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51	Applications of iontophoresis in sports medicine Sylvestre, Jean-Philippe January 2007 (has links) In this thesis, two potential applications of transdermal iontophoresis in the field of sports medicine were studied: (1) the local delivery of dexamethasone phosphate (Dex-Phos), a corticosteroid used to treat musculoskeletal inflammation, and (2) the extraction of systemic amino acids (AAs), potential biological markers of fatigue in athletes. The iontophoretic delivery of Dex-Phos was studied, in vitro, in order to evaluate the effects of competing ions and electroosmosis, and identify the optimal conditions for its delivery. The iontophoretic extraction of AAs from the skin was first studied in vitro, before evaluating the method in a group of human volunteers. Dex-Phos was best delivered by iontophoresis from the cathode in absence of background electrolyte in the drug solution. In this situation, the delivery of Dex-Phos is limited principally by the competition with counter-ions (mainly Na+) present subdermally and the small mobility of the drug inside the membrane. The accumulation of Cl-, released by the Ag/AgCl cathode in the drug solution during current passage, can also reduce Dex-Phos delivery. The extraction of zwitterionic AAs from the skin during iontophoresis was highly influenced by their presence in the outermost layer of the skin, the stratum corneum (SC). In the pig skin model, the amount of the AAs extracted during a short extraction period (1 hour) correlated with their abundance in the SC. Once this ‘reservoir’ was emptied (after ~3 hours of iontophoresis), the subdermal compartment could be sampled, suggesting that the method could be used to monitor systemic levels of AAs. The experiments in human volunteers revealed, however, that a 4-hour iontophoretic extraction period was insufficient to deplete the AAs SC ‘reservoir’. It follows that the method can be used to evaluate the abundance of AAs in the SC, but is unpractical for the clinical monitoring of their systemic levels. 572.072
52	Resposta imuno-bioquímica e avaliação histológica da cartilagem articular de ratos artrose induzidos, frente ao tratamento com iontoforese isolada e de ácido L-ascorbico / Arruda, Maurício Ferraz de. January 2010 (has links) Resumo: A osteoartrose se caracteriza pela degeneração articular, perda de cartilagem e alterações no osso subcondral. Pouco se sabe sobre a patogênese e mudanças que ocorrem na osteoartrose como também em seu reparo. As técnicas terapêuticas disponíveis podem resultar em alívio dos sintomas, mas não na regeneração do tecido lesado. Um dos métodos usuais para pesquisa em osteoartrose com o preceito de mimetizar esta situação e também realizada neste trabalho, é o modelo experimental utilizando a inoculação intra-articular de zymosan (Saccharamyces cerevisiae), gerando artrite em grau progressivo. A eletroterapia potencializa a reparação de tecidos conjuntivos representando uma alternativa na reparação de lesões da cartilagem hialina. O acido ascórbico é um dos precurssores do colágeno que junto com outras estruturas complexas como a trama de glicosaminoglicanas e proteoglicanas constitui a cartilagem. A utilização dessa técnica para administração do acido ascórbico em tecido biológico é fator substancial do presente trabalho. Objetivo: O objetivo do presente estudo foi verificar a resposta imuno-bioquímica e avaliar microscopicamente a cartilagem articular de ratos artrose induzidos, frente ao tratamento com iontoforese na presença e ausência de acido L - ascórbico. Materiais e Métodos: Ratos wistar machos divididos em 6 grupos de 6 animais cada um, diferenciados em grupos: controle positivo C+, controle negativo C-,gavagem com solução fisiológica GSF, gavagem com ácido ascórbico GAA, iontoforese solução fisiológica IFSF iontoforese com ácido ascórbico IFAA.Resultados: Histológicos demonstraram em coloração Hematoxilina e Eosina que com o grupo IFAA obteve normalidade da variável celularidade (40.1 mm2), e manutenção da cartilagem não calcificada (75.5mm) (p<0.05), sugerindo espessuras normais. Quanto ao grupo não tratado C+ apresentou-se menor... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Osteoarthritis is characterized by joint degeneration, loss of cartilage and subchondral bone changes. Little is known about the pathogenesis and changes that occur in osteoarthritis as well as in its repair. Available therapeutic techniques can result in relief of symptoms but not in the regeneration of injured tissue. One of the usual methods for research used in this study is the experimental model which uses intra-articular inoculation of zymosan (Saccharamyces cerevisiae), causing arthritis in progressive degree. Electrotherapy enhances the healing of tissues representing an alternative in the repair of hyaline cartilage injuries. Ascorbic acid is one of the forerunners of collagen which along with other complex structures like the chains of glycosaminoglycans and proteoglycans form the cartilage. The use of this technique for administration of ascorbic acid in biological tissue is a substantial factor in this study. Objective: The objective of this study was to investigate the immune-biochemical reply and evaluate microscopically the histology of articular cartilage in rats arthritis induced, compared to treatment with iontophoresis in the presence and absence of L - ascorbic acid. Methods: Male wistar rats were divided into 6 groups of 6 animals each, in different groups: positive control C+, negative control C-, gavage with saline solution GSS, gavage with ascorbic acid GAA, saline iontophoresis IPSS, iontophoresis with ascorbic acid IPAA. Results: Histological it was demonstrated that in hematoxylin and eosin staining the group that received IPAA obtained normality of variable (40.1 mm2), and maintenance of non calcified cartilage (75.5mm) (p<0.05), suggesting normal thickness. Regarding the untreated group C+, it presented lower average in the number of chondrocytes (13.0mm2), and with regard to the thickness of cartilage it had a higher average of calcified cartilage with... (Complete abstract click electronic access below) / Orientador: Olga Maria Mascarenhas de Faria Oliveira / Coorientador: Maria Rita Pacheco / Banca: Iguatemy Lourenço Brunetti / Banca: Ana Maria Minarelli Gaspar / Banca: Ticiana Sidorenko de Oliveira Capote / Banca: Fábio Viaddanna Serrão / Doutor Cartilagem articular. Vitamina C. Iontophoresis. eng Cartilage. eng Ascorbic acid. eng Repair. eng
53	Assessment of microvascular function by use of transdermal iontophoresis : methodological aspects Droog Tesselaar, Erik January 2007 (has links) Assessment of the microcirculation is of major importance in understanding the physiology of the vasculature and in assessing te vascular effects of pathological conditions such as diabetes, hypertension and sepsis. Transdermal iontophoresis can be used to non‐invasively introduce vasoactive drugs into the skin. The response to these drugs of the local cutaneous microvasculature can be measured by laser Doppler flowmetry methods. Although these techniques have been used together for over two decades, there are still important methodological issues to be resolved. This work is aimed at optimizing transdermal iontophoresis as a tool for microvascular assessment by focusing on the main methdological issues: non‐specific vasodilatation, drug delivery protocols and analysis of blood flow data. Non‐specific vasodilatation, an increase blood flow during iontophoresis of non‐vasoactive compounds, is an important problem as it interferes with the response to the administered drug. By investigating this effect in healthy volunteers, we found that the extent of the non‐specific response differs between the positive and negative electrode and that it is dependent on the voltage over the skin andon the ionic strength of the vehicle in which the drug is dissolved. We also found that the extent of the non‐specific response could be reduced by applying local anesthetics and by pre‐treatment with antihistamine drugs. These results suggest that non‐specific effects could be mediated by depolarization or hyperpolarisation of cells, triggering neural and histamine related mechanisms that finally lead to vasodilatation of the local microvasculature. To prevent non‐specific effects from occurring during the experiments, our results show that the current strength and the total electric charge during iontophoresis should be limited to 0.02 mA and12 mC, respectively. Furthermore, drug solutions at physiological ionic strengths should be used. Under these conditions, adequate responses to the most commonly used drugs, acetylcholine (ACh) and sodium nitroprusside (SNP), are obtained while no significant non‐specific vasodilatation occurs. The results of our investigations show that blood responses to ACh and SNP applied by a single iontophoretic pulse can well be escribed by conventional dose‐response models, which enables a more powerful analysis and comparison between drugs or possibly patient groups as compared with conventional aalysis methods. Finally, we have incorporated drug transport and physiological response to the local drug concentration during iontophoresis of vasoactve drugs into a single model. Validation of this model using measured responses to ACh and SNP shows that the commonly used assumption that the local drug concentration during iontophoresis is linearly proportional to the electric charge may not be valid. / Mikrocirkulationen, som inbegriper kroppens minsta blodkärl, transporterar syre och näringsämnen till våra celler. Vissa sjukdomar, som diabetes, hjärt‐kärlsjukdom och akut blodförgiftning leder till förändringar hos mikrocirkulationen. Mekanismerna bakom dessa förändringar är delvis okända. Det finns därför ett stort behov av kliniska mättekniker som kan bedöma mikrocirkulationens funktion. Vid jontofores placeras en elektrod tillsammans med ett läkemedel på huden. När en svag elektrisk ström anbringas transporteras läkemedlet ner genom hudlagren. Effekterna av ett kärlaktivt läkemedel som appliceras på detta sätt kan sedan avläsas non‐invasivt med laser Doppler‐teknik. En stor fördel med jontoforesmetoden, förutom att den är non‐invasiv, är att läkemedelsdoserna som tillförs kroppen är mycket små och därmed ger de inte upphov till några systemiska bi‐effekter. I avhandlingen presenteras forskning, vilkas målsättning är att lösa några av de viktiga frågorna kring transdermal jontofores så att tekniken optimeras för att denskall kunna brukas som ett verktyg vid kliniska undersökningar av mikrocirkulationen. Den första delen ägnas ett fenomen som kallas ospecifik vasodilatation. Det uppstår vid jontofores av substanser som är inte kärlaktiv, som vatten och koksaltlösning. Resultaten från dessa försök indikerar att den ospecifika vasodilatationen beror på framför allt spänningen över huden, vilken i sin tur är relaterad till jon‐koncentrationen hos läkemedelslösningen. Vidare registreras att mekanismen bakom den ospecifika vasodilatationen delvis är neuralt medierad genom att de till stor del år att förhindra med hjälp av lokal bedövning. Dessutom leder förbehandling med anti‐histamina läkemedel till minskade ospecifika reaktioner, vilket också indikerar att lokala inflammatoriska processer är inblandande. Den andra delen av avhandlingen ägnas att optimera försöksprotokollen för jontofores. Till att börja med utvecklas ett protokoll som ger ett adekvat läkemedelssvar samtidigt som ospecifika effekter minimeras. Det visar sig är möjligt genom att begränsa strömstyrkan och den elektriska laddningen under jontoforesen och genom att använd läkemedelslösningar som har en fysiologisk jonstyrka. Resultaten visar också att blodflödesförändringen som registreras under jontofores av acetylkolin och natriumnitroprussid kan eskrivas med hjälp av konventionella dos‐responsmodeller, vilket möjliggör en mer exakt analys av det mikrocirkulatoriska svaret samt underlättar jämförelse mellan olika läkemedel elle patientgrupper. Slutligen presenteras en mekanistisk model för det mikrocirkulatoriska svaret vid jontofores. Modellen beskriver läkemedlets transport från elektroden ner genom huden, clearance i huden vilken beror på diffusion och det lokala blodflödet, samt förändringen i blodflöde som sker på grund av läkemedlet. Modellen valideras genom försök på försökspersoner och resultaten visar att förändringarna i blodflödet åstadkommet av acetylklin och natriumnitroprussid med denna modell kan beskrivas på ett exakt sätt. Vidare visar resultaten att det sker en betydande clearance av läkemedel i huden under jontofores. Detta har väsentlig betydelse när man ska uppskatta den lokala jontoforesdosen. / The author changed surname from Droog to Tesselaar in January 2006. Iontophoresis Microcirculation Laser-Doppler Acetylcholine Sodium nitroprusside Pharmacodynamics Pharmacokinetics skin Physiology and pharmacology Fysiologi och farmakologi
54	The role of calcium spikes in neocortical pyramidal cell dendrites : implications for the transduction of dendritic current into spike output / Oakley, John Christopher. January 1999 (has links) Thesis (Ph. D.)--University of Washington, 1999. / Vita. Includes bibliographical references (leaves 78-82).
55	L'iontophorèse thérapeutique dans la prise en charge des ulcérations cutanées de la sclérodermie systémique : screening, étude de preuve de concept sur modèles de sclérodermie murins / Therapeutic iontophoresis for scleroderma-related cutaneous ulcerations : screening, proof-of-concept study in a mouse scleroderma model Kotzki, Sylvain 24 March 2016 (has links) La sclérodermie (SSc) est une pathologie grave caractérisée par une atteinte microvasculaire combinée à une fibrose cutanée. Au niveau des extrémités, ce phénomène provoque des ulcères digitaux (UD) particulièrement douloureux et qui contribuent à diminuer la qualité de vie des patients atteints. La cicatrisation des UD est difficile et souvent de mauvais pronostic avec d’importants risques d’infection voire d’amputation. A ce jour, les injections intraveineuses d’iloprost, un analogue de la prostacycline, sont le seul traitement reconnu mais leur utilisation entraîne des effets secondaires et requiert une hospitalisation. Le treprostinil, un autre analogue de la prostacycline, est susceptible d’induire une importante vasorelaxation ce qui en fait une molécule d’intérêt majeur dans la prise en charge des UD. La sclérodermie est une pathologie complexe et aucun modèle animal ne présente l’ensemble de ses caractéristiques physiopathologiques. Parmi les modèles existants nous avons sélectionnés deux modèles murins (HOCL et uPAR-/-) récemment décrits comme étant prometteurs pour développer de nouvelles approches thérapeutiques dans la prise en charge des symptômes de la SSc.L’objectif de cette étude est d’évaluer l’iontophorèse de treprostinil comme stratégie locale pour induire une accélération de la cicatrisation d’ulcères provoqués sur modèles de SSc. Brièvement, une lésion a été réalisée par excision de peau au niveau du dos de souris. Les animaux ont été répartis aléatoirement dans trois groupes : « témoin », « contrôle » et « treprostinil » et les plaies ont été suivies jusqu’à cicatrisation complète.Les animaux traités par iontophorèse de treprostinil présentent une cicatrisation accélérée. Ces résultats ont été observés pour les deux modèles de SSc. L’effet le plus important a été mesuré au cours de la phase précoce de la cicatrisation.Cette étude est la première a démontré que la iontophorèse de treprostinil s’avère être une piste prometteuse dans la prise en charge thérapeutique des UD chez les patients atteints de SSc. D’autres études précliniques devront être menées pour mieux comprendre les mécanismes et une étude clinique devra confirmer ce résultat sur des patients. / Systemic Sclerosis (SSc) is a serious disease affecting the skin microcirculation and characterized by fibrosis. Digital ulcers (DU) are the principal manifestation of this microvascular dysfunction in the extremities. DUs are frequent, painful, can cause functional impairment and have a major negative impact on the quality of life. Wound healing of DU is delayed and this can result in gangrene and amputation. To date, intravenous prostacyclin analogues (iloprost) are the only approved treatment for active SSc-related DU but their use is limited by serious vasodilation-induced side effects and usually requires hospitalization. Treprostinil is a prostacyclin receptor agonist that induces vascular relaxation and is used to treat advanced digital ischemia. Treprostinil is a very interesting candidate to enhance wound healing of ulcers in fibrotic skin. Scleroderma is a complex pathology and there is none existing animal model that can encompass all aspects of the disease related to fibrosis and vasculopathy. Among existing models, we selected two murin models (HOCL and uPAR-/-) that were recently described as promising tool to study SSc-related vasculopathy and fibrosis such as digital ulcers.The main objective of this study was to evaluate the therapeutic effect of topical administration of treprostinil on wound healing in two different preclinical models of SSc. Briefly, cutaneous excisional wounds were induced on mice. Animals were randomized into 3 sub-groups according the treatment to be administered: “sham”, “control” and “treprostinil” and wound process was followed until full recovery.Treprostinil iontophoretically-administered induced a significant acceleration in wound healing process in both models of SSc. The most significant effect was observed during the early phase of the healing process.This study demonstrated that iontophoresis of treprostinil could be proposed as a local therapeutic strategy to SSc patients with digital ulcers. Further pre-clinical studies should be realized to explore the underlying pharmacological and electrical mechanisms involved and clinical study should be started soon to assess the potential effect on SSc-related ulcers. Sclérodermie systémique Microcirculation Vasodilatateurs Iontophorèse Ulcération Systemic sclerosis Microcirculation Vasodilator agents Iontophoresis Ulceration 610
56	Conception d'un patch transdermique intelligent pour le monitoring et l'aide à la prise de médicament / Design of transdermal patch for monitoring and drug delivery Talbi, Yassine 11 June 2018 (has links) La surveillance personnalisée est une ambition émergente pour les technologies de la santé qui répond aux besoins des patients et des professionnels de santé. L'objectif de ce travail est d'aller jusqu’aux soins, en utilisant un actionneur télécommandé pour mettre en œuvre automatiquement une prescription médicamenteuse. Un système transdermique intelligent est conçu, sous la forme d’un patch, pour administrer de manière contrôlée des médicaments. Des expérimentations sont réalisées pour démontrer l’intérêt des techniques d’aide à la diffusion en termes de contrôle et d’amélioration de la quantité délivrée. Le contrôle de la dose administrée est corrélé à l’actionneur intégré via une loi de commande. Une modélisation et une simulation numérique de la diffusion transdermique est mise en place en liaison avec les résultats obtenus lors d’expérimentations sur une cellule de Franz, ce modèle est appliqué sur une structure planaire "patch classique". Différents scénarios de stimulations électriques et de facteurs de formes ont été conduits pour obtenir un profil d’administration optimal. La conception du système électronique est présentée d’adapter la dose administrée selon les besoins du patient est présentée. Un premier prototype est réalisé, intégrant des fonctions d’actionnement, et de récupération de données issues de capteurs intégrés. / Personalized monitoring is an emerging ambition for health technologies responding the needs of patients and healthcare professionals. In this regard, the purpose of this work is to propose a e-health care device offering active control and permanent actuating link able to control the amount of drug delivered. A first part presents our motivations related to the problems of the aging of the population, recalls the current approaches for the monitoring of the elderly and describes the need in the systems of actuations in particular for the aid to the taking of drugs. From these needs, a state of the art is proposed on the techniques for controlling the delivery of drugs. Experiments are carried out to demonstrate the efficiency of diffusion techniques controlling and improving the quantity delivered. The control of the administered dose is correlated to the integrated actuator via a control command. We present a modeling and a numerical simulation of the transdermal diffusion related to the results obtained during experiments on a Franz cell, and the transposition of the model on a planar structure. Different scenarios of electrical stimulations and shape factors have been conducted to obtain optimal administration profile. Finally, the last part is devoted to technological locks and to the design of the intelligent system which adapt the dose administered according to the needs of the patient. A prototype is made, integrating actuation functions, and data recovery from integrated sensors. HHM Délivrance de médicament Télésanté Ionophorèse Patch transdermique HHM Drug delivery Iontophoresis Transdermal patch Monitoring system 621.381.5
57	Estratégias para modular a permeação cutânea de acetato de dexametasona : avaliação in vitro da permeação e in vivo da atividade anti-nociceptiva / Oyafuso, Márcia Helena. January 2016 (has links) Orientador: Marlus Chorilli / Coorientador: Maria Palmira Daflon Gremião / Banca: Leila Aparecida Chiavacci / Banca: Maria José Vieira Fonseca / Banca: Flávia Chiva Carvalho / Banca: Eneida de Paula / Resumo: A administração de compostos na pele é dificultada principalmente pelo estrato córneo; dessa forma diversas técnicas químicas e físicas podem ser exploradas e combinadas de modo a vencer esta barreira. O acetato de dexametasona (DXM) é um potente antiinflamatório utilizado principalmente no tratamento de doenças inflamatórias e autoimunes que, embora muito utilizado, pode promover uma serie de efeitos colaterais sistêmicos. Dessa forma, sua aplicação tópica pode ser conveniente, de forma a localizá-lo no seu sítio de ação. O objetivo deste trabalho foi o desenvolvimento de sistemas líquido-cristalinos (SLC) estabilizados com polioxietileno 20 cetil éter como tensoativo utilizando diferentes fases oleosas: ácido oleico (AO), miristato de isoproprila (MI) e N metil pirrolidona (NMP), e posterior realização de ensaios de permeação cutânea in vitro e atividade anti-noceptiva in vivo. As amostras foram caracterizadas por microscopia de luz polarizada e espalhamento de raios-X a baixo ângulo, as quais resultaram em sistemas líquido-cristalinos de mesofases lamelares e hexagonais; estes sistemas apresentaram (G)'>(G") nos estudos reológicos, indicando um comportamento predominantemente elástico. O ensaio de perfil de textura revelou que as amostras hexagonais constituídas por NMP e MI foram as que apresentaram maior adesividade e que as amostras lamelares foram mais bioadesivas. Os ensaios de liberação demonstraram que os sistemas lamelares liberaram maior porcentage... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Administration of compounds in the skin is mainly hindered by stratum corneum. Thus, various chemical and physical techniques may be exploited and combined in order to overcome this barrier. Acetate dexamethasone (DXM) is a potent a nti-inflamatory and immunosuppressive primarily used in the treatment of inflammatory, autoimmune and allergic that although widely used, can promote a series of systemic side effects. Thus, topical application may be appropriate in order to find it on their site of action. The objective of this work was to develop liquid crystal systems (LCS) stabilized with polyoxyethylene 20 cetyl ether as surfactant using different oil phases: oleic acid (OA), isopropyl myristate (IM), N methyl pyrrolidone (NMP), and subsequent testing of skin permeation in vitro and in vivo anti-noceptiva activity.The samples were characterized by polarized light microscopy and SAXS, which showed the presence of liquid crystal systems of lamellar mesophases and hexagonal. These systems showed (G)' > (G") in rheology studies, indicating a predominantly elastic behavior. The texture profile test revealed that the hexagonal samples containing in its composition NMP and IM showed the highest adhesiveness and that the lamellar samples were more bioadhesive. Release tests showed that the lamellar systems release a higher percentage of drug when compared to the hexagonal systems.In cutaneous permeation tests, the results showed that the drug does not permeate, but rea... (Complete abstract click electronic access below) / Doutor Nanotecnologia. Medicação transcutânea. Cristais líquidos. Pontualidade. Iontoforese. Inflamação. Pele - Permeabilidade. Iontophoresis
58	Sistemas de liberação ocular contendo fluconazol: obtenção, caracterização e liberação passiva e iontoforética in vitro e in vivo / Ocular delivery systems for fluconazole: obtention, characterization and in vitro/in vivo passive and iontophoretic delivery. Taís Gratieri 10 June 2010 (has links) A ceratite fúngica é uma doença grave que pode levar à perda da visão. O tratamento consiste na aplicação de antifúngicos, no entanto a administração tópica não tem se mostrado efetiva devido aos mecanismos de defesa do olho que levam à baixa retenção da formulação no local de aplicação e à baixa permeação do fármaco através da córnea. Sendo assim, formulações mais adequadas e sistemas de liberação vêm sendo estudados na tentativa de melhorar a biodisponibilidade local de antifúngicos. No presente trabalho foram obtidos e caracterizados dois sistemas para a liberação ocular do fluconazol (FLU), um antifúngico de atividade reconhecida: um gel termorreversível in situ e micropartículas poliméricas. A permeação passiva e iontoforética do fármaco através da córnea foi estudada in vitro a partir dos sistemas desenvolvidos. O gel termorreversível in situ contendo 16% de poloxamer e 1,0% de quitosana apresentou temperatura de geleificação adequada, propriedades mucoadesivas, melhores parâmetros mecânicos (dureza, compressibilidade e adesividade) que ambos os polímeros separadamente e mostrou-se superior que micropartículas poliméricas, com fluxo de permeação passiva cerca de duas vezes maior. A maior quantidade de fármaco retido na córnea foi obtida após aplicação da iontoforese em solução aquosa do fármaco. Ainda assim, o fluxo iontoforético do FLU não foi significativamente diferente do fluxo passivo a partir do gel termorreversível. O desempenho in vivo desta formulação foi então avaliado em modelo animal. Estudos de permeação, utilizando a técnica de microdiálise para amostragem da câmara anterior, confirmaram a maior biodisponibilidade do fármaco. Por fim, exames de cintilografia em humanos confirmaram maior tempo de retenção na superfície ocular. Portanto, o gel termorreversível in situ obtido e caracterizado no presente trabalho e a iontoforese, representam sistemas promissores para a liberação ocular tópica do FLU. O primeiro possui características promotoras de permeação, prolongado tempo de retenção e facilidade de obtenção e administração, e o segundo é capaz de promover maior retenção do fármaco na córnea. / Fungal keratitis is a serious disease that can lead to loss of sight. The treatment consists in antifungal application; however topical administration has not shown to be effective due to defense mechanisms of the eye, which leads to low retention at the application site and low permeation of the drug trough the cornea. In this way, more suitable formulations and delivery systems have been studied in an attempt to increase local availability of antifungal agents. At the present work it was obtained and characterized two systems for the passive and iontophoretic ocular delivery of fluconazole (FLU), a well known antifungal agent: an in situ forming gel and polymeric microparticles. Passive and iontophoretic drug permeation across the cornea was studied in vitro from the developed systems. The in situ forming gel containing 16% of poloxamer and 1.0% of chitosan presented more adequate gelation temperature, mucoadhesive properties, improved mechanical parameters (strength, compressibility and adhesiveness) than both polymers separately and showed to be superior to the polymeric microparticles, with passive permeation flux almost twice higher. The greatest amount of drug retained in the cornea was achieved after iontophoresis application using an aqueous solution of the drug. Even though, the iontophoretic drug flux was not significantly different from the passive drug flux using the in situ forming gel. The in vivo performance of this formulation was then evaluated in an animal model. Permeation studies, using the microdialysis technique for the anterior chamber sampling, confirmed the increased drug availability. At the end, scintigraphy exams in humans confirmed the greater retention time at the ocular surface. Therefore, the in situ forming gel obtained and characterized at the present work and iontophoresis, represent promising systems for the topical ocular delivery of FLU. The first possess permeation enhancement properties, prolonged retention time and facility of obtention and administration, and the second is capable of promoting higher drug retention in the cornea. Fluconazol Gel termorreversível Iontoforese Micropartículas Penetração ocular Fluconazole In situ forming gel Iontophoresis Microparticles Ocular penetration
59	Influência da iontoforese na penetração de nanopartículas lipídicas sólidas em tumores cutâneos / Influence of iontophoresis on the penetration of solid lipid nanoparticles in skin tumors Lucas de Andrade Huber 25 March 2013 (has links) O tratamento tópico do câncer de pele é uma estratégia promissora para aumentar a biodisponibilidade local de antineoplásicos e diminuir efeitos sistêmicos adversos. No entanto, altas concentrações do fármaco nos tumores, que acometem as camadas mais profundas da pele, são requeridas para que o tratamento seja adequado. Para promover a penetração cutânea dos antineoplásicos e atingir o tumor, sistemas de liberação nanoparticulados associados a métodos físicos, como a iontoforese, vêm sendo estudados. Nanopartículas lipídicas sólidas (NLS) são sistemas carreadores explorados para a administração tópica, principalmente, de produtos cosméticos. Pouco se sabe, no entanto, sobre sua influência na penetração cutânea de fármacos e sobre os mecanismos pelos quais as NLS agem para aumentar esta penetração. A iontoforese é um método físico que aumenta a permeação cutânea de fármacos através da aplicação de uma corrente elétrica de baixa densidade. Sua influência na penetração tumoral de fármacos carreados por NLS ainda não foi explorada. Sendo assim, o objetivo deste trabalho foi avaliar a influência da iontoforese na penetração tumoral do antineoplásico modelo doxorrubicina (DOX) a partir de NLS catiônicas. Para tanto, NLS contendo DOX foram preparadas e caracterizadas quanto a distribuição de tamanho, potencial zeta e pH. NLS idênticas, mas marcadas com um fluoróforo lipofílico, o BODIPY FSE-8 (BOD), sintetizado especificamente para este fim, também foram obtidas e caracterizadas. Estas nanopartículas fluorescentes contendo DOX e BOD foram utilizadas para estudar, por microscopia confocal de varredura a laser, in vitro e in vivo, as vias de penetração dos compostos lipofílicos presentes nas NLS e da própria DOX. A penetração da DOX nas diferentes camadas da pele foi avaliada in vitro usando-se células de difusão vertical e pele de suíno. In vivo, a penetração do fármaco foi avaliada também no tumor e no plasma, após 1 h de aplicação passiva e iontoforética das NLS em tumores de células escamosas induzidos em camundongos imunossuprimidos. Nos estudos de microscopia observou-se que a aplicação das NLS levou a uma distribuição mais homogênea da fluorescência no estrato córneo (EC) do que a aplicação de soluções dos fluoróforos livres. A iontoforese aumentou a fluorescência de todas as amostras testadas, levando inclusive a presença de agregados fluorescentes abaixo dos folículos pilosos e a formação de regiões de transporte localizadas mais permeáveis no EC. Nos estudos quantitativos in vitro a iontoforese anódica (a partir do eletrodo positivo) das NLS-DOX levou a concentrações cerca de 39 vezes maiores de DOX na epiderme viável do que todas as outras formulações, indicando um efeito positivo da eletromigração na penetração das NLS catiônicas. Nos estudos in vivo, o aumento da quantidade de DOX acumulada na pele após a iontoforese anódica das NLS-DOX foi bem acentuado frente às outras formulações. Já a presença de fármaco no tumor, apesar de apresentar uma tendência maior de acúmulo quando a iontoforese foi aplicada, não foi estatisticamente diferente das demais formulações. No entanto, a tendência das NLS de ficarem acumuladas na pele, diminuindo a presença da DOX na circulação, foi bastante característica. Pode-se concluir, portanto, que a aplicação de NLS associadas a iontoforese apresenta alto potencial de sucesso para o tratamento tópico, localizado, de tumores cutâneos. / Topical treatment of skin cancer is a promising strategy to increase local bioavailability of antineoplastic drugs and to reduce systemic adverse effects. However, elevated concentrations of the drug in tumors presented in deep skin layers are required for the adequate treatment. To increase drug skin penetration, nanoparticles associated with physical methods, such as iontophoresis, have been studied. Solid lipid nanoparticles (SLN) are drug carrier systems developed for topical administration, especially of cosmetic products. However, almost nothing is known about their influence on the skin penetration of drugs or on the mechanisms by which they enhance drug penetration through the skin. Iontophoresis is a physical method which increases the skin permeation of drugs through the application of a low density electrical current. Its influence on tumor penetration of drugs carried by SLN has not been explored yet. Therefore, the aim of this study was to evaluate the influence of iontophoresis on the penetration of the antineoplastic model drug doxorubicin (DOX) carried by cationic SLN. To this end, SLN containing DOX were prepared and characterized according to their medium size, zeta potential and pH. Besides that, identical SLN containing a lipophilic fluorophore BODIPY FSE-8 (BOD), synthesized specifically for this study, has also been obtained and characterized. These fluorescent nanoparticles containing DOX and BOD were used to study the in vitro and in vivo penetration routes of both DOX and lipophilic compounds present in the SLN, by confocal laser scanning microscopy analysis. The penetration of DOX in the different skin layers was evaluated in vitro using vertical diffusion cells and pig skin. In vivo, the drug penetration was also measured in the tumor and plasma after 1 hour of iontophoretic and passive application of SLN on squamous cells tumors, previously induced in immunosuppressed mice. The microscopy studies showed that the application of SLN resulted in a more homogeneous distribution of fluorescence in the stratum corneum (SC) compared to the application of solutions containing free fluorophores at the same conditions. Iontophoresis increased fluorescence for all samples tested, leading yet to the presence of fluorescent aggregates below the hair follicles and the formation of localized transport regions at the SC. The in vitro quantitative studies showed that anodic iontophoresis (from the positive electrode) of SLNDOX led to about 39 times higher concentrations of DOX in viable epidermis than all the others formulations, indicating a positive effect of electromigration on the penetration of cationic SLN. In the in vivo studies, the amount of DOX accumulated in the skin after anodic iontophoresis of SLN-DOX was also well pronounced. The tendency of SLN accumulation in the skin, reducing the presence of DOX in the blood circulation, was very characteristic. Therefore, it can be concluded that the application of SLN associated with iontophoresis has a great potential for success in the topical treatment of localized skin tumors. Câncer de pele. Doxorrubicina Iontoforese Nanopartículas Lipídicas Sólidas Doxorubicin Iontophoresis Skin Cancer Solid Lipid Nanoparticles
60	Desenvolvimento de sistemas de liberação para a administração tópica passiva e iontoforética do minoxidil no tratamento da alopecia androgênica / Development of delivery systems for the topical passive and iontophoretic administration of minoxidil for the androgenic alopecia treatment Guilherme Martins Gelfuso 16 December 2009 (has links) Diante da hipótese de que micropartículas poliméricas podem atravessar a barreira epidérmica através da rota transfolicular, e baseado na evidência de que a iontoforese é um método que consegue direcionar a liberação de fármacos para os folículos pilosos, este trabalho teve como objetivo estudar in vitro a permeação cutânea do minoxidil sulfato (MXS), fármaco utilizado no tratamento da alopecia androgênica, tanto em sua forma microencapsulada como não encapsulada utilizando ou não a iontoforese, na tentativa de aumentar, controlar e direcionar a sua liberação tópica para o folículo piloso. O MXS foi primeiramente incorporado em um gel hidrofílico contendo 2,0% (m/m) do ativo e sua permeação e retenção cutânea in vitro verificada com e sem a presença de corrente elétrica durante 6 h, utilizando células de difusão e pele de orelha de porco. A quantidade de MXS retida no EC da pele foi determinada e diferenciada daquela retida nos folículos pilosos utilizando-se a técnica denominada tape stripping diferencial. Foi observado que o fluxo passivo de fármaco através da pele aumentou 150 vezes com aplicação de iontoforese anódica e que o aumento do pH da formulação de 3,5 para 5,5 restringiu 3 vezes essa permeação iontoforética e aumentou a retenção do MXS no EC e folículos pilosos. Estes resultados mostram que a iontoforese do MXS nestas condições é capaz de promover a liberação folicular do fármaco de maneira bastante significativa. Uma série de micropartículas de quitosana contendo MXS foi obtida por spray drying modificando quantidades e proporções de polímero e fármaco. O sistema selecionado para estudo foi obtido a partir de 1,50 g de polímero e 0,75 g de MXS, e apresentou alta eficiência de encapsulação (~82%), diâmetro médio igual a 3,05 µm, morfologia esférica e sem porosidades, e potencial zeta igual a + 5,87 mV. Quando incorporadas a uma formulação hidroalcoólica, essas micropartículas sofreram intumescimento, aumentando 1,5 vezes o seu diâmetro médio, mas não tiveram sua morfologia esférica alterada. Experimentos de liberação in vitro mostraram que as micropartículas obtidas foram capazes de sustentar 3,5 vezes a liberação do MXS. As micropartículas ainda restringiram a permeação passiva do fármaco, reduzindo 2 vezes seu fluxo de permeação e aumentando em 5 vezes a retenção de fármaco na região folicular, apesar das partículas em si não penetrarem a pele após administração passiva. Assim, este sistema foi capaz de promover uma liberação mais sustentada do fármaco, o que deve reduzir o número de aplicações do produto pelo paciente ao longo do dia, e garantiu a entrada de grandes quantidades do fármaco nos folículos pilosos, seu alvo de ação. A iontoforese dessas micropartículas, apesar de também não fazê-las penetrar a pele, conseguiu direcioná-las mais rapidamente para as aberturas foliculares, como mostrou os estudos de microscopia confocal de varredura a laser das micropartículas marcadas. Adicionalmente, a iontoforese aumentou 6 vezes a quantidade de MXS retida nos folículos já nas primeiras 3 h de aplicação, garantindo assim que grandes quantidades do fármaco atingissem seu local de ação mais rapidamente que quando as partículas foram aplicadas passivamente sobre a pele. / Given the hypothesis that polymeric microparticles can penetrate the skin barrier along the transfollicular route, and based on the evidence that iontophoresis is a method that can direct the delivery of drugs to the hair follicles, this work aimed to study the in vitro skin permeation of minoxidil sulfate (MXS), a drug used to treat androgenic alopecia, both in its micro-encapsulated and non-encapsulated form, using or not iontophoresis, in an attempt to increase, control and direct its topical delivery to the hair follicle. The MXS was first incorporated in a hydrophilic gel containing 2.0% (w/w) MXS and its skin permeation and retention was in vitro observed with and without the presence of electric current for 6 h, using diffusion cells and skin of porcine\'s ears. The amount of MXS retained in EC was determined and differentiated from that retained in the hair follicles using the technique called differential tape stripping. It was observed that the passive flux of drug through the skin was increased 150-fold with the application of anodal iontophoresis and, by increasing the pH of the formulation from 3.5 to 5.5, iontophoretic permeation of MXS was 3-fold restricted, whereas it increased its retention in stratum corneum and hair follicles. These results show that iontophoresis of MXS in these conditions can promote the follicular delivery of the drug quite significantly. A series of chitosan microparticles containing MXS was obtained by spray drying, modifying quantities and proportions of polymer and drug. The system selected for study was obtained from 1.50 g of polymer and 0.75 g of MXS, and showed high encapsulation efficiency (~ 82%), mean diameter of 3.05 µm, spherical morphology without porosities, and zeta potential equal to + 5.87 mV. When incorporated into a hydro ethanolic formulation, these microparticles suffered swelling, increasing 1.5 times its diameter, but their spherical morphology was not modified. Permeation experiments showed in vitro that the microparticles obtained were able to sustain 3.5 times the release of MXS. The microparticles also restricted the passive permeation of the drug, reducing 2-fold its permeation flux and increasing by 5-fold the retention of drug in the follicular region, although the microparticles themselves did not penetrate the skin after passive administration. Thus, this system was able to promote a more sustained release of the drug, which must reduce the number of product applications by the patient throughout the day, and ensured the entry of large amounts of drug in hair follicles, their target. Iontophoresis of microparticles, although not making them penetrate the skin either, was able to direct them quickly to the follicular openings, as shown by laser confocal scanning microscopy studies of the labeled microparticles. In addition, iontophoresis increased 6-fold the amount of MXS retained in the follicles within the first 3 h of application, thereby ensuring that large quantities of the drug achieved its site of action more quickly than when the particles were applied passively to the skin. Alopecia Androgênica Iontoforese Micropartículas Minoxidi Penetração folicular Androgenic Alopecia Follicular Penetration Iontophoresis Microparticles Minoxidil

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