recent efforts have focused on establishing standardized diagnostic criteria schemes to facilitate the diagnosis and differential diagnosis of these diseases, however especially with multiple sclerosis those have not been fully validated yet for disease occurring in children. In recent decades the role of MRI has been constantly increasing in the diagnostic work-up of suspected inflammatory diseases of the CNS as well as in the follow-up of patients with confirmed disease. Currently, MRI is the first-line diagnostic imaging modality in ADEM and MS and is fully integrated in the most widely used diagnostic criteria schemes, but it has a key role in clinical therapeutic research trials as well. This paper provides an update on the current concepts and strategies of MRI in inflammatory diseases of the CNS, as well as a review of the imaging semiology of the various disease entities and variants with emphasis on clinical and imaging particularities relevant to the pediatric patient population.]