Relative effects of fragment size and connectivity on bird community in the Atlantic Rain Forest: Implications for conservation

It is known that large fragment sizes and high connectivity levels are key components for maintaining species in fragments; however, their relative effects are poorly understood, especially in tropical areas. In order to test these effects, we built models for explaining understory birds occurrence in a fragmented Atlantic Rain Forest landscape with intermediate habitat cover (3%). Data from over 9000 mist-net hours from 17 fragments differing in size (2-175 ha) and connectivity (considering corridor linkages and distance to nearby fragments) were ranked under a model selection approach. A total 1293 individuals of 62 species were recorded. Species richness, abundance and compositional variation were mainly affected by connectivity indices that consider the capacity of species to use corridors and/or to cross short distances up to 30 m through the matrix. Bird functional groups were differently affected by area and connectivity: while terrestrial insectivores, omnivores and frugivores were affected by both area and connectivity, the other groups (understory insectivores, nectarivores, and others) were affected only by connectivity. In the studied landscape, well connected fragments can sustain an elevated number of species and individuals. Connectivity gives the opportunity for individuals to use multiple fragments, reducing the influence of fragment size. While preserving large fragments is a conservation target worldwide and should continue to be, our results indicated that connectivity between fragments can enhance the area functionally connected and is beneficial to all functional groups and therefore should be a conservation priority. (C) 2008 Elsevier Ltd. All rights reserved.

Biogeography of Glandulocaudinae (Teleostei : Characiformes : Characidae) revisited: phylogenetic patterns, historical geology and genetic connectivity

The biogeography of the Glandulocaudinae ( former Glandulocaudini) is reviewed. The major pattern of diversification presented by this group of freshwater fishes can be clearly associated to the main aspects of the tectonic evolution of the southern portion of the Cis-Andean South American Platform. The phylogenetic relationships within the group suggest that the clade represented by Lophiobrycon is the sister-group of the more derived clade represented by the genus Glandulocauda and Mimagoniates. Lophiobrycon and Glandulocauda occur in areas of the ancient crystalline shield of southeastern Brazil and their present allopatric distribution is probably due to relict survival and tectonic vicariant events. Populations of Glandulocauda melanogenys are found in contiguous drainages in presently isolated upper parts of the Tiete, Guaratuba, Itatinga, and Ribeira de Iguape basins and this pattern of distribution is probably the result of river capture caused by tectonic processes that affected a large area in eastern and southeastern Brazil. The species of Mimagoniates are predominantly distributed along the eastern and southeastern coastal areas, but M. microlepis is additionally found in the rio Iguacu and Tibagi basins. Mimagoniates barberi occurs in both SW margin of the upper rio Parana basin and the lower Paraguay and Mimagoniates sp. occurs in the upper Paraguay river basin. Tectonic activations of the Continental Rift of Southeastern Brazil along the eastern margin of the Upper Parana basin promoted population fragmentation responsible of the present day distribution presented by Glandulocauda melanogenys. We hypothesize that occurrence of Mimagoniates along the lowland area around the Parana basin was due to a single or a multiple fragmentation of populations along the W-SW border of the upper Parana Basin, probably due to the major tectonic origin of the Chaco-Pantanal wetland foreland basins since the Miocene as well as Cenozoic tectonic activity along the borders of the upper Parana basin, such as in the eastern Paraguay, in the Asuncion Rift. Distributional pattern of Mimagoniates suggests that its initial diversification may be related to the tectonic evolution of the Chaco-Pantanal foreland basin system and a minimum age of 2.5 M.Y are proposed for this monophyletic group. Previous hypotheses on sea level fluctuations of the late Quaternary as being the main causal mechanism promoting cladogenesis and speciation of the group are critically reviewed. Phylogeographic studies based on molecular data indicate significant differences among the isolated populations of M. microlepis. These findings suggest that a much longer period of time and a paleogeographic landscape configuration of the Brazilian southeastern coastal region explain the present observed phylogenetic and biogeographic patterns.

Correlation of the in vitro antifungal drug susceptibility with the in vivo activity of fluconazole in a murine model of cerebral infection caused by Cryptococcus gattii

Forty Cryptococcus gattii strains were submitted to antifungal susceptibility testing with fluconazole, itraconazole, amphotericin B and terbinafine. The minimum inhibitory concentration (MIC) ranges were 0.5-64.0 for fluconazole, < 0.015-0.25 for itraconazole, 0.015-0.5 for amphotericin B and 0.062-2.0 for terbinafine. A bioassay for the quantitation of fluconazole in murine brain tissue was developed. Swiss mice received daily injections of the antifungal, and their brains were withdrawn at different times over the 14-day study period. The drug concentrations varied from 12.98 to 44.60 mu g/mL. This assay was used to evaluate the therapy with fluconazole in a model of infection caused by C. gattii. Swiss mice were infected intracranially and treated with fluconazole for 7, 10 or 14 days. The treatment reduced the fungal burden, but an increase in fungal growth was observed on day 14. The MIC for fluconazole against sequential isolates was 16 mu g/mL, except for the isolates obtained from animals treated for 14 days (MIC = 64 mu g/mL). The quantitation of cytokines revealed a predominance of IFN-gamma and IL-12 in the non-treated group and elevation of IL-4 and IL-10 in the treated group. Our data revealed the possibility of acquired resistance during the antifungal drug therapy.

A structure-dynamic approach to cortical organization: Number of paths and accessibility

A structure-dynamic approach to cortical systems is reported which is based on the number of paths and the accessibility of each node. The latter measurement is obtained by performing self-avoiding random walks in the respective networks, so as to simulate dynamics, and then calculating the entropies of the transition probabilities for walks starting from each node. Cortical networks of three species, namely cat, macaque and humans, are studied considering structural and dynamical aspects. It is verified that the human cortical network presents the highest accessibility and number of paths (in terms of z-scores). The correlation between the number of paths and accessibility is also investigated as a mean to quantify the level of independence between paths connecting pairs of nodes in cortical networks. By comparing the cortical networks of cat, macaque and humans, it is verified that the human cortical network tends to present the largest number of independent paths of length larger than four. These results suggest that the human cortical network is potentially the most resilient to brain injures. (C) 2009 Elsevier B.V. All rights reserved.

Arterial spin labeling of cerebral perfusion territories using a seperate labeling coil

Purpose: To obtain cerebral perfusion territories of the left, the right. and the posterior circulation in humans with high signal-to-noise ratio (SNR) and robust delineation. Materials and Methods: Continuous arterial spin labeling (CASL) was implemented using a dedicated radio frequency (RF) coil. positioned over the neck, to label the major cerebral feeding arteries in humans. Selective labeling was achieved by flow-driven adiabatic fast passage and by tilting the longitudinal labeling gradient about the Y-axis by theta = +/- 60 degrees. Results: Mean cerebral blood flow (CBF) values in gray matter (GM) and white matter (WM) were 74 +/- 13 mL center dot 100 g(-1) center dot minute(-1) and 14 +/- 13 mL center dot 100 g(-1) center dot minute(-1), respectively (N = 14). There were no signal differences between left and right hemispheres when theta = 0 degrees (P > 0.19), indicating efficient labeling of both hemispheres. When theta = +60 degrees, the signal in GM on the left hemisphere, 0.07 +/- 0.06%, was 92% lower than on the right hemisphere. 0.85 +/- 0.30% (P < 1 x 10(-9)). while for theta = -60 degrees, the signal in the right hemisphere. 0.16 +/- 0.13%, was 82% lower than on the contralateral side. 0.89 +/- 0.22% (P < 1 x 10(-10)). Similar attenuations were obtained in WM. Conclusion: Clear delineation of the left and right cerebral perfusion territories was obtained, allowing discrimination of the anterior and posterior circulation in each hemisphere.

Performance evaluation of routing protocols for MANETs with known connectivity patterns using evolving graphs

The assessment of routing protocols for mobile wireless networks is a difficult task, because of the networks` dynamic behavior and the absence of benchmarks. However, some of these networks, such as intermittent wireless sensors networks, periodic or cyclic networks, and some delay tolerant networks (DTNs), have more predictable dynamics, as the temporal variations in the network topology can be considered as deterministic, which may make them easier to study. Recently, a graph theoretic model-the evolving graphs-was proposed to help capture the dynamic behavior of such networks, in view of the construction of least cost routing and other algorithms. The algorithms and insights obtained through this model are theoretically very efficient and intriguing. However, there is no study about the use of such theoretical results into practical situations. Therefore, the objective of our work is to analyze the applicability of the evolving graph theory in the construction of efficient routing protocols in realistic scenarios. In this paper, we use the NS2 network simulator to first implement an evolving graph based routing protocol, and then to use it as a benchmark when comparing the four major ad hoc routing protocols (AODV, DSR, OLSR and DSDV). Interestingly, our experiments show that evolving graphs have the potential to be an effective and powerful tool in the development and analysis of algorithms for dynamic networks, with predictable dynamics at least. In order to make this model widely applicable, however, some practical issues still have to be addressed and incorporated into the model, like adaptive algorithms. We also discuss such issues in this paper, as a result of our experience.

Functional and Structural Connectivity Between the Perigenual Anterior Cingulate and Amygdala in Bipolar Disorder

Objective: Abnormalities in the morphology and function of two gray matter structures central to emotional processing, the perigenual anterior cingulate cortex (pACC) and amygdala, have consistently been reported in bipolar disorder (BD). Evidence implicates abnormalities in their connectivity in BD. This study investigates the potential disruptions in pACC-amygdala functional connectivity and associated abnormalities in white matter that provides structural connections between the two brain regions in BD. Methods: Thirty-three individuals with BD and 31 healthy comparison subjects (HC) participated in a scanning session during which functional magnetic resonance imaging (fMRI) during processing of face stimuli and diffusion tensor imaging (DTI) were performed. The strength of pACC-amygdala functional connections was compared between BD and HC groups, and associations between these functional connectivity measures from the fMRI scans and regional fractional anisotropy (FA) from the DTI scans were assessed. Results: Functional connectivity was decreased between the pACC and amygdala in the BD group compared with HC group, during the processing of fearful and happy faces (p < .005). Moreover, a significant positive association between pACC-amygdala functional coupling and FA in ventrofrontal white matter, including the region of the uncinate fasciculus, was identified (p < .005). Conclusion: This study provides evidence for abnormalities in pACC-amygdala functional connectivity during emotional processing in BD. The significant association between pACC-amygdala functional connectivity and the structural integrity of white matter that contains pACC-amygdala connections suggest that disruptions in white matter connectivity may contribute to disturbances in the coordinated responses of the pACC and amygdala during emotional processing in BD.

Does the neuromotor abnormality type affect the salivary parameters in individuals with cerebral palsy?

Background: Previous studies reported alterations in salivary flow rate and biochemical parameters of saliva in cerebral palsy (CP) individuals; however, none of these considered the type of neuromotor abnormality among CP individuals, thus it remains unclear whether the different anatomical and extended regions of the brain lesions responsible for the neurological damage in CP might include disruption of the regulatory mechanism of saliva secretion as part of the encephalopathy. The aim of this study was to evaluate salivary flow rate, pH and buffer capacity in saliva of individuals with CP, aged 3-16 years, with spastic neuromotor abnormality type and clinical patterns of involvement. Methods: Sixty-seven individuals with CP spasticity movement disorder, were divided in two groups according to age (3-8- and 9-16-years-old) and compared with 35 sibling volunteers with no neurological damage, divided in two groups according to age (3-8- and 9-16-years-old). Whole saliva was collected under slight suction and pH and buffer capacity were determined using a digital pHmeter. Buffer capacity was measured by titration using 0.01N HCL, and flow rate was calculated in ml/min. Results: In both age groups studied, whole saliva flow rate, pH and buffer capacity were significantly lower in the spastic CP group (P < 0.05). The clinical patterns of involvement did not influence the studied parameters. Conclusion: These findings show that individuals with spastic cerebral palsy present lower salivary flow rate, pH and buffer capacity that can increase the risk of oral disease in this population.

The connectivity paradox: Students’ use of technology as both help and hindrance, and the challenge of striking a balance.

While there is research supporting the use of technology in classrooms, there is also evidence that technology often disrupts student learning. Examples of technology use in classrooms by both teachers and students will be explored, including the benefits and risks of each to the learning process. Research findings on cognition, attention, and classroom technologies will inform strategies for best practices for classroom technology use.

Avaliação do efeito cerebral agudo do Metilfenidato, através de Spect, em crianças e adolescentes do sexo masculino com transtorno de déficit de atenção e hiperatividade : um ensaio clínico randomizado

Resumo não disponível.

Efeito in vitro dos ácidos etilmalônico e metilsucínico sobre as atividades enzimáticas dos complexos da cadeia respiratória mitocondrial e da creatina quinase em córtex cerebral, músculo esquelético e músculo cardíaco de ratos jovens

A deficiência de desidrogenase das acil-CoA de cadeia curta (SCAD) é um erro inato do metabolismo devido a um defeito no último ciclo de β-oxidação, sendo específica para ácidos graxos de cadeia curta (4 a 6 carbonos), resultando no acúmulo de ácidos orgânicos de cadeia curta, principalmente dos ácidos etilmalônico e metilsucínico, formados pela metabolização por rotas secundárias do butiril-CoA acumulado. A deficiência de SCAD manifesta-se principalmente no período neonatal ou durante a infância e até mesmo na idade adulta. Os achados clínico-laboratoriais são heterogêneos, incluindo acidose metabólica, acidose lática, vômitos, atraso no desenvolvimento, convulsões, fraqueza muscular e miopatia crônica. No entanto, o sintoma mais comum apresentado pelos pacientes portadores dessa deficiência é a disfunção neurológica, a qual pode estar relacionada ao acúmulo de ácidos orgânicos de cadeia curta e sua toxicidade ao sistema nervoso central. No presente trabalho nosso objetivo foi investigar o efeito in vitro dos ácidos etilmalônico e metilsucínico sobre algumas atividades enzimáticas fundamentais para o metabolismo energético. Visando contribuir para uma melhor compreensão da fisiopatogenia dessa doença testamos o efeito desses metabólitos sobre a atividade dos complexos da cadeia respiratória e da creatina quinase em córtex cerebral, músculo esquelético e músculo cardíaco de ratos jovens. Verificamos que os ácidos etilmalônico e metilsucínico, na concentração de 1 mM, inibiram significativamente a atividade do complexo I+III da cadeia respiratória em córtex cerebral de ratos, porém não alteraram a atividade dos demais complexos da cadeia respiratória (II, SDH, II+III, III e IV) nesses tecido bem como não alteraram a atividade de todos os complexos da cadeia repiratória em músculo esquelético e músculo cardíaco dos ratos nas concentrações de 1 e 5 mM. Observamos também que o ácido etilmalônico (1 e 2,5 mM) reduziu de forma significativa a atividade total de creatina quinase em córtex cerebral de ratos, mas não alterou essa atividade nos músculos esquelético e cardíaco. Por outro lado o ácido metilsucínico não modificou a atividade total da creatina quinase em nenhum dos três tecidos estudados, córtex cerebral, músculo esquelético e músculo cardíaco de ratos. Testamos então o efeito do ácido etilmalônico sobre a atividade da creatina quinase nas frações mitocondrial e citosólica de córtex cerebral, músculo cardíaco e músculo esquelético de ratos. O ácido (1 e 2,5 mM) inibiu significativamente a atividade da creatina quinase apenas na fração mitocondrial de córtex cerebral. Demostramos também que o antioxidante glutationa (1 mM) preveniu o efeito inibitório do ácido etilmalônico sobre a atividade total da creatina quinase em córtex cerebral. A glutationa (0,5 mM) e o ácido ascórbico (0,5 mM) também preveniram o efeito inibitório do ácido etilmalônico sobre a atividade da creatina quinase na fração mitocondrial de córtex cerebral. Por outro lado a adição de L-NAME ou trolox não alterou o efeito inibitório do ácido etilmalônico sobre a atividade da creatina quinase. Esses resultados indicam que o ácido etilmalônico possui um efeito inibitório específico sobre a isoforma mitocondrial da creatina quinase do cérebro, ou seja, sobre a CKmi a, não afetando a isoenzima citosólica cerebral ou as isoenzimas citosólicas e mitocondrial presentes no músculo esquelético e no músculo cardíaco. Além disso, o efeito da glutationa, que atua como um agente redutor de grupos tióis, indica que a ação inibitória do ácido etilmalônico sobre a creatina quinase pode estar relaciona à oxidação de grupos sulfidrila essenciais à atividade da enzima. Já a prevenção do efeito inibitório do ácido etilmalônico causada pelo ácido ascórbico sugere que o ácido pode estar envolvido com a formação dos radicais superóxido e hidroxila, uma vez que este agente antioxidante atua sobre esses radicais livres. Essas observações em seu conjunto indicam que os ácidos etilmalônico e metilsucínico comprometem o metabolismo energético cerebral através da inibição de atividades enzimáticas essenciais para a produção e transporte de energia pela célula. É, portanto, possível que esse possa ser um dos mecanismos envolvidos com o dano cerebral que ocorre nos pacientes afetados por deficiência de SCAD.

Efeito da fenilalanina sobre a atividade da creatina quinase em córtex cerebral, cerebelo e cérebro médio de ratos

A fenilcetonúria (PKU) é um erro inato do metabolismo de aminoácidos causada pela deficiência da enzima fenilalanina hidroxilase hepática (PAH) que converte fenilalanina (Phe) em tirosina. Caracteriza-se clinicamente por retardo mental severo e, em alguns pacientes, por convulsões e eczema cutâneo. Bioquimicamente os pacientes afetados por esta doença apresentam acúmulo de Phe e seus metabólitos no sangue e nos tecidos. Phe é considerada o principal agente neurotóxico nesta doença, cujos mecanismos de neurotoxicidade são pouco conhecidos. O metabolismo energético cerebral é caracterizado por níveis altos e variáveis de síntese e de utilização de ATP. O cérebro contém altos níveis de creatinaquinase (CK), uma enzima que transferere reversivelmente um grupo fosforil entre ATP e creatina e entre ADP e fosfocreatina (PCr). Considerando que a CK parece estar envolvida em certas condições patológicas relacionadas com deficiência de energia cerebral e sabendo que a PKU está associada à redução de produção e de utilização de energia pelo cérebro, no presente trabalho verificamos a atividade da CK em homogeneizado total de córtex cerebral, cerebelo e cérebro médio de ratos Wistar submetidos aos modelos experimentais agudo e crônico de hiperfenilalaninemia (HPA) quimicamente induzida. Também investigamos o efeito in vitro da Phe e da α-metil-DL-fenilalanina (MePhe), um inibidor da PAH, nas mesmas estruturas de ratos Wistar de 22 dias de idade não tratados. Nossos resultados mostraram uma redução significativa na atividade da CK nas estruturas cerebrais estudadas de ratos sujeitos a HPA. Também verificamos que Phe e MePhe inibiram in vitro a atividade da CK nas mesmas estruturas. O estudo da interação cinética entre Phe e MePhe, sugere a existência de um único sítio de ligação na CK para os dois compostos. Considerando a importância da CK para a manutenção do metabolismo energético cerebral, nossos resultados sugerem que a alteração da homeostasia energética pode contribuir para a neurotoxicidade da Phe na PKU.