Wireless parylene-based retinal implant

The degeneration of the outer retina usually causes blindness by affecting the photoreceptor cells. However, the ganglion cells, which consist of optic nerves, on the middle and inner retina layers are often intact. The retinal implant, which can partially restore vision by electrical stimulation, soon becomes a focus for research. Although many groups worldwide have spent a lot of effort on building devices for retinal implant, current state-of-the-art technologies still lack a reliable packaging scheme for devices with desirable high-density multi-channel features. Wireless flexible retinal implants have always been the ultimate goal for retinal prosthesis. In this dissertation, the reliable packaging scheme for a wireless flexible parylene-based retinal implants has been well developed. It can not only provide stable electrical and mechanical connections to the high-density multi-channel (1000+ channels on 5 mm × 5 mm chip area) IC chips, but also survive for more than 10 years in the human body with corrosive fluids.

The device is based on a parylene-metal-parylene sandwich structure. In which, the adhesion between the parylene layers and the metals embedded in the parylene layers have been studied. Integration technology for high-density multi-channel IC chips has also been addressed and tested with dummy and real 268-channel and 1024-channel retinal IC chips. In addition, different protection schemes have been tried in application to IC chips and discrete components to gain the longest lifetime. The effectiveness has been confirmed by the accelerated and active lifetime soaking test in saline solution. Surgical mockups have also been designed and successfully implanted inside dog's and pig's eyes. Additionally, the electrodes used to stimulate the ganglion cells have been modified to lower the interface impedance and shaped to better fit the retina. Finally, all the developed technologies have been applied on the final device with a dual-metal-layer structure.

Molecular neurogenetics of eye development in Drosophila

The compound eye of Drosophila melanogaster begins to differentiate during the late third larval instar in the eye-antennal imaginal disc. A wave of morphogenesis crosses the disc from posterior to anterior, leaving behind precisely patterned clusters of photoreceptor cells and accessory cells that will constitute the adult ommatidia of the retina. By the analysis of genetically mosaic eyes, it appears that any cell in the eye disc can adopt the characteristics of any one of the different cell types found in the mature eye, including photoreceptor cells and non-neuronal accessory cells such as cone cells. Therefore, cells within the prospective retinal epithelium assume different fates presumably via information present in the environment. The sevenless^+ (sev^+) gene appears to play a role in the expression of one of the possible fates, since the mutant phenotype is the lack of one of the pattern elements, namely, photoreceptor cell R7. The sev^+ gene product had been shown to be required during development of the eye, and had also been shown in genetic mosaics to be autonomous to presumptive R7. As a means of better understanding the pathway instructing the differentiation R7, the gene and its protein product were characterized.

The sev+ gene was cloned by P-element transposon tagging, and was found to encode an 8.2 kb transcript expressed in developing eye discs and adult heads. By raising monoclonal antibodies (MAbs) against a sev^+- β-galactosidase fusion protein, the expression of the protein in the eye disc was localized by immuno-electronmicroscopy. The protein localizes to the apical cell membranes and microvilli of cells in the eye disc epithelium. It appears during development at a time coincident with the initial formation of clusters, and in all the developing photoreceptors and accessory cone cells at a time prior to the overt differentiation of R7. This result is consistent with the pluripotency of cells in the eye disc. Its localization in the membranes suggests that it may receive information directing the development of R7. Its localization in the apical membranes and microvilli is away from the bulk of the cell contacts, which have been cited as a likely regions for information presentation and processing. Biochemical characterization of the sev^+ protein will be necessary to describe further its role in development.

Other mutations in Drosophila have eye phenotypes. These were analyzed to find which ones affected the initial patterning of cells in the eye disc, in order to identify other genes, like sev, whose gene products may be involved in generating the pattern. The adult eye phenotypes ranged from severe reduction of the eye, to variable numbers of photoreceptor cells per ommatidium, to sub de defects in the organization of the supporting cells. Developing eye discs from the different strains were screened using a panel of MAbs, which highlight various developmental stages. Two identified matrix elements in and anterior to the furrow, while others identified the developing ommatidia themselves, like the anti-sev MAb. Mutation phenotypes were shown to appear at many stages of development. Some mutations seem to affect the precursor cells, others, the setting up of the pattern, and still others, the maintenance of the pattern. Thus, additional genes have now been identified that may function to support the development of a complex pattern.

Nonlinear dynamic transfer functions for certain retinal neuronal systems

The applicability of the white-noise method to the identification of a nonlinear system is investigated. Subsequently, the method is applied to certain vertebrate retinal neuronal systems and nonlinear, dynamic transfer functions are derived which describe quantitatively the information transformations starting with the light-pattern stimulus and culminating in the ganglion response which constitutes the visually-derived input to the brain. The retina of the catfish, Ictalurus punctatus, is used for the experiments.

The Wiener formulation of the white-noise theory is shown to be impractical and difficult to apply to a physical system. A different formulation based on crosscorrelation techniques is shown to be applicable to a wide range of physical systems provided certain considerations are taken into account. These considerations include the time-invariancy of the system, an optimum choice of the white-noise input bandwidth, nonlinearities that allow a representation in terms of a small number of characterizing kernels, the memory of the system and the temporal length of the characterizing experiment. Error analysis of the kernel estimates is made taking into account various sources of error such as noise at the input and output, bandwidth of white-noise input and the truncation of the gaussian by the apparatus.

Nonlinear transfer functions are obtained, as sets of kernels, for several neuronal systems: Light → Receptors, Light → Horizontal, Horizontal → Ganglion, Light → Ganglion and Light → ERG. The derived models can predict, with reasonable accuracy, the system response to any input. Comparison of model and physical system performance showed close agreement for a great number of tests, the most stringent of which is comparison of their responses to a white-noise input. Other tests include step and sine responses and power spectra.

Many functional traits are revealed by these models. Some are: (a) the receptor and horizontal cell systems are nearly linear (small signal) with certain "small" nonlinearities, and become faster (latency-wise and frequency-response-wise) at higher intensity levels, (b) all ganglion systems are nonlinear (half-wave rectification), (c) the receptive field center to ganglion system is slower (latency-wise and frequency-response-wise) than the periphery to ganglion system, (d) the lateral (eccentric) ganglion systems are just as fast (latency and frequency response) as the concentric ones, (e) (bipolar response) = (input from receptors) - (input from horizontal cell), (f) receptive field center and periphery exert an antagonistic influence on the ganglion response, (g) implications about the origin of ERG, and many others.

An analytical solution is obtained for the spatial distribution of potential in the S-space, which fits very well experimental data. Different synaptic mechanisms of excitation for the external and internal horizontal cells are implied.

Expression of eph-family receptor tyrosine kinases and ephrins in the tadpole of the frog Xenopus laevis, and possible roles in the development of retinotectal topography

Assembling a nervous system requires exquisite specificity in the construction of neuronal connectivity. One method by which such specificity is implemented is the presence of chemical cues within the tissues, differentiating one region from another, and the presence of receptors for those cues on the surface of neurons and their axons that are navigating within this cellular environment.

Connections from one part of the nervous system to another often take the form of a topographic mapping. One widely studied model system that involves such a mapping is the vertebrate retinotectal projection-the set of connections between the eye and the optic tectum of the midbrain, which is the primary visual center in non-mammals and is homologous to the superior colliculus in mammals. In this projection the two-dimensional surface of the retina is mapped smoothly onto the two-dimensional surface of the tectum, such that light from neighboring points in visual space excites neighboring cells in the brain. This mapping is implemented at least in part via differential chemical cues in different regions of the tectum.

The Eph family of receptor tyrosine kinases and their cell-surface ligands, the ephrins, have been implicated in a wide variety of processes, generally involving cellular movement in response to extracellular cues. In particular, they possess expression patterns-i.e., complementary gradients of receptor in retina and ligand in tectum- and in vitro and in vivo activities and phenotypes-i.e., repulsive guidance of axons and defective mapping in mutants, respectively-consistent with the long-sought retinotectal chemical mapping cues.

The tadpole of Xenopus laevis, the South African clawed frog, is advantageous for in vivo retinotectal studies because of its transparency and manipulability. However, neither the expression patterns nor the retinotectal roles of these proteins have been well characterized in this system. We report here comprehensive descriptions in swimming stage tadpoles of the messenger RNA expression patterns of eleven known Xenopus Eph and ephrin genes, including xephrin-A3, which is novel, and xEphB2, whose expression pattern has not previously been published in detail. We also report the results of in vivo protein injection perturbation studies on Xenopus retinotectal topography, which were negative, and of in vitro axonal guidance assays, which suggest a previously unrecognized attractive activity of ephrins at low concentrations on retinal ganglion cell axons. This raises the possibility that these axons find their correct targets in part by seeking out a preferred concentration of ligands appropriate to their individual receptor expression levels, rather than by being repelled to greater or lesser degrees by the ephrins but attracted by some as-yet-unknown cue(s).

Über die Trogmuschel und deren Nutzung in der Deutschen Bucht

Obwohl seit längerem bekannt ist, dass diese wohlschmeckende Muschel in der Nordsee vorkommt, gab es dort bis vor wenigen Jahren keine Trogmuschelfischerei. Das änderte sich erst, als es niederländischen Muschelverarbeitungsfirmen gelungen war, aus Trogmuscheln ein exportfähiges Produkt herzustellen. Dementsprechend beantragte auch ein niederländischer Muschelfischerbetrieb als Erster eine erlaubnis zum Fischen von Trogmuscheln in deutschen Gewässern außerhalb von 3 Seemeilen. Inzwischen erhielten auch vier weitere Muschelkutter die Fangerlaubnis. Allerdings wird wegen der begrenzten Absatzmöglichkeiten nur zeitweilig gefischt. Deshalb sind bisher auch noch keine Anzeichen einer Überfischung zu sehen.

Über die Zunahme des Steinbutts in der westlichen Ostsee und seine Bedeutung für die Stellnetzfischerei

Über die Situation der Nutzfischbestände in der westlichen Ostsee gab es in den vergangenen Jahren aus Sicht des Stellnetzfischers nur selten etwas Positives zu berichten. Abgesehen vom Hering, dessen Befischung wegen der mangelnden Absatzmöglichkeiten und ungenügenden Preisen kaum lonte, gingen fast alle übrigen Arten rapide zurück. Scholle und Makrele sind schon seit einem Jahrzehnt praktisch verschwunden. Der Dorschbestand ist in den letzten fünf Jahren so weit zusammengeschmolzen, daß eine genügende Erzeugung von Nachwuchs nicht mehr gesichert erscheint. Selbst bei Flunder und Kliesche ist in jüngster Zeit eine deutliche Abnahme zu bemerken. Die Ursachen hierfür sind wohl teils die Überfischung, teils aber auch in dem Ausfall von mehreren nachwuchsjahrgängen zu sehen. Letzteres steht sicherlich mit der zunehmenden Verschlechterung der wasserqualität sowohl in den tieferen Becken der Ostsee - den Laichgebieten von Dorsch und Scholle - als auch in den Flußmündungen und Uferzonen - den Aufwuchsgebieten der meisten Jungfische - in direktem Zusammenhang.

MEMS for Diabetic Retinopathy

As the worldwide prevalence of diabetes mellitus continues to increase, diabetic retinopathy remains the leading cause of visual impairment and blindness in many developed countries. Between 32 to 40 percent of about 246 million people with diabetes develop diabetic retinopathy. Approximately 4.1 million American adults 40 years and older are affected by diabetic retinopathy. This glucose-induced microvascular disease progressively damages the tiny blood vessels that nourish the retina, the light-sensitive tissue at the back of the eye, leading to retinal ischemia (i.e., inadequate blood flow), retinal hypoxia (i.e., oxygen deprivation), and retinal nerve cell degeneration or death. It is a most serious sight-threatening complication of diabetes, resulting in significant irreversible vision loss, and even total blindness.

Unfortunately, although current treatments of diabetic retinopathy (i.e., laser therapy, vitrectomy surgery and anti-VEGF therapy) can reduce vision loss, they only slow down but cannot stop the degradation of the retina. Patients require repeated treatment to protect their sight. The current treatments also have significant drawbacks. Laser therapy is focused on preserving the macula, the area of the retina that is responsible for sharp, clear, central vision, by sacrificing the peripheral retina since there is only limited oxygen supply. Therefore, laser therapy results in a constricted peripheral visual field, reduced color vision, delayed dark adaptation, and weakened night vision. Vitrectomy surgery increases the risk of neovascular glaucoma, another devastating ocular disease, characterized by the proliferation of fibrovascular tissue in the anterior chamber angle. Anti-VEGF agents have potential adverse effects, and currently there is insufficient evidence to recommend their routine use.

In this work, for the first time, a paradigm shift in the treatment of diabetic retinopathy is proposed: providing localized, supplemental oxygen to the ischemic tissue via an implantable MEMS device. The retinal architecture (e.g., thickness, cell densities, layered structure, etc.) of the rabbit eye exposed to ischemic hypoxic injuries was well preserved after targeted oxygen delivery to the hypoxic tissue, showing that the use of an external source of oxygen could improve the retinal oxygenation and prevent the progression of the ischemic cascade.

The proposed MEMS device transports oxygen from an oxygen-rich space to the oxygen-deficient vitreous, the gel-like fluid that fills the inside of the eye, and then to the ischemic retina. This oxygen transport process is purely passive and completely driven by the gradient of oxygen partial pressure (pO₂). Two types of devices were designed. For the first type, the oxygen-rich space is underneath the conjunctiva, a membrane covering the sclera (white part of the eye), beneath the eyelids and highly permeable to oxygen in the atmosphere when the eye is open. Therefore, sub-conjunctival pO₂ is very high during the daytime. For the second type, the oxygen-rich space is inside the device since pure oxygen is needle-injected into the device on a regular basis.

To prevent too fast or too slow permeation of oxygen through the device that is made of parylene and silicone (two widely used biocompatible polymers in medical devices), the material properties of the hybrid parylene/silicone were investigated, including mechanical behaviors, permeation rates, and adhesive forces. Then the thicknesses of parylene and silicone became important design parameters that were fine-tuned to reach the optimal oxygen permeation rate.

The passive MEMS oxygen transporter devices were designed, built, and tested in both bench-top artificial eye models and in-vitro porcine cadaver eyes. The 3D unsteady saccade-induced laminar flow of water inside the eye model was modeled by computational fluid dynamics to study the convective transport of oxygen inside the eye induced by saccade (rapid eye movement). The saccade-enhanced transport effect was also demonstrated experimentally. Acute in-vivo animal experiments were performed in rabbits and dogs to verify the surgical procedure and the device functionality. Various hypotheses were confirmed both experimentally and computationally, suggesting that both the two types of devices are very promising to cure diabetic retinopathy. The chronic implantation of devices in ischemic dog eyes is still underway.

The proposed MEMS oxygen transporter devices can be also applied to treat other ocular and systemic diseases accompanied by retinal ischemia, such as central retinal artery occlusion, carotid artery disease, and some form of glaucoma.

A teoria de proteção a bens jurídicos e o direito penal: uma aproximação fenomenológica à luz do valor da pessoa humana

O fato de se enxergar a tarefa do direito penal na proteção de bens jurídicos contra a colocação em perigo e lesão destes, tornou-se quase uma unanimidade na teoria do direito penal. Objetivo deste trabalho é investigar se é possível, a partir da teoria de proteção a bens jurídicos, derivar um critério para limitar a intervenção jurídico-penal. De acordo com este estudo é impossível a partir desta teoria desenvolver um critério que esteja em condição de limitar o poder punitivo. Que isto é assim, deriva-se do fato de que a a teoria de proteção a bens jurídicos inaugura uma verdadeira função de maximização da eficiência da proteção. Esta função carrega, contudo, uma série de problemas. Em primeiro lugar, permite tanto a antecipação da punibilidade como também o recrudescimento da punição em nome de uma proteção mais efetiva. Esta circunstãncia ignora, contudo, o valor absoluto da pessoa humana. Em segundo lugar, há a problemática empírica da teoria de proteção a bens jurídicos. Com outras palavras: para ser eficiente, a proteção penal precisa de constante comprovação empírica. É, porém, eficiente esta proteção? Que isto não é o caso, a própria realidade do direito penal nos revela. Em terceiro lugar, a função de proteção exige a adoção de uma teoria preventiva da pena. Isto viola também o valor absoluto da pessoa humana. Em quarto lugar, a função de proteção não põe qualquer obstáculo à prerrogativa de valoração do legislador. Por fim, a função de proteção não fornece nenhuma base apodítica para respeitar a pessoa humana, porque ela se ocupa essencialmente de aspectos juspositivos e contingenciais. O presente trabalho oferece uma nova definição de bem jurídico que se funda na fenomenologia de Husserl, e tenta limitar o poder punitivo por meio do desenvolvimento de uma teoria da absolutidade do valor intrínseco da pessoa humana. De acordo com essas considerações, bem jurídico é a possibilidade da pessoa humana de actualizar vivências no mundo da vida na forma esquemática de uma relação intencional entre aquela pessoa e um objeto que é de valor para ela. De acordo com a concepção de Scheler, que aqui é adotada, a pessoa humana é justamente aquela unidade, que consiste em todas as distintas essências, de modo que a pessoa é a unidade concreta, e mesmo essencial, de atos de diferentes essências, que em si precede todas as diferenças essenciais de atos. Essencial á pessoa é ainda o poder-fazer como fato puramente fenomenal, que existe por meio do corpo. A pessoa tem sempre um valor positivo-absoluto, o que significa que ela jamais pode ser considerada como objeto.

Control mechanisms in the human binocular oculomotor system

A study of human eye movements was made in order to elucidate the nature of the control mechanism in the binocular oculomotor system.

We first examined spontaneous eye movements during monocular and binocular fixation in order to determine the corrective roles of flicks and drifts. It was found that both types of motion correct fixational errors, although flicks are somewhat more active in this respect. Vergence error is a stimulus for correction by drifts but not by flicks, while binocular vertical discrepancy of the visual axes does not trigger corrective movements.

Second, we investigated the non-linearities of the oculomotor system by examining the eye movement responses to point targets moving in two dimensions in a subjectively unpredictable manner. Such motions consisted of hand-limited Gaussian random motion and also of the sum of several non-integrally related sinusoids. We found that there is no direct relationship between the phase and the gain of the oculomotor system. Delay of eye movements relative to target motion is determined by the necessity of generating a minimum afferent (input) signal at the retina in order to trigger corrective eye movements. The amplitude of the response is a function of the biological constraints of the efferent (output) portion of the system: for target motions of narrow bandwidth, the system responds preferentially to the highest frequency; for large bandwidth motions, the system distributes the available energy equally over all frequencies. Third, the power spectra of spontaneous eye movements were compared with the spectra of tracking eye movements for Gaussian random target motions of varying bandwidths. It was found that there is essentially no difference among the various curves. The oculomotor system tracks a target, not by increasing the mean rate of impulses along the motoneurons of the extra-ocular muscles, but rather by coordinating those spontaneous impulses which propagate along the motoneurons during stationary fixation. Thus, the system operates at full output at all times.

Fourth, we examined the relative magnitude and phase of motions of the left and the right visual axes during monocular and binocular viewing. We found that the two visual axes move vertically in perfect synchronization at all frequencies for any viewing condition. This is not true for horizontal motions: the amount of vergence noise is highest for stationary fixation and diminishes for tracking tasks as the bandwidth of the target motion increases. Furthermore, movements of the occluded eye are larger than those of the seeing eye in monocular viewing. This effect is more pronounced for horizontal motions, for stationary fixation, and for lower frequencies.

Finally, we have related our findings to previously known facts about the pertinent nerve pathways in order to postulate a model for the neurological binocular control of the visual axes.

Study of ion movements in isolated chicken retinas during spreading depression

Spreading depression (SD) is a phenomenon observed in several sections of vertebrate central nervous system. It can occur spontaneously or be evoked by a variety of stimuli, and consists of a wave of depression of the normal electrical activity of the nervous tissue which spreads slowly in all directions in the tissue. This wave of depression is accompanied by several concomitants including ion movements. All the concomitants of SD can be explained by an increase in the sodium permeability of the plasma membranes of cellular elements involved in this phenomenon.

In the chicken retina, SD is accompanied by a transparency change which can be detected with the naked eye. The isolated retina is a thin (0.1 mm) membrane in which the extracellular fluid quickly and completely equilibrates with the incubation solutions. This preparation was therefore used to study the ion movements during SD by measuring and comparing the ion contents and the extracellular space (ECS) of retinas incubated in various solutions of which some inhibited SD, whereas others allowed this phenomenon to occur.

The present study has shown that during SD there is a shift of extracellular sodium into the intracellular compartment of the retina, a release of intracellular K and a decrease in the magnitude of ECS. These results are in agreement with previous postulates about SD, although the in vitro experimental condition makes the ion movements appear larger and the loss of ECS smaller than observed in the intact cortical tissue. The movements of Na and K, in opposite directions, are reversible. The development and magnitudes of SD is very little affected by deprivation of the oxygen supply.

It was established that the inward sodium shift is not a consequence of an arrest of the Na-pump. It can be prevented, together with SD by the membrane stabilizers, magnesium and procaine. Spreading depression and the ion movements are incompletely inhibited by tetrodotoxin, which blocks the sodium influx into nerve fibers during the action potential. The replacement of Na in the bathing solution by Li does not prevent SD, which is accompanied by Li accumulation in the intracellular compartment. From these experiments and others it was concluded that the mechanism underlying SD and the ion shifts is an increase in the sodium permeability of cell membranes.

Da rua para a rua: percursos para uma performance

Partindo do corpo que caminha pela cidade, com ou sem rumo, a presente dissertação procura investigar as relações que cercam essa simples ação, levando em consideração, inclusive, a roupa que esse homem veste. O corpo é discutido, tentando encontrar modos mais viscerais para um contato com a realidade operante e arquitetar novas narrativas. A caminhada é o mais simples ato para a (des)apropriação de territórios a serem experimentados. A roupa é a fronteira entre o corpo e a cidade. A camuflagem aparece como um meio eficiente de contactar o corpo com o meio e sua lógica atravessa nosso contato com o mundo. As cidades, suas ruas e espaços públicos solicitam o uso coletivo e se entregam satisfeitos às intervenções urbanas. O texto segue visitando trabalhos que cruzam esse conjunto, buscando desvios nos espaços e resignificando objetos abundantes que se apresentam sem finalidade, procurando inverter lógicas vigentes para realizar outros usos do corpo, da roupa e da cidade

Contributions to Ensemble Classifiers with Image Analysis Applications

134 p.

Do Nutritional Supplements Have a Role in Age Macular Degeneration Prevention?

Purpose. To review the proposed pathogenic mechanisms of age macular degeneration (AMD), as well as the role of antioxidants (AOX) and omega-3 fatty acids (omega-3) supplements in AMD prevention. Materials and Methods. Current knowledge on the cellular/molecular mechanisms of AMD and the epidemiologic/experimental studies on the effects of AOX and omega-3 were addressed all together with the scientific evidence and the personal opinion of professionals involved in the Retina Group of the OFTARED (Spain). Results. High dietary intakes of omega-3 and macular pigments lutein/zeaxanthin are associated with lower risk of prevalence and incidence in AMD. The Age-Related Eye Disease study (AREDS) showed a beneficial effect of high doses of vitamins C, E, beta-carotene, and zinc/copper in reducing the rate of progression to advanced AMD in patients with intermediate AMD or with one-sided late AMD. The AREDS-2 study has shown that lutein and zeaxanthin may substitute beta-carotene because of its potential relationship with increased lung cancer incidence. Conclusion. Research has proved that elder people with poor diets, especially with low AOX and omega-3 micronutrients intake and subsequently having low plasmatic levels, are more prone to developing AMD. Micronutrient supplementation enhances antioxidant defense and healthy eyes and might prevent/retard/modify AMD.

Influence of Extracellular Matrix Components on the Expression of Integrins and Regeneration of Adult Retinal Ganglion Cells

Purpose Retinal ganglion cells (RGCs) are exposed to injury in a variety of optic nerve diseases including glaucoma. However, not all cells respond in the same way to damage and the capacity of individual RGCs to survive or regenerate is variable. In order to elucidate factors that may be important for RGC survival and regeneration we have focussed on the extracellular matrix (ECM) and RGC integrin expression. Our specific questions were: (1) Do adult RGCs express particular sets of integrins in vitro and in vivo? (2) Can the nature of the ECM influence the expression of different integrins? (3) Can the nature of the ECM affect the survival of the cells and the length or branching complexity of their neurites? Methods Primary RGC cultures from adult rat retina were placed on glass coverslips treated with different substrates: Poly-L-Lysine (PL), or PL plus laminin (L), collagen I (CI), collagen IV (CIV) or fibronectin (F). After 10 days in culture, we performed double immunostaining with an antibody against beta III-Tubulin to identify the RGCs, and antibodies against the integrin subunits: alpha V, alpha 1, alpha 3, alpha 5, beta 1 or beta 3. The number of adhering and surviving cells, the number and length of the neurites and the expression of the integrin subunits on the different substrates were analysed. Results PL and L were associated with the greatest survival of RGCs while CI provided the least favourable conditions. The type of substrate affected the number and length of neurites. L stimulated the longest growth. We found at least three different types of RGCs in terms of their capacity to regenerate and extend neurites. The different combinations of integrins expressed by the cells growing on different substrata suggest that RGCs expressed predominantly alpha 1 beta 1 or alpha 3 beta 1 on L, alpha 1 beta 1 on CI and CIV, and alpha 5 beta 3 on F. The activity of the integrins was demonstrated by the phosphorylation of focal adhesion kinase (FAK). Conclusions Adult rat RGCs can survive and grow in the presence of different ECM tested. Further studies should be done to elucidate the different molecular characteristics of the RGCs subtypes in order to understand the possible different sensitivity of different RGCs to damage in diseases like glaucoma in which not all RGCs die at the same time.

Indicadores de neuropatia autonômica cardiovascular em pacientes com diabetes tipo 1

A Neuropatia autonômica cardiovascular (NAC), apesar de ter sido apontada como fator de risco independente para doença cardiovascular (DCV) em pacientes com diabetes tipo 1 (DM1), permanece subdiagnosticada. Os objetivos do trababalho foram determinar a prevalência de NAC e seus indicadores clínicos e laboratoriais em pacientes com DM1 e a associação com outras complicações crônicas do diabetes, além de avaliar a concordância entre os critérios diagnósticos da NAC determinados pelos parâmetros da análise espectral e pelos testes reflexos cardiovasculares. Pacientes com DM1, duração da doença ≥ 5 anos e com idade ≥ 13 anos foram submetidos a um questionário clínico-epidemiológico, a coleta de sangue e de urina para determinação da concentração urinária de albumina, ao mapeamento de retina, e exame clínico para pesquisa de neuropatia diabética sensitivo motora além da realização de testes reflexos cardiovasculares. Cento e cinquenta e um pacientes com DM1, 53.6 % do sexo feminino, 45.7% brancos, com média de idade de 33.4 13 anos, idade ao diagnóstico de 17.2 9.8 anos, duração de DM1 de 16.3 9.5 anos, índice de massa corporal (IMC) de 23.4 (13.7-37.9) Kg/m2 e níveis de hemoglobina glicada de 9.1 2% foram avaliados. Após realização dos testes para rastreamento das complicações microvasculares, encontramos neuropatia diabética sensitivo motora, retinopatia diabética, nefropatia diabética e NAC em 44 (29.1%), 54 (38%), 35 (24.1%) e 46 (30.5%) dos pacientes avaliados, respectivamente. A presença de NAC foi associada com idade (p=0.01), duração do DM (p=0.036), HAS (p=0.001), frequência cardíaca em repouso (p=0.000), HbA1c (p=0.048), uréia (p=0.000), creatinina (p=0.008), taxa de filtração glomerular (p=0.000), concentração urinária de albumina (p=0.000), níveis séricos de LDL-colesterol (p=0.048), T4 livre (p=0.023) e hemoglobina (p=0.01) e a presença de retinopatia (p=0.000), nefropatia (p=0.000) e neuropatia diabética sensitivo motora (p=0.000), além dos seguintes sintomas; lipotimia (p=0.000), náuseas pós alimentares (p=0.042), saciedade precoce (p=0.031), disfunção sexual (p=0.049) e sudorese gustatória (p=0.018). No modelo de regressão logística binária, avaliando o diagnóstico de NAC como variável dependente, foi observado que apenas a FC em repouso, presença de neuropatia diabética sensitivo motora e retinopatia diabética foram consideradas variáveis independentes significativamente. A NAC é uma complicação crônica comum do DM1, atingindo cerca de 30% dos pacientes estudados e encontra-se associada à presença de outras complicações da doença. Indicadores da presença de NAC nos pacientes avaliados incluíram a idade, duração do diabetes, presença de HAS, frequência cardíaca de repouso e presença de sintomas sugestivos de neuropatia autonômica. O presente estudo ratifica a importância do rastreamento sistemático e precoce desta complicação.