Pio del Rio Hortega and the discovery of the oligodendrocytes

Rio del Rio Hortega (1882-1945) discovered microglia and oligodendrocytes (OLGs), and after Ramon y Cajal, was the most prominent figure of the Spanish school of neurology. He began his scientific career with Nicolas Achucarro from whom he learned the use of metallic impregnation techniques suitable to study non-neuronal cells. Later on, he joined Cajal's laboratory. and Subsequently, he created his own group, where he continued to develop other innovative modifications of silver staining methods that revolutionized the study of glial cells a century ago. He was also interested in neuropathology and became a leading authority on Central Nervous System (CNS) tumors. In parallel to this clinical activity, del Rio Hortega rendered the first systematic description of a major polymorphism present in a subtype of macroglial cells that he named as oligodendroglia and later OLGs. He established their ectodermal origin and suggested that they built the myelin sheath of CNS axons, just as Schwann cells did in the periphery. Notably, he also suggested the trophic role of OLGs for neuronal functionality, an idea that has been substantiated in the last few years. Del Rio Hortega became internationally recognized and established an important neurohistological school with outstanding pupils from Spain and abroad, which nearly disappeared after his exile due to the Spanish civil war. Yet, the difficulty of metal impregnation methods and their variability in results, delayed for some decades the confirmation of his great insights into oligodendrocyte biology until the development of electron microscopy and immunohistochemistry. This review aims at summarizing the pioneer and essential contributions of del Rio Hortega to the current knowledge of oligodendrocyte structure and function, and to provide a hint of the scientific personality of this extraordinary and insufficiently recognized man.

A política no loteamento: um estudo sobre mediação na zona oeste carioca

A partir de um enfoque antropológico, baseado na ideia de que a política não é um dado a priori e que precisa ser compreendida a partir das práticas e das formulações dos atores em contextos específicos, discutirei como a política é vivenciada pelos moradores do loteamento Boa Terra, situado em Guaratiba na Zona Oeste carioca, através de pesquisa qualitativa realizada entre os anos de 2008 e 2010. Além de acompanhar festas, atividades ordinárias e extraordinárias do centro comunitário local e campanhas eleitorais, visitei o loteamento em diferentes dias da semana com o objetivo de observar o cotidiano desses moradores. Embora tenha conversado e acompanhado as atividades dos moradores comuns, analisei com mais atenção as práticas desenvolvidas por aqueles que disputam o direito de falar em nome que, em geral, fazem (ou fizeram) parte de alguma associação local. Qual é o papel dessas associações? A que noções de bem público recorrem? Como se dá a relação entre os representantes locais e os moradores do loteamento? Que tipo de distinção existe entre eles? Como tais representantes se articulam no sentido de garantir as demandas de sua base? De que forma costuram relações no interior das agências estatais e com políticos em geral?

News from Academy Bay

Presidential visit. The extraordinary El nino year. The last of the Norwegians. Visits and events at the Darwin Research Station.

O movimento humano e sua interface com o letramento

O movimento humano, que é o tema dessa tese, teve e tem um papel extraordinário na história do homem no planeta, e na sua própria história de vida. Essa pesquisa, que situa-se em um campo epistemológico comum à Educação e à Educação Física, tem o objetivo geral de definir o papel do movimento humano no processo de letramento, com vistas à formação do licenciado em Educação Física. Para isso, lança mão de uma metodologia que se utiliza da pesquisa científica de base teórico-conceitual, valendo-se do método de investigação de caráter qualitativo e teórico, para sua construção. Como estratégia para o seu desenvolvimento, opto por uma construção singular onde já na introdução discuto e defino os conceitos básicos que darão suporte à tese, por isso essa parte toma um encorpamento maior em volume e importância. Os capítulos são construídos em formato de artigos que, ao mesmo tempo em que se encerram em si mesmos, eles conduzem na direção do objetivo maior da tese, o que se torna claro na conclusão geral da tese onde construo as amarras entre os temas que foram discutidos. Assim, ao investigar o movimento humano, a partir de sua ação para o desenvolvimento cognitivo do sujeito, com o objetivo de dar sustentação à teoria que afirma existirem interfaces entre movimento humano e letramento, foi possível debater vários assuntos ligados ao corpo, à cultura, aos modos de pensamento, à Educação Física e, logicamente ao movimento humano e ao letramento. Finalmente essa pesquisa conclui a existência de uma ligação direta entre movimento humano e desenvolvimento cognitivo do sujeito, o que leva também a possuir interfaces claras e objetivas entre o movimento humano com o processo de letramento, na medida em que a essência do letramento é ser um processo de desenvolvimento cognitivo constante, instalado em uma determinada cultura. Finalmente, visto como um objetivo interdisciplinar, o letramento se apresenta como um tema que também deve ser considerado e buscado pelo professor de Educação Física escolar, se tornando assim um agente de letramento na escola

Viagens extraordinárias e ucronias ficcionais: uma possível arqueologia do steampunk em literatura

A presente dissertação procura examinar o fenômeno do subgênero steampunk na literatura de ficção científica contemporânea, rastreando suas origens e analisando suas definições. O steampunk, em sua forma mais comum, trabalha com projeções contrafactuais do passado vitoriano, criando ambientações retrofuturistas para narrar suas histórias. A partir de indícios levantados por pesquisadores sobre a marcante influência cinematográfica sobre esta vertente, em especial das releituras feitas por Hollywood dos scientific romances britânicos e das voyages extraordinaires de Júlio Verne, procurou-se fazer uma espécie de arqueologia do subgênero a partir do projeto editorial original de Júlio Verne e seu editor Pierre-Jules Hetzel, projeto que, desde o seu início, possuía um caráter interdisciplinar e intertextual e que vai permanecer influenciando a ficção científica desde o seu estabelecimento como gênero literário autônomo. Em seguida, tentou-se demonstrar a afinidade da arte cinematográfica, desde seus primórdios, com esse projeto e abordar suas experiências de tradução visual deste universo como um desdobramento natural do corpo textual. Por último, analisou-se os componentes do steampunk (viagens no tempo, história contrafactual, mundos paralelos, ucronias ficcionais) e contextualizamos a vertente brasileira do subgênero no advento do novo romance histórico e no aumento da demanda por livros de divulgação histórica em virtude da efeméride dos 500 anos do Descobrimento do Brasil.

Architectural research and its enemies

Like the Research Assessment Exercise (RAE) that preceded it, the UK government's proposed Research Excellence Framework (REF) is a means of allocating funding in higher education to support research. As with any method for the competitive allocation of funds it creates winners and losers and inevitably generates a lot of emotion among those rewarded or penalised. More specifically, the 'winners' tend to approve of the method of allocation and the 'losers' denigrate it as biased against their activities and generally unfair. An extraordinary press campaign has been consistently waged against research assessment and its methods by those involved in architectural education, which I will track over a decade and a half. What follows will question whether this campaign demonstrates the sophistication and superior judgment of those who have gone into print, or conversely whether its mixture of misinformation and disinformation reveals not just disenchantment and prejudice, but a naivety and a depth of ignorance about the fundamentals of research that is deeply damaging to the credibility of architecture as a research-based discipline. With the recent consultation process towards a new cycle of research assessment, the REF, getting under way, I aim to draw attention to the risk of repeating past mistakes. Copyright © Cambridge University Press 2010.

Fabrication and mechanical property of carbon nanotube/metal composites

Carbon nanotubes (CNTs) are known to exhibit extraordinary mechanical properties such as high tensile strength, the highest Young modulus etc. These, combining with their large aspect ratio, make CNTs an excellent additive candidate to complement or substitute traditional carbon black or glass fiber fillers for the development of nano-reinforced composites. CNTs have thus far been used as additives in polymers, ceramics and metals to be pursued on practical applications of their composites. © 2010 IEEE.

Novel cathelicidin-derived antimicrobial peptides from Equus asinus

In the present study, EA-CATH1 and EA-CATH2 were identified from a constructed lung cDNA library of donkey (Equus asinus) as members of cathelicidin-derived antimicrobial peptides, using a nested PCR-based cloning strategy. Composed of 25 and 26 residues, respectively, EA-CATH1 and EA-CATH2 are smaller than most other cathelicidins and have no sequence homology to other cathelicidins identified to date. Chemically synthesized EA-CATH1 exerted potent antimicrobial activity against most of the 32 strains of bacteria and fungi tested, especially the clinically isolated drug-resistant strains, and minimal inhibitory concentration values against Gram-positive bacteria were mostly in the range of 0.3-2.4 mu g center dot mL-1. EA-CATH1 showed an extraordinary serum stability and no haemolytic activity against human erythrocytes in a dose up to 20 mu g center dot mL-1. CD spectra showed that EA-CATH1 mainly adopts an alpha-helical conformation in a 50% trifluoroethanol/water solution, but a random coil in aqueous solution. Scanning electron microscope observations of Staphylococcus aureus (ATCC2592) treated with EA-CATH1 demonstrated that EA-CATH could cause rapid disruption of the bacterial membrane, and in turn lead to cell lysis. This might explain the much faster killing kinetics of EA-CATH1 than conventional antibiotics revealed by killing kinetics data. In the presence of CaCl2, EA-CATH1 exerted haemagglutination activity, which might potentiate an inhibition against the bacterial polyprotein interaction with the host erythrocyte surface, thereby possibly restricting bacterial colonization and spread.

Adaptive lenses based on polarization modulation

We present and demonstrate a technique for producing a high-speed variable focus lens using a fixed birefringent lens and a ferroelectric liquid crystal cell as a polarization switch. A calcite lenses with ordinary and extraordinary focal lengths of 109mm and 88mm respectively, was used to demonstrate focus switching at frequencies of up to 3kHz. Two identical lenses and a single liquid crystal were also used to demonstrate zoom.

Know thy neighbour: A normative theory of synaptic depression

Synapses exhibit an extraordinary degree of short-term malleability, with release probabilities and effective synaptic strengths changing markedly over multiple timescales. From the perspective of a fixed computational operation in a network, this seems like a most unacceptable degree of added variability. We suggest an alternative theory according to which short-term synaptic plasticity plays a normatively-justifiable role. This theory starts from the commonplace observation that the spiking of a neuron is an incomplete, digital, report of the analog quantity that contains all the critical information, namely its membrane potential. We suggest that a synapse solves the inverse problem of estimating the pre-synaptic membrane potential from the spikes it receives, acting as a recursive filter. We show that the dynamics of short-term synaptic depression closely resemble those required for optimal filtering, and that they indeed support high quality estimation. Under this account, the local postsynaptic potential and the level of synaptic resources track the (scaled) mean and variance of the estimated presynaptic membrane potential. We make experimentally testable predictions for how the statistics of subthreshold membrane potential fluctuations and the form of spiking non-linearity should be related to the properties of short-term plasticity in any particular cell type.

Light-matter interaction in a microcavity-controlled graphene transistor

Graphene has extraordinary electronic and optical properties and holds great promise for applications in photonics and optoelectronics. Demonstrations including high-speed photodetectors, optical modulators, plasmonic devices, and ultrafast lasers have now been reported. More advanced device concepts would involve photonic elements such as cavities to control light-matter interaction in graphene. Here we report the first monolithic integration of a graphene transistor and a planar, optical microcavity. We find that the microcavity-induced optical confinement controls the efficiency and spectral selection of photocurrent generation in the integrated graphene device. A twenty-fold enhancement of photocurrent is demonstrated. The optical cavity also determines the spectral properties of the electrically excited thermal radiation of graphene. Most interestingly, we find that the cavity confinement modifies the electrical transport characteristics of the integrated graphene transistor. Our experimental approach opens up a route towards cavity-quantum electrodynamics on the nanometre scale with graphene as a current-carrying intra-cavity medium of atomic thickness. © 2012 Macmillan Publishers Limited. All rights reserved.

Novel nanostructured carbon nanotube electron sources

In this chapter, we present a review of our continuing efforts toward the development of discrete, low-dimensional nanostructured carbon-based electron emitters. Carbon nanotubes and nanofibers, herein referred to simply as CNTs, are one-dimensional carbon allotropes formed from cylindrically rolled and nested graphene sheets, have diameters between 1 and 500 nm and lengths of up to several millimeters, and are perfect candidates for field emission (FE) applications. By virtue of their extremely strong sp2 C-C bonding, intrinsic to the graphene hexagonal lattice, CNTs have demonstrated impressive chemical inertness, unprecedented thermal stabilities, significant resistance to electromigration, and exceptionally high axial current carrying capacities, even at elevated temperatures. These near ideal cold cathode electron emitters have incredibly high electric field enhancing aspect ratios combined with virtual point sources of the order of a few nanometers in size. The correct integration and judicious development of suitable FE platforms based on these extraordinary molecules is critical and will ultimately enable enhanced technologies. This chapter will review some of the more recent platforms, devices and structures developed by our group, as well as our contributions towards the development of industry-scalable technologies for ultra-high-resolution electron microscopy, portable x-ray sources, and flexible environmental lighting technologies. © 2012 by Pan Stanford Publishing Pte. Ltd. All rights reserved.

Enhanced mid-infrared transmission in heavily doped n-type semiconductor film based on surface plasmons

Transmission of electromagnetic wave in a heavily doped n-type GaAs film is studied theoretically. From the calculations, an extraordinary transmission of p-polarized waves through the film with subwavelength grooves on both surfaces at mid-infrared frequencies is found. This extraordinary transmission is attributed to the coupling of the surface-plasmon polariton modes and waveguide modes. By selecting a set of groove parameters, the transmission is optimized to a maximum. Furthermore, the transmission can be tuned by dopant concentrations. As the dopant concentration increases, the peak position shifts to higher frequency but the peak value decreases.

Mechanism of enhancing output power of plasmonic very-small-aperture lasers

Light transmission through a single subwavelength slit surrounded by periodic grooves in layered films consisting of Au and dielectric material is analyzed by the finite difference time domain method in two dimensions. The results show that the transmission field can be enhanced by the corrugations on the output plane, which is a supplementary explanation for the extraordinary optical transmission.

Plasmonic very-small-aperture lasers

The fabrication of plasmonic very-small-aperture lasers is demonstrated in this letter. It is an integration of the surface plasmon structures and very-small-aperture lasers (VSAL). The experimental and numerical results demonstrate that the transmission field can be confined to a spot with subwavelength width in the far field, and the power output can be enhanced 140% of the normal VSAL. Such a device can be useful in the application of a high resolution far-field scanning optical microscope. (C) 2007 American Institute of Physics.