Olfactory nerve: from ugly duckling to swan / Nervo olfatório: de patinho feio a cisne

ABSTRACT Background: The olfactory nerve has never been the shining star of neurological examination. Quite the contrary, examining the first cranial nerve is often an overlooked step. As cases of anosmia secondary to COVID-19 infection continue to rise, the 2020 pandemic has shed new light on this much-forgotten nerve, its value as an aid to diagnosis of several diseases and its central role in our daily lives. Objective: We aimed to emphasize how essential and simple clinical examination of the olfactory system can be by highlighting practical techniques and clinical tips for its assessment. We also share pearls and pitfalls in localization and differential diagnosis, which may prove valuable to busy clinicians. Methods: A broad review of the literature was conducted by searching PubMed, Cochrane and Google Scholar for articles and books containing topics regarding examination of the olfactory nerve and its anatomy, physiology and pathology. No particular inclusion or exclusion criteria were used. Results: Forty different works were found, between books and articles, from which 20 were selected after careful analysis. Conclusions: Despite the tragedy and adversity that followed the COVID-19 pandemic, its legacy has taught us a crystal-clear lesson: olfaction should no longer be neglected in clinical practice.

RESUMO Antecedentes: O nervo olfatório nunca foi a estrela do exame neurológico. Pelo contrário, o exame desse nervo craniano é um passo frequentemente ignorado. No entanto, o aumento exponencial de casos de anosmia secundária a COVID-19 o colocou sob os holofotes, tanto em relação á sua função para o ser humano em sociedade, como seu papel no auxílio do diagnóstico de diversas patologias. Objetivos: Enfatizar quão importante é examinar o nervo olfatório e compreender as desordens do seu sistema. Ressaltamos pérolas clínicas e erros comuns no exame deste nervo, além dicas que possam auxiliar no diagnóstico de uma série de doenças neurológicas e sistêmicas. Métodos: Uma ampla revisão da literatura foi conduzida por meio de busca no PubMed, Cochrane e Google Acadêmico por artigos e livros relacionados aos tópicos do exame físico, fisiologia, anatomia e patologia do nervo olfatório. Não foram utilizados critérios específicos de inclusão ou exclusão. Resultados: Foram encontrados 40 artigos itens relacionados na língua inglesa, dentre os quais livros e artigos, tendo sido analisados e selecionados um a um até o total de 20 referências. Conclusões: Apesar da tragédia e adversidade trazidas pela pandemia de COVID-19, uma lição clara permanece: o olfato não deve mais ser negligenciado na prática clínica.

Application of Near-Infrared Spectroscopy in Neurological Disorders: Especially in Orthostatic Intolerance

Near-infrared spectroscopy (NIRS), a noninvasive optical method, utilizes the characteristic absorption spectra of hemoglobin in the near-infrared range to provide information on cerebral hemodynamic changes in various clinical situations. NIRS monitoring have been used mainly to detect reduced perfusion of the brain during orthostatic stress for three common forms of orthostatic intolerance (OI); orthostatic hypotension, neurally mediated syncope, and postural orthostatic tachycardia syndrome. Autonomic function testing is an important diagnostic test to assess their autonomic nervous systems for patients with symptom of OI. However, these techniques cannot measure dynamic changes in cerebral blood flow. There are many experimentations about study of NIRS to reveal the pathophysiology of patients with OI. Research using NIRS in other neurologic diseases (stroke, epilepsy and migraine) are ongoing. NIRS have been experimentally used in all stages of stroke and may complement the established diagnostic and monitoring tools. NIRS also provide pathophysiological approach during rehabilitation and secondary prevention of stroke. The hemodynamic response to seizure has long been a topic for discussion in association with the neuronal damage resulting from convulsion. One critical issue when unpredictable events are to be detected is how continuous NIRS data are analyzed. Besides, NIRS studies targeting pathophysiological aspects of migraine may contribute to a deeper understanding of mechanisms relating to aura of migraine. NIRS monitoring may play an important role to trend regional hemodynamic distribution of flow in real time and also highlights the pathophysiology and management of not only patients with OI symptoms but also those with various neurologic diseases.

Exploración neurológica básica para el médico general / Basic neurological examination for the general practitioner

Resumen La exploración neurológica (EN) es la herramienta clínica más importante con que se cuenta en medicina para la detección y diagnóstico de las enfermedades del sistema nervioso. Como en muchas áreas de la medicina, la integración de los datos clínicos obtenidos mediante la EN con los conocimientos neuroanatómicos y neurofisiológicos resulta de vital importancia para la correcta interpretación de la EN. Para el estudiante de medicina, con frecuencia la EN, y en general las materias relacionadas con las neurociencias, son conceptualizadas como muy extensas, difíciles y áridas, por lo que resulta importante realizar de manera sencilla la enseñanza de las distintas disciplinas neurocientíficas al estudiante de medicina y al médico en general. En este sentido, el objetivo del presente artículo es proponer un esquema para la realización de una exploración neurológica básica (ENB) que le permita al médico de primer contacto identificar eficazmente posibles alteraciones neurológicas (sobre todo las más frecuentes o graves), para así poder brindar un tratamiento inicial adecuado o establecer criterios de referencia oportuna a otro nivel de atención.

Abstract The neurological examination (NE) is the most important clinical tool in medicine for the detection and diagnosis of nervous system diseases. In several medical areas, the integration of clinical data with neuroanatomical and neurophysiological knowledge is of vital importance for the correct utilization and interpretation of NE. Frequently for the medical students, the NE and other subjects related to neuroscience are conceptualized as lengthy, difficult and boring; so it is important to teach these subjects to the medical students and general practitioners in a simple and comprehensive manner. Hence, the main objective of this paper is to propose a scheme for performing a basic neurological examination (BNE) that will allow the primary care physician to readily identify possible neurological disorders (especially the most frequent or severe), in order to provide adequate initial treatment or establish opportune reference criteria to another level of medical assistance.

PET-RM neurológico com FDG-18F: ensaio iconográfico / Brain 18F-FDG PET-MRI coregistration: iconographic essay

A integração da tomografia por emissão de pósitrons (PET) com a ressonância magnética (RM) tem sido alvo de diversos estudos nos últimos anos. O PET é a modalidade de imagem mais sensível e específica na detecção de alterações metabólicas, entretanto, apresenta limitada resolução espacial. Por outro lado, a RM apresenta importante resolução espacial, além de avaliar estruturas com intensidade de sinal de partes moles com excelente contraste. O objetivo deste estudo é demonstrar, na forma de ensaio iconográfico, as potenciais aplicações clínicas da fusão de imagens de PET e RM. Os exames foram realizados em aparelho PET dedicado utilizando como radiofármaco a fluordeoxiglicose-18F (FDG) e corregistrados com RM de 1,5 T ou 3 T do encéfalo. A fusão por programa de imagens do cérebro tem acurácia já bem estabelecida. Consegue-se, assim, importante sinergia de um estudo funcional de PET com excelente detalhamento anatômico da RM. As aplicações clínicas mais atraentes dessa abordagem são a avaliação da zona epileptogênica em pacientes refratários ao tratamento medicamentoso, identificação dos pacientes com déficit cognitivo com maior risco de progressão para demência e distinção de demências e síndromes parkinsonianas.

The combination of positron emission tomography (PET) with magnetic resonance imaging (MRI) has been the subject of several studies in recent years. Positron emission tomography is the most sensitive and specific imaging modality in the detection of metabolic changes, but presents limited spatial resolution. On the other hand, MRI presents a significant spatial resolution, besides evaluating soft tissues signal intensity with excellent contrast resolution. The present iconographic essay is aimed at demonstrating the potential clinical application of PET/MRI coregistration. The studies were performed in a dedicated PET unit with 18F-fluorodeoxyglucose (FDG) as radiopharmaceutical and coregistered with 1.5 T or 3 T brain MRI. The brain images fusion software presents an already well-established accuracy, so a significant synergy between a functional PET study and an excellent MRI anatomical detail is achieved. The most attractive clinical applications of this approach are the following: epileptogenic zone assessment in patients refractory to drug therapy, identification of patients with cognitive impairment at higher risk for progression to dementia and differentiation of dementias and Parkinsonian syndromes.

Exploration in Training High Quality Academic Degree Postgraduates in Clinical Neurology / 中华医学教育探索杂志

Training quality postgraduates in clinical neurology differs from in neuroscience. Combined with the features of clinical neurology, this article discussed the training processes for quality postgraduates in clinical neurology as following: individual training plan; clinical training in multiple academic directions and subjects; keeping the update ability for clinical neurology; improving the English skill in neurology and the ability to develop clinical researches.