ABSTRACT
RESUMEN Introducción: El manejo diagnóstico y terapéutico en los pacientes con lupus eritematoso sistémico que desarrollan una afectación neuropsiquiátrica representa un reto, debido a la heterogeneidad de las formas en que puede presentarse y la ausencia de criterios diagnósticos. Objetivo: Reconocer las formas clínicas de presentación de los síndromes neuroftalmológicos que traducen afectación pontina. Presentación del caso: Hombre de 71 años con antecedente de lupus eritematoso sistémico con afectación neuopsiquiátrica, que de forma aguda desarrolla un cuadro emético en el curso de una emergencia hipertensiva seguido de una parálisis de la mirada horizontal hacia la izquierda, una oftalmoplejía internuclear posterior derecha y una parálisis facial izquierda. En la neuroimagen se constata una afectación multifocal con marcado daño pontino. Conclusiones: Reconocer las formas clínicas de presentación de estos trastornos neuroftalmológicos raros que generalmente se presentan de forma aguda/subaguda permite al neurólogo realizar el diagnóstico topográfico de la lesión a nivel protuberancial con elevada precisión desde la Sala de Urgencias, así como reducir los posibles diagnósticos diferenciales a una etiología vascular, desmielinizante u ocupativa de espacio(AU)
ABSTRACT Introduction: The diagnostic and therapeutic management of patients with systemic lupus erythematosus who develop a neuropsychiatric involvement represents one of the biggest challenges due to the heterogeneity of the ways in which it can occur and the absence of diagnostic criteria. Objective: To recognize the clinical forms of presentation of neurophthalmological syndromes that express pontine involvement. Case presentation: Seventy-one-year-old man with history of systemic lupus erythematosus with neuropsychiatric involvement who acutely develops an emetic episode in the course of a hypertensive emergency followed by a paralysis of the horizontal gaze to the left, a right-sided posterior internuclear ophthalmoplegia and a left facial palsy. In the neuroimaging, a multifocal involvement with marked pontine damage is observed. Conclusions: Recognizing the clinical forms of presentation of these rare neurophthalmological disorders that generally occur in an acute or subacute form allows the neurologist to perform the topographic diagnosis of the lesion at a protuberancial level with high precision from the time when the patient attends the Emergency Department and reduces the possible differential diagnoses to a vascular, demyelinating or occupational etiology of space(AU)
Subject(s)
Humans , Male , Aged , Lupus Vasculitis, Central Nervous System/complications , Lupus Erythematosus, Systemic/complications , Lupus Vasculitis, Central Nervous System/diagnosis , Lupus Vasculitis, Central Nervous System/drug therapy , Diagnosis, DifferentialABSTRACT
El estudio de las estrategias neurales para la organización del comportamiento en vertebrados constituye un desafío mayor para la Neurociencia. El avance del conocimiento en este campo depende de manera crítica de la utilización de modelos experimentales adecuados que admitan múltiples niveles de análisis (p.ej: comportamental, circuital, celular, sináptico, molecular) y abordajes multitécnicos. Nos propusimos analizar in vitro una red neural de la unión mesopontina del tronco encefálico críticamente implicada en el control del sueño de movimientos oculares rápidos (S-REM). Pese al cúmulo de evidencias que apoyan el papel desempeñado por esta red en relación al S-REM, los mecanismos celulares y sinápticos que subyacen a este control son poco conocidos y continúan siendo objeto de intensa investigación. Para avanzar en el conocimiento de estos mecanismos, se llevó a cabo la caracterización morfológica y funcional de una rodaja de tronco encefálico de la rata, en la que las estructuras críticas para el control del S-REM, i.e.: núcleos tegmentales laterodorsal y pedúnculopontino, y su proyección al núcleo reticular pontis oralis (PnO), están presentes y son operativas. La inclusión del núcleo motor del trigémino en la rodaja permitió detectar cambios de la excitabilidad de las motoneuronas ante manipulaciones farmacológicas del PnO, representativos de los cambios del tono muscular asociados a maniobras similares realizadas in vivo. La utilización de este modelo in vitro de S-REM, permitirá aportar a la dilucidación de las estrategias neurales que operan en niveles intermedios de organización del SN en mamíferos para la generación y regulación de un estado comportamental.
The study of the neural basis of behavior is a major challenge in Neuroscience. Advancing our knowledge in this field depends, critically, on the use of experimental paradigms that provide multiple levels of analysis, as well as powerful techniques. We have selected, as a model of a neural plan that organizes a complex behavior, a neural network located in the mesopontine junction. This region is thought to be both necessary and sufficient for the generation of rapid eye movement (REM) sleep, although the cellular and synaptic mechanisms involved in the control of this behavioral state at the mesopontine level are still under debate and remain poorly understood. As part of a long term effort to gain insight into these mechanisms, we carried out the morphological and functional characterization of a slice preparation of rat brainstem and we demonstrate that critical structures for the control of REM sleep - the laterodorsal and pedunculopontine tegmental nuclei and their projection to the oral part of the pontine reticular nucleus (PnO) - are present and are operational. The presence of the trigeminal motor nucleus in the slice sought to include in the experimental model a structure capable of expressing changes of the excitability of the motorneurons caused by pharmacological manipulations of the PnO, representative of changes of muscle tone associated with similar maneuvers performed in vivo. The use of this in vitro model of REM sleep will provide critical information to elucidate neural strategies that operate at intermediate levels of central nervous system organization in mammals to control behavioral states.
O estudo de estratégias neurais para a organização do comportamento em vertebrados constitui um desafio maior para a Neurociencia. O avanço do conhecimento nessa área depende criticamente da utilização de modelos experimentais adequados que suportem múltiplos níveis de análise (por exemplo: comportamental, circuital, celular, sináptico e molecular) e abordagens por múltiplas técnicas. Decidiu-se analisar in vitro uma rede neural da união mesopontina do tronco encefálico criticamente envolvida no controle do sono de movimentos oculares rápidos (S-REM). Apesar da riqueza de provas que sustentam o papel desta rede em relação ao S-REM, os mecanismos celulares e sinápticos subjacentes a este controle são pouco conhecidos e permanecem sob intensa investigação. Para avançar no conhecimento desses mecanismos, caracterizou-se morfológica e funcionalmente uma fatia de tronco encefálico de rato, na qual as estruturas críticas para o controle do S-REM, i.e.: núcleos tegmentais laterodorsal e pedunculopontino, e sua projeção para o núcleo reticular pontis oralis (PnO) estão presentes e operantes. A inclusão do núcleo motor do trigêmeo na fatia permitiu detectar mudanças da excitabilidade das motoneuronas provocadas por manipulações farmacológicas do PnO, representativas das alterações do tônus muscular associados com operações semelhantes quando realizados in vivo. A utlização deste modelo in vitro de S-REM permitirá contribuir para a elucidação de estratégias neurais que operam em níveis intermedios de organização do SN de mamíferos para a geração e regulação de um estado comportamental.
Subject(s)
Animals , Rats , Sleep, REM/physiology , Wakefulness/physiology , Polysomnography , Neurons/physiology , In Vitro Techniques , Brain Stem/anatomy & histology , Rats, Wistar , Electric Stimulation , Electrophysiological PhenomenaABSTRACT
Medial pontine reticular formation (mPRF),an important part of brainstem reticular formation, has drawn great attention from anesthesiologists due to its close relation with not only consciousness, but also analgesia, muscle relaxation and autonomic reflex. Progress in related research may provide evidence for understanding the mechanism of general anesthesia; meanwhile,it may serve as an effective anesthesia target site, which may contribute to improvement in anesthetic effect and reduction of complications.
ABSTRACT
Delayed-onset continuous bruxism due to brain stem infarction has not yet been reported. A 49-year old man presented with quadriplegia and ophthalmoplegia. Brain MRI showed acute infarction in the bilateral midbrain, right thalamus and the superior cerebellum. One month later, the patient developed bruxism which persisted during sleep. A palatal myoclonus was not observed. Follow up MRI taken 4 months later showed bilateral olivary hypertrophy. We suggest that the patient's bruxism may be related to the olivary hypertrophy. The bruxism generator may be located in the pontine-reticular-formation (PRF). Bilateral large midbrain lesions interrupting the cortical inhibition may have produced bilateral olivary hypertrophy, which could stimulate the PRF, producing continuous bruxism.
Subject(s)
Humans , Middle Aged , Brain , Brain Stem Infarctions , Bruxism , Cerebellum , Follow-Up Studies , Hypertrophy , Infarction , Magnetic Resonance Imaging , Mesencephalon , Myoclonus , Ophthalmoplegia , Quadriplegia , ThalamusABSTRACT
PURPOSE: To report a case of bilateral horizontal gaze palsy associated with pontine hemorrhage. METHODS: A 51-year-old man developed a sudden decrease in consciousness. Computed tomography reveal a pontine hemorrhage and infarctions of both basal ganglia. The mentality was recovered after conservative treatment, but he complained of difficulty in moving his eyes. We performed ophthalmic and radiologic evaluations to confirm a diagnosis of bilateral horizontal gaze palsy and to reveal the condition. RESULTS: On ophthalmic examination, his eye showed complete bilateral horizontal gaze palsy, but convergence and vertical eye movements were normal. Radiologic evaluation revealed a pontine hemorrhage, and the hemorrhagic area was consistent the bilateral paramedian pontine reticular formation (PPRF).
Subject(s)
Humans , Middle Aged , Basal Ganglia , Consciousness , Diagnosis , Eye Movements , Hemorrhage , Infarction , Paralysis , Reticular FormationABSTRACT
A Foville syndrome is rare. A 46-year-old man with a 3-year history of Behcet's disease presented with a right facial palsy and a limitation in the rightward movements of the eyes. On neurologic examination, there was no movement of eyes in the right hemifield during all kinds of eye movements, including saccade, smooth pursuit, vestibulo-ocular reflex, and optokinetic nystagmus. However, all the eye movements were normal in the left hemifiled except for slowed saccades toward the right. Additional features were right infranuclear facial paresis and extensor plantar response on left side. Brain MRI revealed high signal intensity lesions in the right pons both in the dorsal tegmentum and in the basis. Neurological signs resolved gradually with steroid treatment. Different clinical features between abducens nucleus syndrome and paramedian pontine reticular formation syndrome are briefly discussed. To the authors' knowledge, this is the first case report of a Foville syndrome caused by neuro-Behcet's disease.