Axonal pathology in early stages of Guillain-Barré syndrome.

INTRODUCTION: Guillain-Barré syndrome (GBS) is an acute-onset, immune-mediated disease of the peripheral nervous system. It may be classified into 2 main subtypes: demyelinating (AIDP) and axonal (AMAN). This study aims to analyse the mechanisms of axonal damage in the early stages of GBS (within 10 days of onset). DEVELOPMENT: We analysed histological, electrophysiological, and imaging findings from patients with AIDP and AMAN, and compared them to those of an animal model of myelin P2 protein-induced experimental allergic neuritis. Inflammatory oedema of the spinal nerve roots and spinal nerves is the initial lesion in GBS. The spinal nerves of patients with fatal AIDP may show ischaemic lesions in the endoneurium, which suggests that endoneurial inflammation may increase endoneurial fluid pressure, reducing transperineurial blood flow, potentially leading to conduction failure and eventually to axonal degeneration. In patients with AMAN associated with anti-ganglioside antibodies, nerve conduction block secondary to nodal sodium channel dysfunction may affect the proximal, intermediate, and distal nerve trunks. In addition to the mechanisms involved in AIDP, active axonal degeneration in AMAN may be associated with nodal axolemma disruption caused by anti-ganglioside antibodies. CONCLUSION: Inflammatory oedema of the proximal nerve trunks can be observed in early stages of GBS, and it may cause nerve conduction failure and active axonal degeneration.

Patología axonal en la fase precoz del síndrome de Guillain-Barré / Axonal pathology in early stages of Guillain-Barré syndrome

Introducción: El síndrome de Guillain-Barré (SGB) es un trastorno agudo e inmuno-mediado del sistema nervioso periférico. Sus dos subtipos básicos son el desmielinizante (AIDP) y el axonal (AMAN). El objetivo de este trabajo es abordar los mecanismos de daño axonal en la fase precoz del síndrome (≤ 10 días del inicio sintomático). Desarrollo: Se han revisado aspectos histológicos, neurofisiológicos y de imagen descritos tanto en la AIDP como en la AMAN. Los hallazgos en la patología humana han sido contrastados con lo reportado en la neuritis alérgica experimental inducida por el componente P2 de la mielina. El edema inflamatorio de las raíces raquídeas y de los nervios espinales constituye la lesión inicial en el SGB. En los nervios espinales de casos fatales de AIDP se ha demostrado la presencia de lesiones isquémicas endoneurales, lo cual sugiere que la inflamación puede condicionar un incremento de su presión con reducción del flujo sanguíneo transperineural, que puede desencadenar fallo de la conducción y eventualmente degeneración axonal secundaria. En la AMAN con anticuerpos antigangliósido el bloqueo de la conducción por disfunción de los canales del sodio nodales puede afectar a troncos nerviosos proximales, intermedios y distales. Además de los mecanismos que operan en la AIDP, la degeneración axonal activa en la AMAN puede ir ligada a la disrupción del axolema nodal inducida por los anticuerpos anti-gangliósido. Conclusión: En la fase precoz del SGB hay edema inflamatorio de los troncos nerviosos proximales, que puede condicionar fallo de la conducción nerviosa y degeneración axonal activa. (AU)

Introduction: Guillain-Barré syndrome (GBS) is an acute-onset, immune-mediated disease of the peripheral nervous system. It may be classified into 2 main subtypes: demyelinating (AIDP) and axonal (AMAN). This study aims to analyse the mechanisms of axonal damage in the early stages of GBS (within 10 days of onset). Development: We analysed histological, electrophysiological, and imaging findings from patients with AIDP and AMAN, and compared them to those of an animal model of myelin P2 protein-induced experimental allergic neuritis. Inflammatory oedema of the spinal nerve roots and spinal nerves is the initial lesion in GBS. The spinal nerves of patients with fatal AIDP may show ischaemic lesions in the endoneurium, which suggests that endoneurial inflammation may increase endoneurial fluid pressure, reducing transperineurial blood flow, potentially leading to conduction failure and eventually to axonal degeneration. In patients with AMAN associated with anti-ganglioside antibodies, nerve conduction block secondary to nodal sodium channel dysfunction may affect the proximal, intermediate, and distal nerve trunks. In addition to the mechanisms involved in AIDP, active axonal degeneration in AMAN may be associated with nodal axolemma disruption caused by anti-ganglioside antibodies. Conclusion: Inflammatory oedema of the proximal nerve trunks can be observed in early stages of GBS, and it may cause nerve conduction failure and active axonal degeneration. (AU)

Linfoma primario del sistema nervioso central aparentando lesión del ángulo pontocerebeloso / Primary central nervous system lymphoma mimicking cerebellopontine angle lesión

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Leucoencefalopatía multifocal progresiva en un paciente inmunocompetente / Progressive multifocal leukoencephalopathy in an immunocompetent patient

No disponible

¿Por qué degeneran las motoneuronas? Actualización en la patogenia de la esclerosis lateral amiotrófica / Why do motor neurons degenerate? Actualization in the pathogenesis of amyotrophic lateral sclerosis

Introducción: La esclerosis lateral amiotrófica (ELA) es la enfermedad degenerativa de las motoneuronas más frecuente. Aunque un pequeño porcentaje de los casos de ELA tienen un origen familiar y son secundarios a mutaciones en genes concretos, a la gran mayoría de ellos se les presupone un origen multifactorial, sin que su patogenia haya sido completamente aclarada. No obstante, en los últimos años varios estudios han aumentado el conocimiento sobre la patogenia de la enfermedad, planteando la cuestión de si se trata de una proteinopatía, una ribonucleinopatía, una axonopatía o una enfermedad del microambiente neuronal. Desarrollo: En el presente artículo revisamos los trabajos publicados tanto en pacientes como en modelos animales de ELA y discutimos la implicación de los principales procesos celulares que parecen contribuir a su patogenia (procesamiento génico, metabolismo de proteínas, estrés oxidativo, transporte axonal y relación con el microambiente neuronal). Conclusiones: Aunque la patogenia de la ELA dista de estar aclarada, los estudios recientes apuntan a la idea de que hay unos desencadenantes iniciales que varían de unos sujetos a otros, y unas vías finales de degeneración de las motoneuronas que están implicadas en la mayor parte de los casos de enfermedad

Introduction: Amyotrophic lateral sclerosis (ALS) is the most common neurodegenerative disease affecting motor neurons. Although a small proportion of ALS cases are familial in origin and linked to mutations in specific genes, most cases are sporadic and have a multifactorial aetiology. Some recent studies have increased our knowledge of ALS pathogenesis and raised the question of whether this disorder is a proteinopathy, a ribonucleopathy, an axonopathy, or a disease related to the neuronal microenvironment. Development: This article presents a review of ALS pathogenesis. To this end, we have reviewed published articles describing either ALS patients or ALS animal models and we discuss how the main cellular pathways (gene processing, protein metabolism, oxidative stress, axonal transport, relationship with neuronal microenvironment) may be involved in motor neurons degeneration. Conclusions: ALS pathogenesis has not been fully elucidated. Recent studies suggest that although initial triggers may differ among patients, the final motor neurons degeneration mechanisms are similar in most patients once the disease is fully established

Why do motor neurons degenerate? Actualization in the pathogenesis of amyotrophic lateral sclerosis. / ¿Por qué degeneran las motoneuronas? Actualización en la patogenia de la esclerosis lateral amiotrófica.

INTRODUCTION: Amyotrophic lateral sclerosis (ALS) is the most common neurodegenerative disease affecting motor neurons. Although a small proportion of ALS cases are familial in origin and linked to mutations in specific genes, most cases are sporadic and have a multifactorial aetiology. Some recent studies have increased our knowledge of ALS pathogenesis and raised the question of whether this disorder is a proteinopathy, a ribonucleopathy, an axonopathy, or a disease related to the neuronal microenvironment. DEVELOPMENT: This article presents a review of ALS pathogenesis. To this end, we have reviewed published articles describing either ALS patients or ALS animal models and we discuss how the main cellular pathways (gene processing, protein metabolism, oxidative stress, axonal transport, relationship with neuronal microenvironment) may be involved in motor neurons degeneration. CONCLUSIONS: ALS pathogenesis has not been fully elucidated. Recent studies suggest that although initial triggers may differ among patients, the final motor neurons degeneration mechanisms are similar in most patients once the disease is fully established.

Axonal pathology in early stages of Guillain-Barré syndrome. / Patología axonal en la fase precoz del síndrome de Guillain-Barré.

INTRODUCTION: Guillain-Barré syndrome (GBS) is an acute-onset, immune-mediated disease of the peripheral nervous system. It may be classified into 2 main subtypes: demyelinating (AIDP) and axonal (AMAN). This study aims to analyse the mechanisms of axonal damage in the early stages of GBS (within 10days of onset). DEVELOPMENT: We analysed histological, electrophysiological, and imaging findings from patients with AIDP and AMAN, and compared them to those of an animal model of myelin P2 protein-induced experimental allergic neuritis. Inflammatory oedema of the spinal nerve roots and spinal nerves is the initial lesion in GBS. The spinal nerves of patients with fatal AIDP may show ischaemic lesions in the endoneurium, which suggests that endoneurial inflammation may increase endoneurial fluid pressure, reducing transperineurial blood flow, potentially leading to conduction failure and eventually to axonal degeneration. In patients with AMAN associated with anti-ganglioside antibodies, nerve conduction block secondary to nodal sodium channel dysfunction may affect the proximal, intermediate, and distal nerve trunks. In addition to the mechanisms involved in AIDP, active axonal degeneration in AMAN may be associated with nodal axolemma disruption caused by anti-ganglioside antibodies. CONCLUSION: Inflammatory oedema of the proximal nerve trunks can be observed in early stages of GBS, and it may cause nerve conduction failure and active axonal degeneration.

Diplejía facial y afagia de aparición súbita / Sudden onset of facial diplegia and aphagia

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Anti-TNF-α therapy in the management of severe neurosarcoidosis: a report of five cases from a single centre and literature review.

Neurologic manifestations are found in 5-15 % of patients with sarcoidosis. This granulomatous disease may affect any part of the peripheral or the central nervous system, being potentially severe and difficult to treat. Corticosteroids are the cornerstone of therapy in sarcoidosis. However, some patients become resistant or experience side effects to corticosteroids. In these patients, second line therapies including immunosuppressive drugs such as methotrexate, azathioprine, mycophenolate, cyclophosphamide and leflunomide have been used. Anti-TNF-α drugs have been proposed as a therapeutic option for those who are refractory to immunosuppressive drugs or initially in cases of severe sarcoidosis. We report on 5 patients with neurosarcoidosis treated with anti-TNF-α drugs in our center. A literature review of patients with neurosarcoidosis treated with anti-TNF-α drugs was conducted. In our series successful response to anti-TNF-α therapy was achieved. However, the high frequency of relapses following anti-TNF-α discontinuation makes necessary a close follow-up of these patients when the biologic agent is stopped.

Oftalmoplejía completa unilateral sin pérdida de visión como forma de presentación de una apoplejía pituitaria / Unilateral total ophthalmoplegia without visual loss as the presenting form of a pituitary apoplexy

La apoplejía pituitaria (AP) es una enfermedad potencialmente mortal causada por infarto isquémico o hemorragia aguda de un adenoma hipofisario. Aunque normalmente hay paresia oculomotora, la oftalmoplejía completa es una forma rara de presentación, más aún si la función visual está respetada. Un varón de 70 años se presentó con cefalea retroorbitaria y oftalmoplejía progresiva completa derecha con agudeza visual preservada. Una RMN reveló una masa hipofisaria con focos hiperintensos en T1 y realce tras la administración de gadolinio que se extendía hacia ambos senos cavernosos. Los análisis demostraron una insuficiencia hipofisaria parcial. Se inició tratamiento sustitutivo con corticoides antes de una resección transesfenoidal de la masa. El examen anatomopatológico era compatible con un adenoma hipofisario. Una semana tras la intervención, quedaba una leve limitación para la abducción del ojo derecho. La AP debería tenerse en cuenta en los pacientes con oftalmoplejía y cefalea retroorbitaria aguda. Es necesaria una aproximación multidisciplinar para resolver la disfunción hormonal y preservar la función visual (AU)

Pituitary apoplexy (PA) is a potentially life-threatening disorder caused by acute ischemic infarction or haemorrhage of a pituitary adenoma. Although certain degree of ocular palsy is usually present, total ophthalmoplegia is an uncommon form of presentation, moreover with spared visual acuity. We report the case of a 70-year-old man who presented with retro-orbitary headache and progressive total right ophthalmoplegia with preserved visual function. MRI study revealed a pituitary mass with hyperintense T1 foci inside and postgadolinium enhancement that extended towards both cavernous sinuses. Laboratory tests showed a partial pituitary failure. Corticosteroid replacement was started before a trans-sphenoidal resection of the mass was done. Histopathology analysis was consistent with a pituitary adenoma. One week after intervention only a subtle defect for abduction of the right eye was present. PA should be considered when attending patients with ophthalmoplegia, and acute retroocular headache. A multidisciplinary approach must be rapidly done in order to solve hormonal dysfunction and preserve visual function (AU)

Reduced serum progranulin level might be associated with Parkinson's disease risk.

BACKGROUND AND PURPOSE: Common genetic variants (rs5848 and rs646776) have been reported as regulators of blood progranulin (GRN) levels in healthy individuals. METHODS: To assess the influence of rs5848 and rs646776 polymorphisms in both serum GRN level and risk for common neurodegenerative diseases, we studied 304 patients with Parkinson's disease (PD), 217 individuals with Alzheimer's disease, 131 subjects with mild cognitive impairment, and 126 controls. RESULTS: The mean concentration of GRN in the serum of patients with PD (319.6 ng/ml) was significantly lower than that of controls (371.5 ng/ml; P = 0.009), whereas there were no significant differences between other groups. Rs646776 minor allele carriers had lower serum GRN levels in each of the four subgroups. There was no correlation between rs5848 genotypes and serum GRN concentrations. Genotype frequencies of both polymorphisms did not differ between groups. CONCLUSION: Reduced circulating GRN levels might be associated with PD risk by pathogenic factors different from rs5848 and rs646776 polymorphisms.

Genetic risk score predicting accelerated progression from mild cognitive impairment to Alzheimer's disease.

Aside from APOE, the genetic factors that influence the progression from mild cognitive impairment (MCI) to Alzheimer's disease (AD) remain largely unknown. We assessed whether a genetic risk score (GRS), based on eight non-APOE genetic variants previously associated with AD risk in genome-wide association studies, is associated with either risk of conversion or with rapid progression from MCI to AD. Among 288 subjects with MCI, follow-up (mean 26.3 months) identified 118 MCI-converters to AD and 170 MCI-nonconverters. We genotyped ABCA7 rs3764650, BIN1 rs744373, CD2AP rs9296559, CLU rs1113600, CR1 rs1408077, MS4A4E rs670139, MS4A6A rs610932, and PICALM rs3851179. For each subject we calculated a cumulative GRS, defined as the number of risk alleles (range 0-16) with each allele weighted by the AD risk odds ratio. GRS was not associated with risk of conversion from MCI to AD. However, MCI-converters to AD harboring six or more risk alleles (second and third GRS tertiles) progressed twofold more rapidly to AD when compared with those with less than six risk alleles (first GRS tertile). Our GRS is a first step toward development of prediction models for conversion from MCI to AD that incorporate aggregate genetic factors.

Guía diagnóstica en el paciente con enfermedad de Charcot-Marie-Tooth / Guidelines for molecular diagnosis of Charcot-Marie-Tooth disease

Introducción: La enfermedad de Charcot-Marie-Tooth (CMT) es la neuropatía hereditaria más frecuente. Clásicamente dividida según su patrón de herencia y de alteración de la velocidad de conducción motora (VCM) del nervio mediano, CMT incluye cinco grandes categorías: CMT1 (herencia autosómica dominante [AD] o ligada al sexo, y VCM < 38 m/s); CMT2 (herencia AD o ligada al sexo y VCM > 38 m/s); CMT4 (herencia autosómica recesiva [AR] y VCM muy lentificada); AR-CMT2 (forma recesiva con VCM > 38 m/s), y DI-CMT (forma intermedia con herencia AD y VCM entre 30 y 40 m/s). Pese a su estereotipado cuadro clínico (básicamente, semiología polineuropática sensitivo-motora y pie cavo), CMT ha resultado ser uno de los síndromes neurodegenerativos genéticamente más complejos, con 31 genes patogénicos clonados.Desarrollo: El objetivo de esta guía es efectuar una revisión nosológica de la enfermedad de CMT, con énfasis en las directrices para llevar a cabo el diagnóstico molecular. A tal fin, revisamos los estudios de epidemiología y genética, y los genotipos descritos en España. Conclusiones: En la inmensa mayoría de los pacientes con CMT, las mutaciones recaen en un reducido número de genes: para CMT1, PMP22, GJB1 y MPZ; para CMT2, MFN2 y GJB1; para CMT4, GDAP1, y NDRG1, HK1 y SH3TC2 (sujetos de etnia gitana); para AR-CMT2, GDAP1, y para DI-CMT, GJB1 y MPZ. Por su baja prevalencia, las mutaciones en otros genes sólo deberían investigarse cuando las anteriores han sido descartadas. Se desaconseja el uso indiscriminado de paneles de múltiples genes para el diagnóstico molecular de la enfermedad (AU)

Introduction: Charcot-Marie-Tooth disease (CMT) is the most frequent form of inherited neuropathy. In accordance with the inheritance pattern and degree of slowing of motor conduction velocity (MCV) of the median nerve, CMT encompasses five main forms: CMT1 (autosomal dominant [AD] or X-linked transmission and MCV < 38 m/s); CMT2 (AD or X-linked transmission and MCV > 38 m/s); CMT4 (autosomal recessive [AR] and severe slowing of MCV); AR-CMT2 (AR transmission and MCV > 38 m/s); and DI-CMT (intermediate form with AD transmission and MCV between 30 and 40 m/s). In spite of its stereotyped semiological repertoire (basically, symptoms and signs of sensory-motor polyneuropathy and pes cavus), CMT seems to be one of the most complex hereditary neurodegenerative syndromes, 31 causative genes having been cloned.Development: This paper is aimed at performing a nosological review of the disease, emphasising the guidelines for its molecular diagnosis. Genetic epidemiological studies and genotypes reported in Spanish patients are revised.Conclusions: In the great majority of CMT cases, mutations involve a reduced number of genes, namely: for CMT1, PMP22, GJB1 and MPZ; for CMT2, MFN2 and GJB1; for CMT4, GDAP1, and NDRG1, HK1 and SH3TC2 (gypsies); for AR-CMT2, GDAP1; and for DI-CMT, GJB1 and MPZ. Given their low prevalence, mutations in other pathogenic genes should be investigated after discarding the previous ones. There is no place for the indiscriminate use of diagnostic CMT genetic panels (AU)

[Guidelines for molecular diagnosis of Charcot-Marie-Tooth disease]. / Guía diagnóstica en el paciente con enfermedad de Charcot-Marie-Tooth.

INTRODUCTION: Charcot-Marie-Tooth disease (CMT) is the most frequent form of inherited neuropathy. In accordance with the inheritance pattern and degree of slowing of motor conduction velocity (MCV) of the median nerve, CMT encompasses five main forms: CMT1 (autosomal dominant [AD] or X-linked transmission and MCV < 38 m/s); CMT2 (AD or X-linked transmission and MCV > 38 m/s); CMT4 (autosomal recessive [AR] and severe slowing of MCV); AR-CMT2 (AR transmission and MCV > 38 m/s); and DI-CMT (intermediate form with AD transmission and MCV between 30 and 40 m/s). In spite of its stereotyped semiological repertoire (basically, symptoms and signs of sensory-motor polyneuropathy and pes cavus), CMT seems to be one of the most complex hereditary neurodegenerative syndromes, 31 causative genes having been cloned. DEVELOPMENT: This paper is aimed at performing a nosological review of the disease, emphasising the guidelines for its molecular diagnosis. Genetic epidemiological studies and genotypes reported in Spanish patients are revised. CONCLUSIONS: In the great majority of CMT cases, mutations involve a reduced number of genes, namely: for CMT1, PMP22, GJB1 and MPZ; for CMT2, MFN2 and GJB1; for CMT4, GDAP1, and NDRG1, HK1 and SH3TC2 (gypsies); for AR-CMT2, GDAP1; and for DI-CMT, GJB1 and MPZ. Given their low prevalence, mutations in other pathogenic genes should be investigated after discarding the previous ones. There is no place for the indiscriminate use of diagnostic CMT genetic panels.