Prevalência de hipertensão arterial em pacientes com oclusão do ramo da veia central da retina

OBJETIVOS: Identificar em pacientes com oclusão do ramo da veia central da retina utilizando a monitorização ambulatorial da pressão arterial e medidas clínicas da pressão arterial: prevalência de hipertensão e o perfil noturno da pressão arterial. MÉTODOS: Prospectivamente, 93 olhos de 83 pacientes com oclusão do ramo da veia central da retina foram submetidos à avaliação oftalmológica. Após, os pacientes foram encaminhados para avaliação clínica e monitorização da pressão arterial. Pacientes sem descenso da pressão durante o sono ("non-dipper") foram definidos como um declínio na pressão arterial sistólica < 10%, e pacientes com descenso presente ("dipper") quando este valor fosse superior. RESULTADOS: A doença acometeu um olho em 73 (88%) pacientes. O ramo temporal superior foi o local da oclusão em 61 (65,6%) olhos, no restante o ramo temporal inferior foi afetado. Setenta e seis (92%) pacientes formam diagnosticados como hipertensos após a avaliação clínica. A monitorização ambulatorial da pressão arterial identificou 76 hipertensos, 5 normotensos, 1 hipertenso do avental branco e 1 hipertenso mascarado. Estes 2 últimos foram excluídos da análise. Dos 81 pacientes, analisados. Quarenta (49%) eram "dippers" e 41 (51%) "non-dippers". Entre os hipertensos (n=76), 36 (47,4%) eram "dippers" e 40 (52,6%) "non-dippers". CONCLUSÃO: Prevalência de hipertensão arterial em nosso estudo foi extremamente elevada (92,8%), que sugere que a fisiopatologia da doença tem íntima relação com as alterações promovidas pela hipertensão. Pouco mais da metade dos hipertensos eram "non-dipper" (n=40; 52,6%). Estas evidências sugerem que um nível sustentado de pressão arterial possa ser um fator de risco adicional para a oclusão do ramo da veia central da retina.

Losses of immunoreactive parvalbumin amacrine and immunoreactive alphaprotein kinase C bipolar cells caused by methylmercury chloride intoxication in the retina of the tropical fish Hoplias malabaricus

To quantify the effects of methylmercury (MeHg) on amacrine and on ON-bipolar cells in the retina, experiments were performed in MeHg-exposed groups of adult trahiras (Hoplias malabaricus) at two dose levels (2 and 6 µg/g, ip). The retinas of test and control groups were processed by mouse anti-parvalbumin and rabbit anti-_aprotein kinase C (_aPKC) immunocytochemistry. Morphology and soma location in the inner nuclear layer were used to identify immunoreactive parvalbumin (PV-IR) and _aPKC (_aPKC-IR) in wholemount preparations. Cell density, topography and isodensity maps were estimated using confocal images. PV-IR was detected in amacrine cells in the inner nuclear layer and in displaced amacrine cells from the ganglion cell layer, and _aPKC-IR was detected in ON-bipolar cells. The MeHg-treated group (6 µg/g) showed significant reduction of the ON-bipolar _aPKC-IR cell density (mean density = 1306 ± 393 cells/mm²) compared to control (1886 ± 892 cells/mm²; P < 0.001). The mean densities found for amacrine PV-IR cells in MeHg-treated retinas were 1040 ± 56 cells/mm² (2 µg/g) and 845 ± 82 cells/mm² (6 µg/g), also lower than control (1312 ± 31 cells/mm²; P < 0.05), differently from the data observed in displaced PV-IR amacrine cells. These results show that MeHg changed the PV-IR amacrine cell density in a dose-dependent way, and reduced the density of _aKC-IR bipolar cells at the dose of 6 µg/g. Further studies are needed to identify the physiological impact of these findings on visual function.

O fator de crescimento do nervo inibe o edema citotóxico de células de Müller e células bipolares da retina de rato por meio da liberação de citocinas gliais: participação do sistema glutamatérgico e purinérgico

O fator de crescimento do nervo (NGF) pode retardar a degeneração celular na retina de ratos em diferentes injúrias retinianas. O acúmulo de água em células da retina contribui para o desenvolvimento de edema retiniano e degeneração neuronal. Em atribuição ao seu efeito protetor, este trabalho teve por objetivo avaliar se o NGF influencia o edema celular osmótico em células de Müller e células bipolares. Assim, montagens planas, fatias de retina e células isoladas da retina de ratos foram superfundidas com solução hipo-osmótica na presença de BaCl₂. Secções retinianas foram utilizadas para imunomarcações, e a liberação de adenosina foi medida por cromatografia líquida de alta eficácia, em montagens planas. A área de secção transversal celular foi medida antes e após a superfusão em meio hipo-osmótico, em fatias de retina e suspensões celulares. Tanto células de Müller quanto células bipolares foram imunopositivas para TrkA, mas somente células de Müller foram marcadas contra p75^NTR e NGF. A hipo-osmolaridade induziu um rápido e significativo aumento da liberação de adenosina endógena em retinas controle, mas não em retinas perfundidas com BaCl₂. O NGF inibiu o edema citotóxico em células de Müller e em células bipolares em fatias de retina controle e retinas pós-isquêmicas submetidas a condições hipo-osmóticas. Por outro lado, NGF impediu o edema citotóxico da célula de Müller isolada, mas não da célula bipolar isolada (em meio hipo-osmótico contendo íons Ba²⁺). Isto sugere que NGF induz a liberação de fatores por células de Müller, os quais inibem o edema citotóxico de células bipolares em fatias de retina. O efeito inibitório do NGF sobre o edema citotóxico de células de Müller foi mediado pela ativação do receptor TrkA, mas não de p75^NTR, e foi anulado por bloqueadores de receptores metabotrópicos de glutamato, receptores de adenosina A₁, e receptores do fator de crescimento de fibroblasto (FGF). O bFGF evitou o edema citotóxico de células de Müller isoladas, mas inibiu somente em parte o edema citotóxico de células bipolares isoladas. O bloqueio de FGFR impediu o efeito inibidor de edema celular da adenosina, sugerindo que a liberação de bFGF ocorre após à ativação autócrina/parácrina de receptores A_l. Além de bFGF, GDNF e TGF431 reduziram em parte o edema citotóxico da célula bipolar. Estes dados sugerem que o efeito neuroprotetor do NGF é em parte mediado pela prevenção de edema citotóxico de células gliais e bipolares da retina.

Retinopatia diabética experimental: estudo estrutural, ultraestrutural e morfométrico da retina de ratos normais, diabéticos e diabéticos tratados

Pós-graduação em Saúde Coletiva - FMB

Intrinsic organization of the suprachiasmatic nucleus in the capuchin monkey

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

ENDO-OLIGOPEPTIDASE-A, A PUTATIVE ENKEPHALIN-GENERATING ENZYME, IN THE VERTEBRATE RETINA

Endo-oligopeptidase A, EC 3.4.22.19, converts small enkephalin-containing peptides into the corresponding enkephalins in vitro. We investigated the presence of endooligopeptidase A in the retina and its possible colocalization with enkephalins in retinal neurons. The specific activity of endo-oligopeptidase A found in pigeon retinae (30.3 +/- 7.3 mU/mg, mean +/- standard deviation) was four times higher than in rabbit retinae (7.0 +/- 1.1 mU/mg). The enzyme activity was not modified by EDTA, but it was enhanced by dithiothreitol and inhibited by zinc and 5,5'-dithiobis(2-nitrobenzoic acid). Immunohistochemical experiments with a purified antiserum against rabbit endo-oligopeptidase A revealed labeled neurons in both the inner nuclear layer and the ganglion cell layer of pigeon and rabbit retinae. Double-labeling immunofluorescence experiments demonstrated that about 90% of neurons containing endo-oligopeptidase A-like immunoreactivity also contained [Leu5]-enkephalin-like immunoreactivity. These colocalization results may represent an important step toward the demonstration of the possible involvement of endo-oligopeptidase A in enkephalin generation in vivo.

Biometria ocular ultrassonográfica e dopplerfluxometria das artérias oftálmica interna e central da retina em macaco-prego (Sapajus spp)

Pós-graduação em Biotecnologia Animal - FMVZ

Temporal changes in calcium-binding proteins in the medial geniculate nucleus of the monkey Sapajus apella

The subdivisions of the medial geniculate complex can be distinguished based on the immunostaining of calcium-binding proteins and by the properties of the neurons within each subdivision. The possibility of changes in neurochemistry in this and other central auditory areas are important aspects to understand the basis that contributing to functional variations determined by environmental cycles or the animal's cycles of activity and rest. This study investigated, for the first time, day/night differences in the amounts of parvalbumin-, calretinin- and calbindin-containing neurons in the thalamic auditory center of a non-human primate, Sapajus apella. The immunoreactivity of the PV-IR, CB-IR and CR-IR neurons demonstrated different distribution patterns among the subdivisions of the medial geniculate. Moreover, a high number of CB- and CR-IR neurons were found during day, whereas PV-IR was predominant at night. We conclude that in addition to the chemical heterogeneity of the medial geniculate nucleus with respect to the expression of calcium-binding proteins, expression also varied relative to periods of light and darkness, which may be important for a possible functional adaptation of central auditory areas to environmental changes and thus ensure the survival and development of several related functions.

Capuchin monkey tool use: Overview and implications

Nutcracking capuchins are mentioned in reports dating as far back as the sixteenth century,(1,2) as well as in Brazilian folklore.(3) However, it was barely a decade ago that primatologists ""discovered"" the spontaneous use of stones to crack nuts in a semi-free ranging group of tufted capuchin monkeys. Since then, we have found several more capuchin populations in savanna-like environments which(5-7) employ this form of tool use. The evidence so far only weakly supports geneti cally based behavioral differences between populations and does not suggest that dietary pressures in poor environments are proximate determinants of the likelihood of tool use. Instead, tool use within these capuchin populations seems to be a behavioral tradition that is socially learned and is primarily associated with more terrestrial habits. However, differences in the diversity of ""tool kits"" between populations remain to be understood.

Twelve chromatically opponent ganglion cell types in turtle retina

The turtle retina has been extensively used for the study of chromatic processing mechanisms. Color opponency has been previously investigated with trichromatic paradigms, but behavioral studies show that the turtle has ail ultraviolet (UV) channel and a tetrachromatic visual system. Our laboratory has been working ill the characterization of neuronal responses in the retina of vertebrates using stimuli in the UV-visible range of the electromagnetic spectrum. In the present investigation, we recorded color-opponent responses from turtle amacrine and ganglion cells to UV and visible stimuli and extended our previous results that UV color-opponency is present at the level of the inner nuclear layer. We recorded from 181 neurons, 36 of which were spectrally opponent. Among these, there were 10 amacrine (5%), and 26 ganglion cells (15%). Morphological identification of color-opponent neurons was possible for two ganglion cell classes (G17 and G22) and two amacrine cell classes (A22 and A23b). There was a variety of cell response types and a potential for complex processing of chromatic stimuli, with intensity- and wavelength-dependent response components. Ten types of color opponency were found in ganglion cells and by adding previous results from our laboratory, 12 types of opponent responses have been found. The majority of the ganglion cells were R+UVBG- and RG+UVB-color-opponents but there were other less frequent types of chromatic opponency. This study confirms the participation of a UV channel in the processing of color opponency in the turtle inner retina and shows that the turtle visual system has the retinal mechanisms to allow many possible chromatic combinations.

No evidence of UV cone input to mono- and biphasic horizontal cells in the goldfish retina

Many animal species make use of ultraviolet (UV) light in a number of behaviors, such as feeding and mating. The goldfish (Carassius auratus) is among those with a UV photoreceptor and pronounced UV sensitivity. Little is known, however, about the retinal processing of this input. We addressed this issue by recording intracellularly from second-order neurons in the adult goldfish retina. In order to test whether cone-driven horizontal cells (HCs) receive UV cone inputs, we performed chromatic adaptation experiments with mono- and biphasic HCs. We found no functional evidence of a projection from the UV-sensitive cones to these neurons in adult animals. This suggests that goldfish UV receptors may contact preferentially triphasic HCs, which is at odds with the hypothesis that all cones contact all cone-driven HC types. However, we did find evidence of direct M-cone input to monophasic HCs, favoring the idea that cone-HC contacts are more promiscuous than originally proposed. Together, our results suggest that either UV cones have a more restricted set of post-synaptic partners than the other three cone types, or that the UV input to mono- and biphasic HCs is not very pronounced in adult animals.

C-Phycocyanin protects SH-SY5Y cells from oxidative injury, rat retina from transient ischemia and rat brain mitochondria from Ca2+/phosphate-induced impairment

Oxidative stress and mitochondrial impairment are essential in the ischemic stroke cascade and eventually lead to tissue injury. C-Phycocyanin (C-PC) has previously been shown to have strong antioxidant and neuroprotective actions. In the present study, we assessed the effects of C-PC on oxidative injury induced by tert-butylhydroperoxide (t-BOOH) in SH-SY5Y neuronal cells, on transient ischemia in rat retinas, and in the calcium/phosphate-induced impairment of isolated rat brain mitochondria (RBM). In SH-SY5Y cells, t-BOOH induced a significant reduction of cell viability as assessed by an MTT assay, and the reduction was effectively prevented by treatment with C-PC in the low micromolar concentration range. Transient ischemia in rat retinas was induced by increasing the intraocular pressure to 120 mmHg for 45 min, which was followed by 15 min of reperfusion. This event resulted in a cell density reduction to lower than 50% in the inner nuclear layer (INL), which was significantly prevented by the intraocular pre-treatment with C-PC for 15 min. In the RBM exposed to 3 mM phosphate and/or 100 mu M Ca2+, C-PC prevented in the low micromolar concentration range, the mitochondrial permeability transition as assessed by mitochondrial swelling, the membrane potential dissipation, the increase of reactive oxygen species levels and the release of the pro-apoptotic cytochrome c. In addition, C-PC displayed a strong inhibitory effect against an electrochemically-generated Fenton reaction. Therefore, C-PC is a potential neuroprotective agent against ischemic stroke, resulting in reduced neuronal oxidative injury and the protection of mitochondria from impairment. (C) 2012 Elsevier Inc. All rights reserved.

Dynamic Range of Vertebrate Retina Ganglion Cells: Importance of Active Dendrites and Coupling by Electrical Synapses

The vertebrate retina has a very high dynamic range. This is due to the concerted action of its diverse cell types. Ganglion cells, which are the output cells of the retina, have to preserve this high dynamic range to convey it to higher brain areas. Experimental evidence shows that the firing response of ganglion cells is strongly correlated with their total dendritic area and only weakly correlated with their dendritic branching complexity. On the other hand, theoretical studies with simple neuron models claim that active and large dendritic trees enhance the dynamic range of single neurons. Theoretical models also claim that electrical coupling between ganglion cells via gap junctions enhances their collective dynamic range. In this work we use morphologically reconstructed multi-compartmental ganglion cell models to perform two studies. In the first study we investigate the relationship between single ganglion cell dynamic range and number of dendritic branches/total dendritic area for both active and passive dendrites. Our results support the claim that large and active dendrites enhance the dynamic range of a single ganglion cell and show that total dendritic area has stronger correlation with dynamic range than with number of dendritic branches. In the second study we investigate the dynamic range of a square array of ganglion cells with passive or active dendritic trees coupled with each other via dendrodendritic gap junctions. Our results suggest that electrical coupling between active dendritic trees enhances the dynamic range of the ganglion cell array in comparison with both the uncoupled case and the coupled case with cells with passive dendrites. The results from our detailed computational modeling studies suggest that the key properties of the ganglion cells that endow them with a large dynamic range are large and active dendritic trees and electrical coupling via gap junctions.