306 resultados para Microspheres
Resumo:
The electrorheological (ER) effect is known as the change in the apparent viscosity upon the application of an external electric field perpendicular to the flow direction. In this work we present the electrorheological behaviour of suspensions in silicone oil of two different dispersed phases: foams of liquid crystal 4-n-penthyl-4'-cyanobiphenyl (5CB) encapsulated in polyvinyl alcohol (PVA) and nano/microspheres of 5CB encapsulated in silica. We will present the viscosity curves under the application of an electric field ranging between 0 and 3 kV mm(-1). The ER effect was observed for the suspensions of 5CB/PVA but not in the case of 5CB/silica. For the case of the suspensions of 5CB/PVA, the effect of the viscosity of the continuum phase and the concentration of the dispersed phase was analysed, showing that the enhancement of the viscosity of the suspension increases with the concentration, as expected, however the continuum phase viscosity has no significant effect, at least in the investigated viscosity range.
Resumo:
INTRODUCTION: The index of microcirculatory resistance (IMR) enables/provides quantitative, invasive, and real-time assessment of coronary microcirculation status. AIMS: The primary aim of this study was to validate the assessment of IMR in a large animal model, and the secondary aim was to compare two doses of intracoronary papaverine, 5 and 10 mg, for induction of maximal hyperemia and its evolution over time. METHODS: Measurements of IMR were performed in eight pigs. Mean distal pressure (Pd) and mean transit time (Tmn) were measured at rest and at maximal hyperemia induced with intracoronary papaverine, 5 and 10 mg, and after 2, 5, 8 and 10 minutes. Disruption of the microcirculation was achieved by selective injection of 40-μm microspheres via a microcatheter in the left anterior descending artery. RESULTS: In each animal 14 IMR measurements were made. There were no differences between the two doses of papaverine regarding Pd response and IMR values - 11 ± 4.5 U with 5 mg and 10.6 ± 3 U with 10 mg (p=0.612). The evolution of IMR over time was also similar with the two doses, with significant differences from resting values disappearing after five minutes of intracoronary papaverine administration. IMR increased with disrupted microcirculation in all animals (41 ± 16 U, p=0.001). CONCLUSIONS: IMR provides invasive and real-time assessment of coronary microcirculation. Disruption of the microvascular bed is associated with a significant increase in IMR. A 5-mg dose of intracoronary papaverine is as effective as a 10-mg dose in inducing maximal hyperemia. After five minutes of papaverine administration there is no significant difference from resting hemodynamic status.
Resumo:
There were two main objectives in this thesis investigation, first, the production, characterisation, in vitro degradation and release studies of double walled microspheres for drug release control. The second one, and the most challenging, was the production of double walled nanospheres, also for drug control delivery. The spheres were produced using two polymers, the Poly(L-lactide)Acid, PLLA, and the Poly(L-lactide-co-glycolic)Acid, PLGA.Afterwards, a model drug, Meloxicam, which is an antiinflammatory drug, was encapsulated into the particles. Micro and nanospheres were produced by the solvent extraction/evaporation method, where perfect spherical particles were obtained. By varying the polymers PLLA/PLGA mass ratio, different core and shell composition, as well as several shell and core thickness were observed. In the particles with a PLLA/PLGA mass ratio 1:1, the shell is composed by PLLA and the core by PLGA. It was also verified that the Meloxicam has a tendency to be distributed in the PLGA layer. Micro and nanoparticles were characterised in morphology, size, polymer cristalinity properties and drug distribution. Particles degradation studies was performed, where the particles in a PVA solution of pH 7,4 where placed in an incubator, during approximately 40 days, at 120rpm, and 37ºC, simulating, as much as possible, the human body environment. From these studies, the conclusion was that particles containing a PLGA shell and a PLLA core degrade more rapidly, due to the fact that PLLA is more hydrophobic than the PLGA. Concerning the drug release controlled results, done also for 40 and 50 days, they showed that the microspheres containing a shell of PLLA release more slowly than when the shell is composed of PLGA. This result was predictable, since the drug is solubilised in the PLGA polymer and so, in that case, the PLLA shell works like a barrier between the drug and the outer medium. Another positive aspect presented by this study is the lower initial burst effect, obtained when using double walled particles, which is one of the advantages of the same. In a second part of this investigation, the production of the nanospheres was the main goal, since it was not yet accomplished by other authors or investigators. After several studies, referring to the speed, time and type of agitation, as well as, the concentration and volume of the first aqueous solution of poly-vinyl-alcohol (PVA) during the process of solvent extraction/evaporation it was possible to obtain double walled nanospheres.(...)
Resumo:
RESUMO: A pele é o maior órgão do corpo humano e a sua pigmentação é essencial para a sua coloração e proteção contra os efeitos nocivos da radiação ultravioleta (UV). A pigmentação da pele resulta essencialmente de três processos: a síntese e o armazenamento de melanina pelos melanócitos, em organelos especializados denominados melanossomas; o transporte dos melanossomas dentro dos melanócitos; e finalmente, a transferência dos melanossomas para os queratinócitos adjacentes. Nos queratinócitos, a melanina migra para a região perinuclear apical da célula para formar um escudo protetor,responsável pela proteção do DNA dos danos causados pela radiação UV. Os melanócitos estão localizados na camada basal da epiderme e contactam com 30-40 queratinócitos. Em conjunto, estas células formam a “unidade melano-epidérmica”. Apesar dos processos de síntese e transporte de melanina nos melanócitos estarem bastante bem caracterizados, os mecanismos moleculares subjacentes à transferência inter-celular de melanina são menos conhecidos e ainda controversos. Dados preliminares obtidos pelo nosso grupo, que se basearam na observação de amostras de pele humana por microscopia electrónica, indicam que a forma predominante de transferência de melanina na epiderme consiste na exocitose dos melanossomas pelos melanócitos e subsequente endocitose da melanina por queratinócitos. Para além disso sabe-se que as proteínas Rab, que controlam o tráfego membranar, estão envolvidas em várias etapas de pigmentação da pele, nomeadamente na biogénese e no transporte de melanina. Assim, dado o seu papel fundamental nestes processos, questionámo-nos sobre o seu envolvimento na transferência de melanina. Com este trabalho, propomo-nos a expandir o conhecimento atual sobre a transferência de melanina na pele, através do estudo detalhado dos seus mecanismos moleculares, identificando as proteínas Rab que regulam o processo. Pretendemos também confirmar o modelo de exo/endocitose como sendo o mecanismo principal de transferência de melanina. Primeiro, explorámos a regulação da secreção de melanina pelos melanócitos e analisámos o papel de proteínas Rab neste processo. Os resultados foram obtidos recorrendo a um método in vitro, desenvolvido previamente no laboratório, que avalia a quantidade de melanina segregada para o meio de cultura por espectrofotometria, e ainda por microscopia, contando o número de melanossomas transferidos para os queratinócitos. Através de co-culturas de melanócitos e queratinócitos, verificou-se que os queratinócitos estimulam a libertação de melanina dos melanócitos para o meio extra-celular, bem como a sua transferência para os queratinócitos. Além disso, a proteína Rab11b foi identificada como um regulador da exocitose de melanina e da sua transferência para os queratinócitos. De facto, a diminuição da expressão de Rab11b em melanócitos provocou a redução da secreção de melanina estimulada por queratinócitos, bem como da transferência desta. Em segundo lugar, para complementar o nosso estudo, centrámos a nossa investigação na internalização de melanina por queratinócitos. Especificamente, usando uma biblioteca de siRNA, explorámos o envolvimento de proteínas Rab na captação de melanina por queratinócitos. Como primeira abordagem, usámos esferas fluorescentes como substituto de melanina, avaliando os resultados por citometria de fluxo. No entanto, este método revelou-se ineficaz uma vez que a internalização destas esferas é independente do recetor PAR-2 (recetor 2 ativado por protease), que foi previamente descrito como essencial na captação de melanina por queratinócitos Posteriormente, foi desenvolvido um novo protocolo de endocitose baseado em microscopia, usando melanossomas sem a membrana envolvente (melanocores) purificados do meio de cultura de melanócitos, incluindo um programa informático especialmente desenhado para realizar uma análise semi-automatizada. Após internalização, os melanocores acumulam-se na região perinuclear dos queratinócitos, em estruturas que se assemelham ao escudo supranuclear observado na pele humana. Seguidamente, o envolvimento do recetor PAR-2 na captação de melanocores por queratinócitos foi confirmado, utilizando o novo protocolo de endocitose desenvolvido. Para além disso, a necessidade de quatro proteínas Rab foi identificada na internalização de melanocores por queratinócitos. A redução da expressão de Rab1a ou Rab5b em queratinócitos diminuiu significativamente o nível de internalização de melanocores, enquanto o silenciamento da expressão de Rab2a ou Rab14 aumentou a quantidade de melanocores internalizados por estas células. Em conclusão, os resultados apresentados corroboram as observações anteriores, obtidas em amostras de pele humana, e sugerem que o mecanismo de transferência predominante é a exocitose de melanina pelos melanócitos, induzida por queratinócitos, seguida por endocitose pelos queratinócitos. A pigmentação da pele tem implicações tanto ao nível da cosmética, como ao nível médico, relacionadas com foto-envelhecimento e com doenças pigmentares. Assim sendo, ao esclarecer quais os mecanismos moleculares que regulam a transferência de melanina na pele, este trabalho pode conduzir ao desenvolvimento de novas estratégias para modular a pigmentação da pele.----------------ABSTRACT: Skin pigmentation is achieved through the highly regulated production of the pigment melanin in specialized organelles, termed melanosomes within melanocytes. These are transported from their site of synthesis to the melanocyte periphery before being transferred to keratinocytes where melanin forms a supra-nuclear cap to protect the DNA from UVinduced damage. Together, melanocytes and keratinocytes form a functional complex, termed “epidermal-melanin unit”, that confers color and photoprotective properties to the skin. Skin pigmentation requires three processes: the biogenesis of melanin; its intracelular transport within the melanocyte to the cell periphery; and the melanin transfer to keratinocytes. The first two processes have been extensively characterized. However, despite significant advances that have been made over the past few years, the mechanisms underlying inter-cellular transfer of pigment from melanocytes to keratinocytes remain controversial.Preliminary studies from our group using electron microscopy and human skin samples found evidence for a mechanism of coupled exocytosis-endocytosis. Rab GTPases are master regulators of intracellular trafficking and have already been implicated in several steps of skin pigmentation. Thus, we proposed to explore and characterize the molecular mechanisms of melanin transfer and the role of Rab GTPases in this process. Moreover, we investigated whether the exo/endocytosis model is the main mechanism of melanin transfer. We first focused on melanin exocytosis by melanocytes. Then, we started to investigate the key regulatory Rab proteins involved in this step by establishing an in vitro tissue culture model of melanin secretion. Using co-cultures of melanocytes and keratinocytes, we found that keratinocytes stimulate melanin release and transfer. Moreover, depletion of Rab11b decreases keratinocyte-induced melanin exocytosis by melanocytes. In order to determine whether melanin exocytosis is a predominant mechanism of melanin transfer, the amount of melanin transferred to keratinocytes was then assayed in conditions where melanin exocytosis was inhibited. Indeed, Rab11b depletion resulted in a significant decrease in melanin uptake by keratinocytes. Taken together, these observations suggest that Rab11b mediates melanosome exocytosis from melanocytes and transfer to keratinocytes. To complement and extend our study, we of melanin by keratinocytes. Thus, we aimed to explore the effect of depleting Rab GTPases on melanin uptake and trafficking within keratinocytes. As a first approach, we used fluorescent microspheres as a melanin surrogate. However, the uptake of microspheres was observed to be independent of PAR-2, a receptor that is required for melanin uptakecentred our attention in the internalization of melanin by keratinocytes. Thus, we aimed to explore the effect of depleting Rab GTPases on melanin uptake and trafficking within keratinocytes. As a first approach, we used fluorescent microspheres as a melanin surrogate. However, the uptake of microspheres was observed to be independent of PAR-2, a receptor that is required for melanin uptake.Therefore, we concluded that microspheres were uptaken by keratinocytes through a different pathway than melanin. Subsequently, we developed a microscopy-based endocytosis assay using purified melanocores (melanosomes lacking the limiting membrane) from melanocytes, including a program to perform a semi-automated analysis. Melanocores are taken up by keratinocytes and accumulate in structures in the perinuclear area that resemble the physiological supranuclear cap observed in human skin. We then confirmed the involvement of PAR-2 receptor in the uptake of melanocores by keratinocytes, using the newly developed assay. Furthermore, we identified the role of four Rab GTPases on the uptake of melanocores by keratinocytes. Depletion of Rab1a and Rab5b from keratinocytes significantly reduced the uptake of melanocores, whereas Rab2a, and Rab14 silencing increased the amount the melanocores internalized by XB2 keratinocytes. In conclusion, we present evidence supporting keratinocyte-inducedmelanosome exocytosis from melanocytes, followed by endocytosis of the melanin core by keratinocytes as the predominant mechanism of melanin transfer in skin. Although advances have been made, there is a need for more effective and safer therapies directed at pigmentation disorders and also treatments for cosmetic applications. Hence, the understanding of the above mechanisms of skin pigmentation will lead to a greater appreciation of the molecular machinery underlying human skin pigmentation and could interest the pharmaceutical and cosmetic industries.
Resumo:
Tissue engineering arises from the need to regenerate organs and tissues, requiring the development of scaffolds, which can provide an optimum environment for tissue growth. In this work, chitosan with different molecular weights was used to develop biodegradable 3D inverted colloidal crystals (ICC) structures for bone regeneration, exhibiting uniform pore size and interconnected network. Moreover, in vitro tests were conducted by studying the influence of the molecular weight in the degradation kinetics and mechanical properties. The production of ICC included four major stages: fabrication of microspheres; assembly into a cohesive structure, polymeric solution infiltration and microsphere removal. Chitosan’s degree of deacetylation was determined by infrared spectroscopy and molecular weight was obtained via capillary viscometry. In order to understand the effect of the molecular weight in ICC structures, the mass loss and mechanical properties were analyzed after degradation with lysozyme. Structure morphology observation before and after degradation was performed by scanning electron microscopy. Cellular adhesion and proliferation tests were carried out to evaluate ICC in vitro response. Overall, medium molecular weight ICC revealed the best balance in terms of mechanical properties, degradation rate, morphology and biological behaviour.
Resumo:
RESUMO: Introdução - A utilização de células e das suas propriedades para o tratamento das doenças cardiovasculares, é uma promessa para o futuro e talvez a única forma de ultrapassar algumas das insuficiências das terapêuticas atuais. A via de entrega das células mais utilizada na investigação tem sido a intracoronária, ganhando a microcirculação especial relevância, por ser onde ocorre a primeira interação com o tecido nativo. As células estaminais mesenquimais (CEM) têm propriedades que as tornam particularmente aptas para a Terapia Celular, mas as suas dimensões, superiores ao diâmetro dos capilares, tem motivado controvérsia quanto à sua entrega intracoronária. A cardiologia de intervenção tem atualmente técnicas que permitem a avaliação em tempo real e in vivo do estado da microcirculação coronária. A determinação do índice da resistência da microcirculação (IRM) fornece informação sobre a circulação dos pequenos vasos, de forma independente da circulação coronária e do estado hemodinâmico, mas a aplicabilidade clínica deste conhecimento encontra-se ainda por definir. Objectivos Esclarecer o potencial do IRM no estudo dos efeitos do transplante de CEM por via intracoronária. População e Métodos . Estudo pré-clínico com modelo animal (suíno) desenvolvido em 3 fases. Na Primeira Fase foram utilizados 8 animais saudáveis para estudar e validar a técnica de determinação de estudo da microcirculação. Efetuou-se a determinação do IRM com duas doses diferentes de papaverina para a indução da resposta hiperémica máxima (5 e 10 mg) e após a disfunção da microcirculação com injeção intracoronária de microesferas de embozene com 40 μm de diâmetro. Na Segunda Fase foram utilizados 18 animais saudáveis, randomizados em grupo controlo e grupo recetor de 30 x 106 CEM por via intracoronária. Foram avaliados de forma cega o IRM, a pressão aórtica, o fluxo coronário epicárdico e a ocorrência de alterações electrocardiográficas. Na Terceira Fase foram utilizados 18 animais, com enfarte agudo do miocárdio provocado (EAM), randomizados em grupo controlo, grupo recetor de CEM expandidas de forma convencional e grupo recetor de CEM expandidas com metodologia inovadora e de menores dimensões. Foi realizada uma exploração da dose/efeito com infusão faseada de 10 x 106, 15 x 106 e 20 x 106 CEM, com determinação do IRM, da pressão aórtica, do fluxo coronário epicárdico e da ocorrência de alterações eletrocardiográficas. Quatro semanas após a entrega das células foi novamente avaliado o IRM e foi efetuado o estudo anatomopatológico dos animais na procura de evidência de neoangiogénese e de regeneração miocárdica, ou de um efeito positivo da resposta reparadora após o enfarte. Resultados Nas 3 fases todos os animais mantiveram estabilidade hemodinâmica e eletrocardiográfica, com exceção da elevação de ST de V1-V3 verificada após a injeção das microesferas. Na Primeira Fase as duas doses de papaverina induziram uma resposta hiperémica eficaz, sem tradução com significado na determinação do IRM (variação da pressão distal de - 11,4 ± 5 e de - 10,6± 5 mmHg com as doses de 5 e 10 mg respetivamente (p=0,5). Com a injeção das microesferas o IRM teve uma elevação média de 310 ± 190 %, para um valor médio de 41,3 ± 16 U (p = 0,001). Na Segunda Fase não houve diferenças significativas dos parâmetros hemodinâmicos, do fluxo epicárdico e da avaliação eletrocardiográfica entre os dois grupos. O IRM de base foi semelhante e após a infusão intracoronária observou-se uma elevação expressiva do IRM nos animais que receberam células em comparação com o grupo controlo (8,8 U ± 1 vs. 14,2 U ± 1,8, P=0,02) e quanto ao seu valor de base (aumento de 112%, p=0,008). Na terceira Fase não houve novamente diferenças significativas dos parâmetros hemodinâmicos, do fluxo epicárdico e da avaliação eletrocardiográfica entre os três grupos. Houve uma elevação do IRM nos animais que receberam células a partir da 2ª dose (72% nas células convencionai e 108% nas células inovadoras) e que se manteve com a 3ª dose (100% nas células convencionais e 88% nas inovadoras) com significado estatístico em comparação com o grupo controlo (p=0,034 com a 2ªdose e p=0,024 com a 3ª dose). Quatro semanas após a entrega das CEM observou-se a descida do IRM nos dois grupos que receberam células, para valores sobreponíveis aos do grupo controlo e aos valores pós-EAM. Na avaliação anatomopatológica e histológica dos corações explantados não houve diferenças entre os três grupos. Conclusões O IRM permite distinguir alterações da microcirculação coronária motivadas pela entrega intracoronária de CEM, na ausência de alterações de outros parâmetros clínicos da circulação coronária utilizados em tempo real. As alterações do IRM são progressivas e passíveis de avaliar o efeito/dose, embora não tenha sido possível determinar diferenças com os dois tipos de CEM. No nosso modelo a injeção intracoronária não se associou a evidência de efeito benéfico na reparação ou regeneração miocárdica após o EAM.---------------------------- ABSTRACT: ABSTRACT Introduction The use of cells for the treatment of cardiovascular disease is a promise for the future and perhaps the only option to overcome some of the shortcomings of current therapies. The strategy for the delivery of cells most often used in current research has been the intracoronary route and due to this microcirculation gains special relevance, mainly because it is the first interaction site of transplanted cells with the native tissue. Mesenchymal stem cells (MSC) have properties that make them suitable for Cell Therapy, but its dimensions, larger than the diameter of capillaries, have prompted controversy about the safety of intracoronary delivery. The interventional cardiology currently has techniques that allow for real-time and in vivo assessment of coronary microcirculation state. The determination of the index of microcirculatory resistance index (IMR) provides information about small vessels, independently of the coronary circulation and hemodynamic status, but the clinical applicability of this knowledge is yet to be defined. Objectives To clarify the potential use of IMR in the study of the effects of MSC through intracoronary transplantation. Population and Methods Preclinical study with swine model developed in three phases. In Phase One 8 healthy animals were used to study and validate the IMR assessment in our animal model. IMR was assessed with two different doses of papaverine for inducing the maximal hyperaemic response (5 and 10 mg) and microcirculation dysfunction was achieved after intracoronary injection with embozene microspheres with 40 μm in diameter. In Phase Two we randomized 18 healthy animals divided between the control group and the one receiving 30 x 106 MSC through an intracoronary infusion. There we blindly evaluated IMR, the aortic pressure, the epicardial coronary flow and the occurrence of ECG changes. In Phase Three we used 18 animals with a provoked acute myocardial infarction (AMI), randomized into a control group, a MSC expanded conventionally receiver group and a MSC expanded with an innovative methodology receiver group. There was a stepwise infusion with doses of 10 x 106, 15 x 106 and 20 x 106 MSC with determination of IMR, the aortic pressure, the epicardial coronary flow and occurrence of electrocardiographic abnormalities. Four weeks after cell delivery we again measured the IMR and proceeded with the pathological study of animals in the search for evidence of neoangiogenesis and myocardial regeneration, or a positive effect in the reparative response following the infarction. Results All animals remained hemodynamically stable and with no electrocardiographic abnormalities, except for the ST elevation in V1-V3 observed after injection of the microspheres. In Phase One the two doses of papaverine achieved an hyperemic and effective response without significant differences in IMR (variation of the distal pressure -11.4 ± 5 and -10.6 ± 5 mmHg with the doses of 5 and 10 mg respectively (p = 0.5). With the injection of the microspheres the IMR had an average increase of 310 ± 190% for an average value of 41.3 ± 16 U (p = 0.001). In the second phase there were no significant differences in hemodynamic parameters, epicardial flow and electrocardiographic assessment between the two groups. The baseline IMR was similar and after intracoronary infusion there was a significant increase in animals receiving cells compared with the control group (8.8 ± U 1 vs. 14.2 ± 1.8, p = 0.02) and with their baseline (112% increase, p = 0.008). In the third phase again there were no significant differences in hemodynamic parameters, the epicardial flow and electrocardiographic evaluation between the three groups. There was a significant increase in IMR in animals that received cells from the 2nd dose (72% in conventional cells and 108% in the innovative cells) that remained with the 3rd dose (100% in conventional cells and 88% in the innovative) with statistical significance compared with the control group (p = 0.034 with 2nd dose, p = 0.024 with 3rd dose). Four weeks after delivery of the MSC we observed the fall of the IMR in the two groups that received cells with values overlapping those of the control group. In pathological and histological evaluation of removed hearts there were no differences among the three groups. Conclusions The IMR allows for the differentiation of changes in coronary microcirculation motivated by intracoronary delivery of MSC in the absence of modification in other clinical parameters. IMR changes are progressive and enable the evaluation of the effect / dose, though it has not been possible to determine differences in the two types of MSC. In our model, intracoronary injection of MSC was not associated with evidence of repair or myocardial regeneration after AMI.
Resumo:
Current research and development of antigens for vaccination often center on purified recombinant proteins, viral subunits, synthetic oligopeptides or oligosaccharides, most of them suffering from being poorly immunogenic and subject to degradation. Hence, they call for efficient delivery systems and potent immunostimulants, jointly denoted as adjuvants. Particulate delivery systems like emulsions, liposomes, nanoparticles and microspheres may provide protection from degradation and facilitate the co-formulation of both the antigen and the immunostimulant. Synthetic double-stranded (ds) RNA, such as polyriboinosinic acid-polyribocytidylic acid, poly(I:C), is a mimic of viral dsRNA and, as such, a promising immunostimulant candidate for vaccines directed against intracellular pathogens. Poly(I:C) signaling is primarily dependent on Toll-like receptor 3 (TLR3), and on melanoma differentiation-associated gene-5 (MDA-5), and strongly drives cell-mediated immunity and a potent type I interferon response. However, stability and toxicity issues so far prevented the clinical application of dsRNAs as they undergo rapid enzymatic degradation and bear the potential to trigger undue immune stimulation as well as autoimmune disorders. This review addresses these concerns and suggests strategies to improve the safety and efficacy of immunostimulatory dsRNA formulations. The focus is on technological means required to lower the necessary dosage of poly(I:C), to target surface-modified microspheres passively or actively to antigen-presenting cells (APCs), to control their interaction with non-professional phagocytes and to modulate the resulting cytokine secretion profile.
Resumo:
Nicotine has been shown to stimulate the release of vasopressin and to cause significant hemodynamic changes. The mechanisms leading to enhanced vasopressin secretion and the vascular consequences of the high plasma vasopressin levels during nicotine infusion have not yet been determined. Therefore, the purposes of the present study were 1) to examine in normal conscious rats the role of opioid peptides in the nicotine-induced increase in plasma vasopressin levels and 2) to assess the role of vasopressin in the hemodynamic effects of nicotine (20 micrograms/min for 15 min) using a specific V1 antagonist of the vascular actions of vasopressin. Plasma vasopressin levels were significantly increased in the nicotine-treated animals (39.5 +/- 10 vs. 3.7 +/- 0.6 pg/ml in the controls, P less than .01). Pretreatment with naloxone, an antagonist of opioids at their receptors, did not reduce the vasopressin levels (47.7 +/- 9 pg/ml). Nicotine also increased mean blood pressure (122.5 +/- 2.5 to 145.2 +/- 3.3 mm Hg, P less than .01) and decreased heart rate (461 +/- 6 to 386 +/- 14.5 beats/min, P less than .05). Administration of the vasopressin V1 antagonist before the nicotine infusion did not affect the systemic hemodynamics or the regional blood flow distribution, as assessed by radiolabeled microspheres. Thus, these results suggest that the nicotine-induced secretion of vasopressin is not mediated by opioid receptors and that the high plasma vasopressin levels do not exert any significant hemodynamic effect on cardiac output or blood flow distribution.
Resumo:
OBJECTIVES: Comparison of doxorubicin uptake, leakage and spatial regional blood flow, and drug distribution was made for antegrade, retrograde, combined antegrade and retrograde isolated lung perfusion, and pulmonary artery infusion by endovascular inflow occlusion (blood flow occlusion), as opposed to intravenous administration in a porcine model. METHODS: White pigs underwent single-pass lung perfusion with doxorubicin (320 mug/mL), labeled 99mTc-microspheres, and Indian ink. Visual assessment of the ink distribution and perfusion scintigraphy of the perfused lung was performed. 99mTc activity and doxorubicin levels were measured by gamma counting and high-performance liquid chromatography on 15 tissue samples from each perfused lung at predetermined localizations. RESULTS: Overall doxorubicin uptake in the perfused lung was significantly higher (P = .001) and the plasma concentration was significantly lower (P < .0001) after all isolated lung perfusion techniques, compared with intravenous administration, without differences between them. Pulmonary artery infusion (blood flow occlusion) showed an equally high doxorubicin uptake in the perfused lung but a higher systemic leakage than surgical isolated lung perfusion (P < .0001). The geometric coefficients of variation of the doxorubicin lung tissue levels were 175%, 279%, 226%, and 151% for antegrade, retrograde, combined antegrade and retrograde isolated lung perfusion, and pulmonary artery infusion by endovascular inflow occlusion (blood flow occlusion), respectively, compared with 51% for intravenous administration (P = .09). 99mTc activity measurements of the samples paralleled the doxorubicin level measurements, indicating a trend to a more heterogeneous spatial regional blood flow and drug distribution after isolated lung perfusion and blood flow occlusion compared with intravenous administration. CONCLUSIONS: Cytostatic lung perfusion results in a high overall doxorubicin uptake, which is, however, heterogeneously distributed within the perfused lung.
Resumo:
Neurons projecting transitorily into the corpus callosum from area 17 of the cat were retrogradely labeled by the fluorescent tracer Fast Blue (FB) injected into contralateral areas 17 and 18 on postnatal days 1-5. During the second postnatal month these neurons were still labeled by the early injection, although they had eliminated their callosal axon. At this time, 15-20% of these neurons could be retrogradely relabeled by injections of Diamidino Yellow (DY) into ipsilateral areas 17 and 18, but few or none by similar injections in the other areas that receive from area 17 (19, 21a, PMLS, 20a, 20b, DLS). Similarly, area 17 neurons projecting transitorily to contralateral area PMLS during the first postnatal week could be relabeled by DY injections in ipsilateral areas 17 and 18 but not in PMLS. Already around birth, many transitorily callosal neurons in area 17 send bifurcating axons both to contralateral areas 17 and 18 and ipsilateral area 18. It is probable that during postnatal development some of these neurons selectively eliminate their callosal axon collaterals and maintain the projection to ipsilateral area 18. In fact, some transitorily callosal neurons in area 17 can be double-labeled by simultaneous perinatal injections of FB in contralateral areas 17 and 18 and of a new long-lasting retrograde tracer, rhodamine-conjugated latex microspheres, in ipsilateral area 18. The same neurons can then be relabeled by reinjecting ipsilateral area 18 with DY during the second postnatal month. This finding, however, does not exclude the possibility that some transitorily callosal neurons send an axon to ipsilateral area 18 after eliminating their callosal axon. In conclusion, area 17 neurons that project transitorily through the corpus callosum later participate, probably permanently, in ipsilateral corticocortical projections but selectively to areas 17-18. The mechanism responsible for this selectivity is unknown, but it may be related to the differential radial distribution (i.e., to birth date) of area 17 neurons engaged in the various corticocortical projections. The problems raised by the use of long-lasting retrograde fluorescent tracers in neurodevelopmental studies and by the quantification of results of double- and triple-labeling paradigms are also discussed.
Resumo:
The purpose of this study was to design microspheres combining sustained delivery and enhanced intracellular penetration for ocular administration of antisense oligonucleotides. Nanosized complexes of antisense TGF-beta2 phosphorothioate oligonucleotides (PS-ODN) with polyethylenimine (PEI), and naked PS-ODN were encapsulated into poly(lactide-co-glycolide) microspheres prepared by the double-emulsion solvent evaporation method. The PS-ODN was introduced either naked or complexed in the inner aqueous phase of the first emulsion. We observed a marked influence of microsphere composition on porosity, size distribution and PS-ODN encapsulation efficiency. Mainly, the presence of PEI induced the formation of large pores observed onto microsphere surface. Introduction of NaCl in the outer aqueous phase increased the encapsulation efficiency and reduced microsphere porosity. In vitro release kinetic of PS-ODN was also investigated. Clearly, the higher the porosity, the faster was the release and the higher was the burst effect. Using an analytical solution of Fick's second law of diffusion, it was shown that the early phase of PS-ODN and PS-ODN-PEI complex release was primarily controlled by pure diffusion, irrespectively of the type of microsphere. Finally, microspheres containing antisense TGF-beta2 nanosized complexes were shown, after subconjunctival administration to rabbit, to significantly increase intracellular penetration of ODN in conjunctival cells and subsequently to improve bleb survival in a rabbit experimental model of filtering surgery. These results open up interesting prospective for the local controlled delivery of genetic material into the eye.
Resumo:
PURPOSE: To analyze outcomes after right portal vein embolization extended to segment IV (right PVE + IV) before extended right hepatectomy, including liver hypertrophy, resection rates, and complications after embolization and resection, and to assess differences in outcomes with two different particulate embolic agents. MATERIALS AND METHODS: Between 1998 and 2004, transhepatic ipsilateral right PVE + IV with particles and coils was performed in 44 patients with malignant hepatobiliary disease, including metastases (n = 24), biliary cancer (n = 14), and hepatocellular carcinoma (n = 6). Right PVE + IV was considered if the future liver remnant (FLR; segments II/III with or without I) was less than 25% of the total estimated liver volume (TELV). Tris-acryl microspheres (100-700 microm; n = 21) or polyvinyl alcohol (PVA) particles (355-1,000 microm; n = 23) were administered in a stepwise fashion. Smaller particles were used to occlude distal branches, followed by larger particles to occlude proximal branches until near-complete stasis. Coils were then placed in secondary portal branches. Computed tomographic volumetry was performed before and 3-4 weeks after right PVE + IV to assess FLR hypertrophy. Liver volumes and postembolization and postoperative outcomes were measured. RESULTS: After right PVE + IV with PVA particles, FLR volume increased 45.5% +/- 40.9% and FLR/TELV ratio increased 6.9% +/- 5.6%. After right PVE + IV with tris-acryl microspheres, FLR volume increased 69.0% +/- 30.7% and FLR/TELV ratio increased 9.7% +/- 3.3%. Differences in FLR volume (P = .0011), FLR/TELV ratio (P = .027), and resection rates (P = .02) were statistically significant. Seventy-one percent of patients underwent extended right hepatectomy (86% after receiving tris-acryl microspheres, 57% after receiving PVA). Thirteen patients (29%) did not undergo resection (extrahepatic spread [n = 9], inadequate hypertrophy [n = 3], other reasons [n = 1]). No patient developed postembolization syndrome or progressive liver insufficiency after embolization or resection. One death after resection occurred as a result of sepsis and hemorrhage. Median hospital stays were 1 day after right PVE + IV and 7 days after resection. CONCLUSION: Transhepatic ipsilateral right PVE + IV with use of particles and coils is a safe, effective method for inducing contralateral hypertrophy before extended right hepatectomy. Embolization with small spherical particles provides improved hypertrophy and resection rates compared with larger, nonspherical particles.
Resumo:
Purpose To characterize in vitro the loadability, physical properties, and release of irinotecan and doxorubicin from two commercially available embolization microspheres. Materials and Methods DC Bead (500-700 μm) and Hepasphere (400-600 μm) microspheres were loaded with either doxorubicin or irinotecan solutions. Drug amount was quantified with spectrophotometry, bead elasticity was measured under compression, and bead size and loading homogeneity were assessed with microscopy image analysis. Drug release was measured over 1-week periods in saline by using a pharmacopeia flow-through method. Results Almost complete drug loading was obtained for both microsphere types and drugs. Doxorubicin-loaded DC Beads maintained their spherical shape throughout the release. In contrast, Hepaspheres showed less homogeneous doxorubicin loading and, after release, some fractured microspheres. Incomplete doxorubicin release was observed in saline over 1 week (27% ± 2 for DC beads and 18% ± 7 for Hepaspheres; P = .013). About 75% of this amount was released within 2.2 hours for both beads. For irinotecan, complete release was obtained for both types of beads, in a sustained manner over 2-3 hours for DC Beads, and in a significantly faster manner as a 7-minute burst for Hepaspheres. Conclusions The two drug-eluting microspheres could be efficiently loaded with both drugs. Incomplete doxorubicin release was attributed to strong drug-bead ionic interactions. Weaker interactions were observed with irinotecan, which led to faster drug release.
Resumo:
PURPOSE: To study the kinetics of polylactide (PLA) nanoparticle (NP) localization within the intraocular tissues and to evaluate their potential to release encapsulated material. METHODS: A single intravitreous injection (5 micro L) of an NP suspension (2.2 mg/mL) encapsulating either Rh-6G (Rh) or Nile red (Nr) was performed. Animals were killed at various times, and the NPs localization within the intraocular tissues was studied by environmental scanning electron microscopy (ESEM), confocal microscopy, light microscopy histology, fluorescence microscopy, and immunohistochemistry. Eyes injected with blank NPs, free Rh, or PBS solution were used as the control. RESULTS: ESEM showed the flow of the NPs from the site of injection into the vitreous cavity and their rapid settling on the internal limiting membrane. Histology demonstrated the anatomic integrity of the injected eyes and showed no toxic effects. A mild inflammatory cell infiltrate was observed in the ciliary body 6 hours after the injection and in the posterior vitreous and retina at 18 to 24 hours. The intensity of inflammation decreased markedly by 48 hours. Confocal and fluorescence microscopy and immunohistochemistry showed that a transretinal movement of the NPs was gradually taking place with a later localization in the RPE cells. Rh encapsulated within the injected NPs diffused and stained the retina and RPE cells. PLA NPs were still present within the RPE cells 4 months after a single intravitreous injection. CONCLUSIONS: Intravitreous injection of PLA NPs appears to result in transretinal movement, with a preferential localization in the RPE cells. Encapsulated Rh diffuses from the NPs and stains the neuroretina and the RPE cells. The findings support the idea that specific targeting of these tissues is feasible. Furthermore, the presence of the NPs within the RPE cells 4 months after a single injection shows that a steady and continuous delivery of drugs can be achieved.
Resumo:
Background: Providing analgesia without suppressing motor or sensory function is a challenge for regional anesthesia and postoperative pain management. Resiniferatoxin (RTX), an ultrapotent agonist for transient receptor potential subtype-1 (TRPV1) can produce this selective blockade, as TRPV1 is selectively expressed on nociceptors. Futhermore, after peripheral nerve injury, spontaneous ectopic activity arises from all types of nerve fibers that can affect spinal neurons and glial cells. The goal of the present experiment is to determine whether spontaneous activity generated in C-fibers or in both A&C-fibers is required for microglia activation. Method: We applied RTX (0.01%) or bupivacaine microspheres to the sciatic nerve of rats to block the conduction of C-fibers or A&C-fibers, respectively, before spared nerve injury (SNI). Behavior was tested and all the rats were sacrificed 2 days later; immunohistochemistry was performed on their spinal cord for mitogen-activated protein kinase (MAPK) p38, bromodeoxyuridine (BrdU, marker of proliferation) and Iba1 (microglial marker). Result: At day 2 after SNI robust mechanical allodynia and p38 activation in spinal microglia were documented. There was also a substantial cell proliferation in the spinal cord, all proliferating cells (BrdU+) being microglia (Iba1+). RTX blocked heat sensitivity and produced heat hypoalgesia without affecting mechanical allodynia and motor function. Microglial proliferation and p38 activation in the spinal cord were not affected by RTX (p >0.05). In contrast, a complete sensory and motor blockade was seen with bupivacaine which also significantly inhibited p38 activation and microglial proliferation in the spinal cord (p <0.05). Conclusion: We conclude that (1) RTX can provide a selective nociceptive blockade but that (2) blocking only nociceptive fibers does not impair the development of mechanical allodynia and microglia activation. Therefore (3) if microglia activation is important for chronic pain development then specific nociceptive blockade won't be sufficient to prevent it.
