Anatomia do Lenho de espécies da subfamília Ixoroideae (Rubiaceae) do Parque Estadual da Ilha Grande, Rio de Janeiro

Os estudos anatômicos do lenho são frequentemente aplicados à solução de questões taxonômicas, filogenéticas e evolutivas, visto que este tecido apresenta uma tendência mais conservadora e, consequentemente, menor plasticidade. Este trabalho tem por objetivo o estudo da estrutura anatômica do lenho de oito espécies arbustiva-arbóreas da subfamília Ixoroideae ocorrente no Parque Estadual da Ilha Grande, Angra dos Reis-RJ, visando contribuir com subsídios à identificação local das espécies e à taxonomia e filogenia da subfamília Ixoroideae e da família Rubiaceae. O estudo foi desenvolvido em um importante remanescente do bioma Mata Atlântica no estado do Rio de Janeiro. O material botânico foi coletado por métodos não destrutivo, as amostras foram processadas segundo técnicas usuais em anatomia da madeira e as análises e descrições seguiram as recomendações da COPANT (1973) e IAWA Commitee (1989). Os resultados demonstraram que as oito espécies estudadas apresentam características qualitativas diagnósticas que permitiram segregar as espécies e construir uma chave de identificação com base na presença ou ausência de inclusões inorgânicas, paredes celulares disjuntivas, células envolventes nos raios e no tipo de parênquima axial. As análises estatísticas realizadas sustentaram o agrupamento das espécies estudadas na subfamília Ixoroideae, porém não foi possível o agrupamento em nível das tribos às quais estas espécies estão subordinadas. Os resultados indicaram ainda a necessidade de reanálise das árvores filogenéticas hipotéticas propostas para subfamília Ixoroideae, com base nos tipos de lenho, de inclusões minerais e de parênquima axial. Cabe ainda destacar que os resultados obtidos corroboraram a importância da anatomia do lenho para a identificação de espécies de difícil reconhecimento na família Rubiaceae. Esses dados são úteis especialmente na ausência de material reprodutivo, o que representa importante aspecto para o gerenciamento e manejo das espécies nativas da Unidade de Conservação onde este estudo foi realizado

Avaliação por ressonância magnética funcional da necrose coagulativa por ablação de radiofrequência nas metástases hepáticas colorretais

A maioria dos pacientes que apresentam metástases hepáticas colorretais (MHCR) não são elegíveis para ressecção. Por isso, outras técnicas para se alcançar o controle locorregional da doença têm sido utilizadas. A Ablação por Radiofrequência (ARF) hepática tem sido empregada frequentemente para o tratamento desta condição devido às boas taxas de resposta, principalmente quando associada ao emprego de quimioterápicos modernos. Apesar da caracterização das MHCR no pré-operatório estar bem estabelecida, os parâmetros de ressonância magnética (RM) após ARF no período pós-cirúrgico requerem maior padronização objetiva. O coeficiente de difusão aparente de água (CDA) tem sido usado na RM como um parâmetro de isquemia e necrose. Entretanto, não está ainda bem definido seu papel e das imagens ponderadas de difusão (DWI) na avaliação da necrose coagulativa gerada pela ARF, especificamente em pacientes com MHCR. O objetivo deste estudo consiste em avaliar o espectro de mudança em RM funcional após a ARF de MHCR. Foi realizado estudo retrospectivo entre 2001 e 2006, avaliando 51 pacientes que foram submetidos à ARF por MHCR no Hospital Johns Hopkins (Baltimore, EUA) dos quais 16 preencheram os critérios de inclusão. Os critérios de inclusão foram: (1) apresentar MHCR tratada cirurgicamente com intenção curativa por ARF guiados por ultrassom per-operatório, e (2) ter uma RM anterior e imediatamente após a cirurgia (até 10 dias). As imagens de RMs antes e após a ablação hepática para MCHR foram identificadas e revistas. As imagens de RM de difusão e captação de contraste foram feitas numa unidade de 1.5 T. Imagens em T2 e T1 foram realizadas na presença e ausência de contraste venoso. Todos os exames tiveram a espessura de 4 a 6 mm e um intervalo de 2 mm, apresentando um angulo de rotação de 150. O índice de difusão foi determinado com um b-valor (intensidade do gradiente de difusão) de 500 seg/mm2. As análises de parâmetros para avaliar e comparar o pré e pós ARF através da RM funcional incluiram: (1) valores do mapa de CDA, (2) captação de contraste, (3) difusão e (4) mudança no tamanho da lesão. Em adição, a sobrevida mediana global e tempo para recorrência local foram calculados. As imagens foram avaliadas por um consenso de dois radiologistas/cirurgiões. Foram avaliados no total 65 lesões, com tamanho médio pré-ablação de 1,7 cm. Após ablação o tamanho médio da lesão aumentou para 3,5 cm (p<0,001). A captação de contraste nas fases arterial e venosa diminuíram significativamente após ARF (diminuição média 10% e 17,5%, respectivamente, p = 0,002 e <0,001). O valor médio do mapa de CDA da lesão foi de 2.79 x 10-3 mm2/seg pré-ARF, e após ARF diminui em média para 1.75 x 10-3 mm2/seg (p<0.001). A sobrevida mediana global foi de 34,7 meses. A ressonância magnética funcional através da captação de contraste e difusão pode prover uma estimativa subjetiva e objetiva da necrose coagulativa tissular e da desidratação celular na área ablada por radiofrequência. Quando combinada ao aumento no tamanho do tumor, podem atuar como um marcador adicional de resposta tumoral.

Efeito da sedação na microcirculação de pacientes em choque séptico

Ao longo dos últimos anos, apesar de todo desenvolvimento e pesquisa, a mortalidade na sepse permanece elevada. Na área de microcirculação foram realizados estudos em modelos experimentais de sepse ao longo das últimas duas décadas, quando se observou, através de técnicas invasivas, alterações como redução expressiva da densidade capilar funcional. A técnica denominada sidestream dark field (SDF) imaging, recentemente desenvolvida, permite a avaliação da microcirculação de forma transcutânea. A utilização desta técnica permitiu evidenciar a redução da densidade capilar funcional em pacientes com sepse grave quando comparado a um indivíduo saudável. Posteriormente, foi demonstrado que alterações persistentes na microcirculação de pacientes sépticos, mesmo com sinais vitais estabilizados, estão associadas com pior prognóstico.Evidentemente, os pacientes com sepse grave ou choque séptico sofrem uma grande quantidade de intervenções terapêuticas, aonde muitas delas alteram a microcirculação. Estudos analisando a microcirculação em pacientes em uso de nitroglicerina, corticóide, recebendo hemotransfusão ou ainda infusão de noradrenalina foram publicados recentemente.Entretanto, até o presente momento, não existem publicações que descrevam a influência dos sedativos na microcirculação de pacientes com choque séptico. As drogas mais comumente utilizadas para sedação de pacientes em ventilação mecânica são o sedativo midazolam e o anestésico propofol. Os objetivos do estudo foram: avaliar o efeito dos principais agentes sedativos utilizados na prática clínica na microcirculação de pacientes com choque séptico utilizando a técnica de sidestream dark field imaging, comparar os efeitos na microcirculação do midazolam com o propofol em pacientes com choque séptico e verificar se existe relação das alterações microcirculatórias provocadas pelos sedativos com as variações de diferentes parâmetros hemodinâmicos, gasométricos ou metabólicos como pressão arterial, índice cardíaco, lactato e saturação venosa central de oxigênio. Foram estudados (estudo prospectivo) 16 pacientes internados no Centro de Terapia Intensiva da Casa de Saúde São José. Os pacientes internados com diagnóstico de choque séptico e que possuíam indicação clínica de ventilação mecânica e de suspensão diária da sedação foram submetidos ao estudo da microcirculação na mucosa sublingual utilizando a técnica de sidestream dark field imaging. Estes pacientes foram sedados conforme orientação do protocolo já existente de sedação, inicialmente com propofol e posteriormente com midazolam. Os principais resultados observados foram:a macrohemodinâmica não diferiu nos 2 momentos do exame, o BIS (bispectral índex of sedation) se manteve na faixa recomendada nos 2 momentos do exame, tendo aumentado quando o paciente acordava, conforme esperado, e a proporção de vasos pequenos perfundidos e o índice de fluxo da microcirculação foram significativamente menores, enquanto o índice de heterogeneidade foi significativamente maior quando os pacientes estavam recebendo infusão de propofol quando comparados com a infusão de midazolam. Concluímos que, em pacientes com choque séptico, a administração de midazolam resulta em uma melhora dos parâmetros microcirculatórios quando comparada com a administração de propofol. Essa diferença não pode ser atribuída a alterações de variáveis hemodinâmicas sistêmicas.

Evaluation of the In Situ Ichthyoplankton Imaging System (ISIIS): comparison with the traditional (bongo net) sampler

Plankton and larval fish sampling programs often are limited by a balance between sampling frequency (for precision) and costs. Advancements in sampling techniques hold the potential to add considerable efficiency and, therefore, add sampling frequency to improve precision. We compare a newly developed plankton imaging system, In Situ Ichthyoplankton Imaging System (ISIIS), with a bongo sampler, which is a traditional plankton sampling gear developed in the 1960s. Comparative sampling was conducted along 2 transects ~30–40 km long. Over 2 days, we completed 36 ISIIS tow-yo undulations and 11 bongo oblique tows, each from the surface to within 10 m of the seafloor. Overall, the 2 gears detected comparable numbers of larval fishes, representing similar taxonomic compositions, although larvae captured with the bongo were capable of being identified to lower taxonomic levels, especially larvae in the small (<5 mm), preflexion stages. Size distributions of the sampled larval fishes differed considerably between these 2 sampling methods, with the size range and mean size of larval fishes larger with ISIIS than with the bongo sampler. The high frequency and fine spatial scale of ISIIS allow it to add considerable sampling precision (i.e., more vertical sections) to plankton surveys. Improvements in the ISIIS technology (including greater depth of field and image resolution) should also increase taxonomic resolution and decrease processing time. When coupled with appropriate net sampling (for the purpose of collecting and verifying the identification of biological samples), the use of ISIIS could improve overall survey design and simultaneously provide detailed, process-oriented information for fisheries scientists and oceanographers.

Three-dimensional ultrasound imaging.

This review is about the development of three-dimensional (3D) ultrasonic medical imaging, how it works, and where its future lies. It assumes knowledge of two-dimensional (2D) ultrasound, which is covered elsewhere in this issue. The three main ways in which 3D ultrasound may be acquired are described: the mechanically swept 3D probe, the 2D transducer array that can acquire intrinsically 3D data, and the freehand 3D ultrasound. This provides an appreciation of the constraints implicit in each of these approaches together with their strengths and weaknesses. Then some of the techniques that are used for processing the 3D data and the way this can lead to information of clinical value are discussed. A table is provided to show the range of clinical applications reported in the literature. Finally, the discussion relating to the technology and its clinical applications to explain why 3D ultrasound has been relatively slow to be adopted in routine clinics is drawn together and the issues that will govern its development in the future explored.

SUB-BAND CODING TECHNIQUES FOR ROBUST 4. 8 TO 8 kb/s SPEECH CODERS.

This paper describes a speech coding technique that has been developed in order to provide a method of digitising speech at bit rates in the range 4. 8 to 8 kb/s, that is insensitive to the effects of acoustic background noise and bit errors on the digital link. The main aim has been to develop a coding scheme which provides speech quality and robustness against noise and errors that is similar to a 16000 b/s continuously variable slope delta (CVSD) coder, but which operates at half its data rate or less. A desirable aim was to keep the complexity of the coding scheme within the scope of what could reasonably be handled by current signal processing chips or by a single custom integrated circuit. Applications areas include mobile radio and small Satcomms terminals.

A microfluidic device for high density hydrodynamic cell trapping, growth and super-resolution imaging

Super-Resolution imaging techniques such as Fluorescent Photo-Activation Localisation Microscopy (FPALM) have created a powerful new toolkit for investigating living cells, however a simple platform for growing, trapping, holding and controlling the cells is needed before the approach can become truly widespread. We present a microfluidic device formed in polydimethylsiloxane (PDMS) with a fluidic design which traps cells in a high-density array of wells and holds them very still throughout the life cycle, using hydrodynamic forces only. The device meets or exceeds all the necessary criteria for FPALM imaging of Schizosaccharomyces pombe and is designed to remain flexible, robust and easy to use. © 2011 IEEE.

Thermal imaging study of scalar transport in shallow wakes

The thermal imaging technique relies on the usage of infrared signal to detect the temperature field. Using temperature as a flow tracer, thermography is used to investigate the scalar transport in the shallow-water wake generated by an emergent circular cylinder. Thermal imaging is demonstrated to be a good quantitative flow visualization technique for studying turbulent mixing phenomena in shallow waters. A key advantage of the thermal imaging method over other scalar measurement techniques, such as the Laser Induced Fluorescence (LIF) and Planar Concentration Analysis (PCA) methods, is that it involves a very simple experimental setup. The dispersion characteristics captured with this technique are found to be similar to past studies with traditional measurement techniques. © 2012 Publishing House for Journal of Hydrodynamics.

Construction site image retrieval based on material cluster recognition

The capability to automatically identify shapes, objects and materials from the image content through direct and indirect methodologies has enabled the development of several civil engineering related applications that assist in the design, construction and maintenance of construction projects. This capability is a product of the technological breakthroughs in the area of image processing that has allowed for the development of a large number of digital imaging applications in all industries. In this paper, an automated and content based construction site image retrieval method is presented. This method is based on image retrieval techniques, and specifically those related with material and object identification and matches known material samples with material clusters within the image content. The results demonstrate the suitability of this method for construction site image retrieval purposes and reveal the capability of existing image processing technologies to accurately identify a wealth of materials from construction site images.

Shape Recognition of Linear Construction Entities from Construction Site Images

The capability to automatically identify shapes, objects and materials from the image content through direct and indirect methodologies has enabled the development of several civil engineering related applications that assist in the design, construction and maintenance of construction projects. This capability is a product of the technological breakthroughs in the area of Image Processing that has allowed for the development of a large number of digital imaging applications in all industries. In this paper, an automated and content based shape recognition model is presented. This model was devised to enhance the recognition capabilities of our existing material based image retrieval model. The shape recognition model is based on clustering techniques, and specifically those related with material and object segmentation. The model detects the borders of each previously detected material depicted in the image, examines its linearity (length/width ratio) and detects its orientation (horizontal/vertical). The results emonstrate the suitability of this model for construction site image retrieval purposes and reveal the capability of existing clustering technologies to accurately identify the shape of a wealth of materials from construction site images.

Shape-Based Retrieval of Construction Site Photographs

Digital photographs of construction site activities are gradually replacing their traditional paper based counterparts. Existing digital imaging technologies in hardware and software make it easy for site engineers to take numerous photographs of “interesting” processes and activities on a daily basis. The resulting photographic data are evidence of the “as-built” project, and can therefore be used in a number of project life cycle tasks. However, the task of retrieving the relevant photographs needed in these tasks is often burdened by the sheer volume of photographs accumulating in project databases over time and the numerous objects present in each photograph. To solve this problem, the writers have recently developed a number of complementary techniques that can automatically classify and retrieve construction site images according to a variety of criteria (materials, time, date, location, etc.). This paper presents a novel complementary technique that can automatically identify linear (i.e., beam, column) and nonlinear (i.e., wall, slab) construction objects within the image content and use that information to enhance the performance of the writers’ existing construction site image retrieval approach.

Measuring EGFR Separations on Cells with ∼10 nm Resolution via Fluorophore Localization Imaging with Photobleaching

Detecting receptor dimerisation and other forms of clustering on the cell surface depends on methods capable of determining protein-protein separations with high resolution in the ∼10-50 nm range. However, this distance range poses a significant challenge because it is too large for fluorescence resonance energy transfer and contains distances too small for all other techniques capable of high-resolution in cells. Here we have adapted the technique of fluorophore localisation imaging with photobleaching to measure inter-receptor separations in the cellular environment. Using the epidermal growth factor receptor, a key cancer target molecule, we demonstrate ∼10 nm resolution while continuously covering the range of ∼10-80 nm. By labelling the receptor on cells expressing low receptor numbers with a fluorescent antagonist we have found inter-receptor separations all the way up from 8 nm to 59 nm. Our data are consistent with epidermal growth factor receptors being able to form homo-polymers of at least 10 receptors in the absence of activating ligands. © 2013 Needham et al.

Development of a time and space resolved sampling probe diagnostic for engine exhaust hydrocarbons

In order to understand how unburned hydrocarbons emerge from SI engines and, in particular, how non-fuel hydrocarbons are formed and oxidized, a new gas sampling technique has been developed. A sampling unit, based on a combination of techniques used in the Fast Flame Ionization Detector (FFID) and wall-mounted sampling valves, was designed and built to capture a sample of exhaust gas during a specific period of the exhaust process and from a specific location within the exhaust port. The sampling unit consists of a transfer tube with one end in the exhaust port and the other connected to a three-way valve that leads, on one side, to a FFID and, on the other, to a vacuum chamber with a high-speed solenoid valve. Exhaust gas, drawn by the pressure drop into the vacuum chamber, impinges on the face of the solenoid valve and flows radially outward. Once per cycle during a specified crank angle interval, the solenoid valve opens and traps exhaust gas in a storage unit, from which gas chromatography (GC) measurements are made. The port end of the transfer tube can be moved to different locations longitudinally or radially, thus allowing spatial resolution and capturing any concentration differences between port walls and the center of the flow stream. Further, the solenoid valve's opening and closing times can be adjusted to allow sampling over a window as small as 0.6 ms during any portion of the cycle, allowing resolution of a crank angle interval as small as 15°CA. Cycle averaged total HC concentration measured by the FFID and that measured by the sampling unit are in good agreement, while the sampling unit goes one step further than the FFID by providing species concentrations. Comparison with previous measurements using wall-mounted sampling valves suggests that this sampling unit is fully capable of providing species concentration information as a function of air/fuel ratio, load, and engine speed at specific crank angles. © Copyright 1996 Society of Automotive Engineers, Inc.

On-chip switching of a silicon nitride micro-ring resonator based on digital microfluidics platform.

We demonstrate the switching of a silicon nitride micro ring resonator (MRR) by using digital microfluidics (DMF). Our platform allows driving micro-droplets on-chip, providing control over the effective refractive index at the vicinity of the resonator and thus facilitating the manipulation of the transmission spectrum of the MRR. The device is fabricated using a process that is compatible with high-throughput silicon fabrication techniques with buried highly doped silicon electrodes. This platform can be extended towards controlling arrays of micro optical devices using minute amounts of liquid droplets. Such an integration of DMF and optical resonators on chip can be used in variety of applications, ranging from biosensing and kinetics to tunable filtering on chip.

Novel fluid grid and voidage calculation techniques for a discrete element model of a 3D cylindrical fluidized bed

A discrete element model (DEM) combined with computational fluid dynamics (CFD) was developed to model particle and fluid behaviour in 3D cylindrical fluidized beds. Novel techniques were developed to (1) keep fluid cells, defined in cylindrical coordinates, at a constant volume in order to ensure the conditions for validity of the volume-averaged fluid equations were satisfied and (2) smoothly and accurately measure voidage in arbitrarily shaped fluid cells. The new technique for calculating voidage was more stable than traditional techniques, also examined in the paper, whilst remaining computationally-effective. The model was validated by quantitative comparison with experimental results from the magnetic resonance imaging of a fluidised bed analysed to give time-averaged particle velocities. Comparisons were also made between theoretical determinations of slug rise velocity in a tall bed. It was concluded that the DEM-CFD model is able to investigate aspects of the underlying physics of fluidisation not readily investigated by experiment. © 2014 The Authors.