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Microneedle assisted percutaneous delivery of lidocaine carboxymethylcellulose with gelatine co-polymer hydrogelNayak, Atul January 2016 (has links)
Local anaesthetic drugs are usually administered as symptom relieving drug formulations for the treatment of pain in superficial skin extremities. The anaesthesia is delivered into skin tissues at the site of pain because of nociceptive receptors. Concerns that exist regarding local anaesthetic drug formulations are low drug encapsulation efficiency, polydispersity of colloidal formulations, chemical interactions of released local anaesthetic drug with skin proteins and bulk viscoelastic properties. Complimenting drug formulation characteristics are the desirable rates of controlled release of drug molecules from chosen formulations pertaining to favourable in vitro skin permeation kinetics are imperative pharmaceutics based research areas because skin percutaneous delivery has distinct barrier property restrictions for passive diffusion (PD) of active molecules. Lidocaine is currently the active anaesthetic molecule of choice in local anaesthesia by clinicians because of minimum toxicity and good potency. It is a low molecular weight drug comprising of electron donating and electron withdrawing functional groups with the capacity to interact by hydrogen bonding and electrostatic interactions with several drug formulation vehicles. In this work, a naturally occurring bi-polymeric formulation was achieved with lidocaine NaCMC:gelatine hydrogel. Lidocaine NaCMC:gelatine ratio of 1:2.3 was the most favourable formulation because of faster skin permeation kinetics. Lidocaine NaCMC:gelatine 1:2.7 provided the highest drug encapsulation efficiency. This resulted in high, sustained permeation rates after adaptation of the microneedle (MN) poke and patch technique, past the stratum corneum layer of skin for quick target delivery in attaining a maximum permeation flux of near 6.0 μg/cm2/h in the hypodermis layer. Mass balance of in vitro studies using an indirect approach to quantify lidocaine permeation showed significant lidocaine permeation in skin. Subsequent vertical and horizontal (depth averaged) in vitro studies using similar MN techniques resulted in crossing minimum therapeutic level across a 10 mm radius from the epicentre of the skin sample at major reduced lag times of minutes for vertical permeation and within 0.5 hours for horizontal permeation. Furthermore, the spreadability of lidocaine NaCMC:gelatine hydrogel shows favourability in the control of droplet spreading on MN treated skin.
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Development of a Multilayered Association Polymer System for Sequential Drug DeliveryChinnakavanam Sundararaj, Sharath Kumar 01 January 2013 (has links)
As all the physiological processes in our body are controlled by multiple biomolecules, comprehensive treatment of certain disease conditions may be more effectively achieved by administration of more than one type of drug. Thus, the primary objective of this research was to develop a multilayered, polymer-based system for sequential delivery of multiple drugs. This particular device was designed aimed at the treatment of periodontitis, a highly prevalent oral inflammatory disease that affects 90% of the world population. This condition is caused by bacterial biofilm on the teeth, resulting in a chronic inflammatory response that leads to loss of alveolar bone and, ultimately, the tooth. Current treatment methods for periodontitis address specific parts of the disease, with no individual treatment serving as a complete therapy.
The polymers used for the fabrication of this multilayered device consists of cellulose acetate phthalate (CAP) complexed with Pluronic F-127 (P). After evaluating morphology of the resulting CAPP system, in vitro release of small molecule drugs and a model protein was studied from both single and multilayered devices. Drug release from single-layered CAPP films followed zero-order kinetics related to surface erosion property of the association polymer. Release studies from multilayered CAPP devices showed the possibility of achieving intermittent release of one type of drug as well as sequential release of more than one type of drug. Mathematical modeling accurately predicted the release profiles for both single layer and multilayered devices. After the initial characterization of the CAPP system, the device was specifically modified to achieve sequential release of drugs aimed at the treatment of periodontitis. The four types of drugs used were metronidazole, ketoprofen, doxycycline, and simvastatin to eliminate infection, inhibit inflammation, prevent tissue destruction, and aid bone regeneration, respectively. To obtain different erosion times and achieve appropriate release profiles specific to the disease condition, the device was modified by increasing the number of layers or by inclusion of a slower eroding polymer layer. In all the cases, the device was able to release the four different drugs in the designed temporal sequence. Analysis of antibiotic and anti-inflammatory bioactivity showed that drugs released from the devices retained 100% bioactivity.
Following extensive studies on the in vitro sequential drug release from these devices, the in vivo drug release profiles were investigated. The CAPP devices with different release rates and dosage formulations were implanted in a rat calvarial onlay model, and the in vivo drug release and erosion was compared with in vitro results. In vivo studies showed sequential release of drugs comparable to those measured in vitro, with some difference in drug release rates observed. The present CAPP association polymer-based multilayer devices can be used for localized, sequential delivery of multiple drugs for the possible treatment of complex disease conditions, and perhaps for tissue engineering applications, that require delivery of more than one type of biomolecule.
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Studium struktury a segmentové dynamiky farmaceutických materiálů na bázi tuhých disperzí léčiv v polymerních matricích pomocí NMR spektroskopie pevného stavu. / Solid-state NMR study of structure and segmental dynamics of pharmaceutical materials based on the solid dispersions of drugs in polymer matrices.Policianová, Olívia January 2014 (has links)
Highly-exact structural characterization is the crucial step in the development and manufacturing process of pharmaceutical materials. Their structural composition is, however, often very complex and hardly identifiable. The eligible way for obtaining definite structural interpretation of these systems appears the high-resolution solid-state nuclear magnetic resonance (ssNMR) spectroscopy. For this purpose the reliable tool - the ssNMR toolbox for comprehensive characterization of various pharmaceutical solids is described. The rigorous optimization of ssNMR techniques is carried out on enormous number of measured samples containing active pharmaceutical ingredients (APIs) with systems ranging from APIs formulated in solid dispersions to pure forms revealing extensive molecular disorder. In this study the influence of polymeric matrix on the creation of solid dispersion type susceptible for finely tuned controlled drug release is likewise discussed. The distinction between variable structural alignments of API molecules in 3D dimension of complicated pharmaceutical solids is allowed via simple strategy - factor analysis applied to hardly describable ssNMR spectra (13 C CP/MAS NMR and 19 F MAS NMR). The results of this ssNMR investigation contribute to better understanding of solid dispersion...
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Nanocápsulas de núcleo lipídico : estudos de penetração cutânea e proposição de estratégias para a avaliação da liberação in vitro / Lipid-core nanocapsules: cutaneous penetration studies and proposition of strategies to assess the in vitro drug releaseAndrade, Diego Fontana de January 2013 (has links)
Neste trabalho foi avaliada a permeação/penetração cutânea in vitro (pele suína) de propionato de clobetasol nanoencapsulado incorporado em um semissólido, empregando células de difusão de Franz. A nanoencapsulação foi capaz de reduzir a quantidade de fármaco que penetra nas camadas da pele (estrato córneo, epiderme e derme) sem alterar a forma (distribuição percentual) como o propionato de clobetasol se distribui. A adequabilidade de diferentes membranas sintéticas (acetato de celulose, policarbonato e membrana de diálise) para a avaliação da liberação in vitro, empregando células de difusão de Franz, a partir desta formulação foi também estudada. A partir da combinação de diferentes técnicas analíticas (espalhamento de luz dinâmica, microscopias eletrônicas de transmissão e varredura) foi observado que a membrana de menor tamanho de poro (membrana de diálise, 12 kDa de cut off) é a mais adequada para a condução deste tipo de avaliação, pois é a única capaz de evitar a passagem de nanocápsulas íntegras da formulação para o meio receptor das células de difusão, em detrimento das membranas de policarbonato e acetato de celulose (0,05 μm e 0,45 μm de tamanho de poro, respectivamente). Além disso, uma nova estratégia para a avaliação da liberação in vitro de fármacos associados a nanocápsulas de núcleo lipídico, combinando fluxo contínuo de meio de liberação e sacos de diálise foi proposta neste trabalho. A técnica mostrou-se adequada para a obtenção do perfil de liberação in vitro a partir de suspensões de nanocápsulas contendo diferentes fármacos modelo (prednisolona e propionato de clobetasol), possibilitando a diferenciação destes sistemas de soluções contendo os fármacos livres, graficamente e pelos valores de fluxo calculados. Adicionalmente, esta estratégia mostrou-se apropriada para a manutenção da concentração de fármaco no meio de liberação afastada da saturação, contribuindo para o atendimento da condição sink. Ainda, classificamos o sistema como um protótipo semi-automatizado para a avaliação da liberação in vitro de fármacos, capaz de gerar resultados com maior precisão em relação à diálise convencional. / The in vitro cutaneous permeation/penetration (porcine skin) of clobetasol propionate-loaded lipid-core nanocapsules incorporated into a semisolid dosage form was evaluated, using the Franz diffusion cells technique. It was shown that the nanoencapsulation was able to reduce the drug amount penetration into skin layers (stratum corneum, epidermis and dermis) without changing the way (percentual distribution) that it was distributed. The suitability of different synthetic membranes (cellulose acetate, polycarbonate, and dialysis membrane) to assess the in vitro drug release using Franz diffusion cells from this formulation was also studied. It was ascertained by combining different analytical techniques (dynamic light scattering, scanning and transmition electron microscopy) that the membrane with smaller pore size (dialysis membrane, 12 kDa cut off) is the most appropriate for conducting this kind of study, because it is the only one able of preventing the passage of intact nanocapsules from formulation to Franz diffusion cells receptor media, instead of polycarbonate and cellulose acetate membranes (0.05 and 0.45 pore size, respectively). In addition, a new strategy to assess in vitro drug release drug-loaded lipid-core nanocapsules was proposed, associating continuous flow of release media and dialysis sac. The proposed system was adequate to assess the in vitro drug release profiles from nanocapsule suspensions containing different model drugs (prednisolone and clobetasol propionate), enabling the differentiation of these systems from drug solutions, graphically and by the calculated flux values. Furthermore, this strategy was suitable to maintain the drug concentration into release media far away from saturation, contributing to the sink condition. Also, the proposed system was described as a semi-automated prototype for in vitro drug release evaluation, able to produce results with greater accuracy than conventional dialysis technique.
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Nanocápsulas de núcleo lipídico : estudos de penetração cutânea e proposição de estratégias para a avaliação da liberação in vitro / Lipid-core nanocapsules: cutaneous penetration studies and proposition of strategies to assess the in vitro drug releaseAndrade, Diego Fontana de January 2013 (has links)
Neste trabalho foi avaliada a permeação/penetração cutânea in vitro (pele suína) de propionato de clobetasol nanoencapsulado incorporado em um semissólido, empregando células de difusão de Franz. A nanoencapsulação foi capaz de reduzir a quantidade de fármaco que penetra nas camadas da pele (estrato córneo, epiderme e derme) sem alterar a forma (distribuição percentual) como o propionato de clobetasol se distribui. A adequabilidade de diferentes membranas sintéticas (acetato de celulose, policarbonato e membrana de diálise) para a avaliação da liberação in vitro, empregando células de difusão de Franz, a partir desta formulação foi também estudada. A partir da combinação de diferentes técnicas analíticas (espalhamento de luz dinâmica, microscopias eletrônicas de transmissão e varredura) foi observado que a membrana de menor tamanho de poro (membrana de diálise, 12 kDa de cut off) é a mais adequada para a condução deste tipo de avaliação, pois é a única capaz de evitar a passagem de nanocápsulas íntegras da formulação para o meio receptor das células de difusão, em detrimento das membranas de policarbonato e acetato de celulose (0,05 μm e 0,45 μm de tamanho de poro, respectivamente). Além disso, uma nova estratégia para a avaliação da liberação in vitro de fármacos associados a nanocápsulas de núcleo lipídico, combinando fluxo contínuo de meio de liberação e sacos de diálise foi proposta neste trabalho. A técnica mostrou-se adequada para a obtenção do perfil de liberação in vitro a partir de suspensões de nanocápsulas contendo diferentes fármacos modelo (prednisolona e propionato de clobetasol), possibilitando a diferenciação destes sistemas de soluções contendo os fármacos livres, graficamente e pelos valores de fluxo calculados. Adicionalmente, esta estratégia mostrou-se apropriada para a manutenção da concentração de fármaco no meio de liberação afastada da saturação, contribuindo para o atendimento da condição sink. Ainda, classificamos o sistema como um protótipo semi-automatizado para a avaliação da liberação in vitro de fármacos, capaz de gerar resultados com maior precisão em relação à diálise convencional. / The in vitro cutaneous permeation/penetration (porcine skin) of clobetasol propionate-loaded lipid-core nanocapsules incorporated into a semisolid dosage form was evaluated, using the Franz diffusion cells technique. It was shown that the nanoencapsulation was able to reduce the drug amount penetration into skin layers (stratum corneum, epidermis and dermis) without changing the way (percentual distribution) that it was distributed. The suitability of different synthetic membranes (cellulose acetate, polycarbonate, and dialysis membrane) to assess the in vitro drug release using Franz diffusion cells from this formulation was also studied. It was ascertained by combining different analytical techniques (dynamic light scattering, scanning and transmition electron microscopy) that the membrane with smaller pore size (dialysis membrane, 12 kDa cut off) is the most appropriate for conducting this kind of study, because it is the only one able of preventing the passage of intact nanocapsules from formulation to Franz diffusion cells receptor media, instead of polycarbonate and cellulose acetate membranes (0.05 and 0.45 pore size, respectively). In addition, a new strategy to assess in vitro drug release drug-loaded lipid-core nanocapsules was proposed, associating continuous flow of release media and dialysis sac. The proposed system was adequate to assess the in vitro drug release profiles from nanocapsule suspensions containing different model drugs (prednisolone and clobetasol propionate), enabling the differentiation of these systems from drug solutions, graphically and by the calculated flux values. Furthermore, this strategy was suitable to maintain the drug concentration into release media far away from saturation, contributing to the sink condition. Also, the proposed system was described as a semi-automated prototype for in vitro drug release evaluation, able to produce results with greater accuracy than conventional dialysis technique.
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Nanocápsulas de núcleo lipídico : estudos de penetração cutânea e proposição de estratégias para a avaliação da liberação in vitro / Lipid-core nanocapsules: cutaneous penetration studies and proposition of strategies to assess the in vitro drug releaseAndrade, Diego Fontana de January 2013 (has links)
Neste trabalho foi avaliada a permeação/penetração cutânea in vitro (pele suína) de propionato de clobetasol nanoencapsulado incorporado em um semissólido, empregando células de difusão de Franz. A nanoencapsulação foi capaz de reduzir a quantidade de fármaco que penetra nas camadas da pele (estrato córneo, epiderme e derme) sem alterar a forma (distribuição percentual) como o propionato de clobetasol se distribui. A adequabilidade de diferentes membranas sintéticas (acetato de celulose, policarbonato e membrana de diálise) para a avaliação da liberação in vitro, empregando células de difusão de Franz, a partir desta formulação foi também estudada. A partir da combinação de diferentes técnicas analíticas (espalhamento de luz dinâmica, microscopias eletrônicas de transmissão e varredura) foi observado que a membrana de menor tamanho de poro (membrana de diálise, 12 kDa de cut off) é a mais adequada para a condução deste tipo de avaliação, pois é a única capaz de evitar a passagem de nanocápsulas íntegras da formulação para o meio receptor das células de difusão, em detrimento das membranas de policarbonato e acetato de celulose (0,05 μm e 0,45 μm de tamanho de poro, respectivamente). Além disso, uma nova estratégia para a avaliação da liberação in vitro de fármacos associados a nanocápsulas de núcleo lipídico, combinando fluxo contínuo de meio de liberação e sacos de diálise foi proposta neste trabalho. A técnica mostrou-se adequada para a obtenção do perfil de liberação in vitro a partir de suspensões de nanocápsulas contendo diferentes fármacos modelo (prednisolona e propionato de clobetasol), possibilitando a diferenciação destes sistemas de soluções contendo os fármacos livres, graficamente e pelos valores de fluxo calculados. Adicionalmente, esta estratégia mostrou-se apropriada para a manutenção da concentração de fármaco no meio de liberação afastada da saturação, contribuindo para o atendimento da condição sink. Ainda, classificamos o sistema como um protótipo semi-automatizado para a avaliação da liberação in vitro de fármacos, capaz de gerar resultados com maior precisão em relação à diálise convencional. / The in vitro cutaneous permeation/penetration (porcine skin) of clobetasol propionate-loaded lipid-core nanocapsules incorporated into a semisolid dosage form was evaluated, using the Franz diffusion cells technique. It was shown that the nanoencapsulation was able to reduce the drug amount penetration into skin layers (stratum corneum, epidermis and dermis) without changing the way (percentual distribution) that it was distributed. The suitability of different synthetic membranes (cellulose acetate, polycarbonate, and dialysis membrane) to assess the in vitro drug release using Franz diffusion cells from this formulation was also studied. It was ascertained by combining different analytical techniques (dynamic light scattering, scanning and transmition electron microscopy) that the membrane with smaller pore size (dialysis membrane, 12 kDa cut off) is the most appropriate for conducting this kind of study, because it is the only one able of preventing the passage of intact nanocapsules from formulation to Franz diffusion cells receptor media, instead of polycarbonate and cellulose acetate membranes (0.05 and 0.45 pore size, respectively). In addition, a new strategy to assess in vitro drug release drug-loaded lipid-core nanocapsules was proposed, associating continuous flow of release media and dialysis sac. The proposed system was adequate to assess the in vitro drug release profiles from nanocapsule suspensions containing different model drugs (prednisolone and clobetasol propionate), enabling the differentiation of these systems from drug solutions, graphically and by the calculated flux values. Furthermore, this strategy was suitable to maintain the drug concentration into release media far away from saturation, contributing to the sink condition. Also, the proposed system was described as a semi-automated prototype for in vitro drug release evaluation, able to produce results with greater accuracy than conventional dialysis technique.
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Desenvolvimento e validação de métodos analíticos para o controle de qualidade de formas farmacêuticas contendo chá verde (Camellia sinensis) e estudos de liberação e permeação cutâneaAlves, Michele Campos 12 August 2013 (has links)
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Previous issue date: 2013-08-12 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Atualmente, existe um interesse crescente nas potenciais atividades de
proteção à saúde do chá verde (Camellia sinensis), que é caracterizado pela
presença de grandes quantidades de polifenois, sendo a maioria deles
representados por catequinas. Galato de epigalocatequina (EGCG) é o componente
mais abundante e ativo, sendo geralmente utilizado como biomarcador junto com a
cafeína (CAF) e o ácido gálico (AG). EGCG é pouco absorvido no
tratogastrointestinal e está sujeito ao metabolismo de primeira passagem pelo fígado
quando administrado por via oral, forma mais comumente utilizada para o chá verde.
Um sistema transdérmico poderia então ser um mecanismo de liberação alternativo.
Dessa forma, o presente trabalho teve como objetivo: desenvolver e validar métodos
por cromatografia em fase líquida de alta eficiência (CLAE) para a quantificação
simultânea de EGCG, CAF e AG em cápsulas e emulsões contendo extrato seco de
chá verde e determinar na emulsão a liberação de EGCG in vitro e sua permeação
cutânea em pele humana, utilizando modelo ex vivo. Os métodos utilizaram CLAE
de fase inversa e detecção em arranjo de fotodiodo. A separação foi atingida
utilizando as seguintes condições: coluna octadecilsilano; fase móvel composta por
água, etanol, acetato de etila e ácido acético (84:12:3:1, v/v/v/v); temperatura do
compartimento para a coluna de 35 °C; e um sistema de fluxo por gradiente,
alternando o fluxo entre 0.7 e 1.4 mL.min-1. Os compostos foram separados em 35
min. Os métodos foram simples, seletivos, precisos, exatos e rápidos; e mostraram a
confiabilidade necessária para que fossem utilizados no controle de qualidade das
formulações testadas. O método para a emulsão provou ser adequado para os
ensaios de liberação in vitro e de permeação ex vivo. A taxa de liberação in vitro de
EGCG foi de 8896.01 mg.cm-2, seguindo o modelo de pseudo-primeira ordem,
também conhecido como modelo de Higuchi. O teste de permeação ex vivo mostrou
que EGCG não é capaz de exercer suas atividades biológicas sistemicamente
quando utilizado a partir da emulsão testada, permanecendo apenas no estrato
córneo. / Currently, there is an increased interest in potential health-protective activities
of green tea (Camellia sinensis), which is characterized by the presence of
polyphenols huge amounts, being the majority of them catechins. Epigallocatechin 3-
gallate (EGCG) is the most abundant and active component, been generally used as
biomarker together with caffeine (CAF) and gallic acid (GA). EGCG is poorly
absorbed in the gastrointestinal tract and is subject to first-pass metabolism by the
liver when administered orally, the most widely used forms of green tea. A
transdermal system could then be an alternative delivery mechanism. In this light, the
present work aimed: to develop and validate high performance liquid chromatography
(HPLC) methods for simultaneous quantification of EGCG, CAF and GA in emulsions
and capsules containing dry extract green tea and to determine in emulsion the in
vitro EGCG release and its human skin cutaneous permeation using ex vivo model.
The methods used reversed phase HPLC and photodiode array detection.
Separation was achieved using the follow conditions: octadecylsilyl column; mobile
phase composed by water, ethanol, ethyl acetate and acetic acid (84:12:3:1, v/v/v/v);
column temperature of 35 °C; and flow gradient syst em, alternating flow between 0.7
and 1.4 mL.min-1. The compounds were separated within 35 min. The methods were
simple, selective, precise, accurate and fast; and provide the reliability required for
them to be used for quality control of tested formulations. The emulsion method
proved to be suitable both for in vitro release and ex vivo permeation. EGCG in vitro
release rate was found to be 8896.01 μg.cm–2, following pseudo-first-order model,
also known as Higuchi’s model. Ex vivo permeation testing showed that EGCG is not
able to exert its biological activities systemically when used from tested emulsion,
remaining only in the stratum corneum.
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