Spelling suggestions: "subject:"skin penetration"" "subject:"kin penetration""
1 |
Vehicle effects on percutaneous absorptionLashmar, U. T. January 1985 (has links)
The availability of a drug from a topical preparation is dependent on many factors, one of the most important being the composition of the vehicle. Glycerol, propylene glycol and polyethylene glycol 200 are widely used as ingredients in topical formulations. The aim of this study was to examine how these glycols affected some of the fundamental factors involved in percutaneous absorption of ethyl- methyl- and glycol salicylate. To do this, certain drug-vehicle, drug-vehicle-skin and vehicle-skin interactions were investigated. Drug-vehicle interactions were evaluated using solubility - and rheological measurements, equilibrium dialysis, diffusion coefficient - and release rate determinations. In particular, the study showed that it is important to consider the viscosity contribution of a cosolvent to the vehicle and that it is essential not to over solubilise a drug in the vehicle. The evaluation of drug-vehicle-skin interactions involved both in vitro and in vivo determinations. The in vitro study consisted of solubility- and partition coefficient measurements together with determination of diffusion coefficients and penetration rates for the drugs and the glycols using a two compartment cell in which nude mouse skin was the rate controlling barrier. In vivo, the concentrations of the glycols were determined in the individual layers in the skin and in the plasma of nude mice. The flux of the salicylates was largely unaffected by the various solvent concentrations and the different solvents, except when high concentrations of propylene glycol and glycerol were employed. The measurements of glycerol and propylene glycol in the skin and plasma suggested that the amount of the glycols penetrating into the skin from a topical application were unlikely to have any effect on the partition coefficient of a drug between the vehicle and the skin or the diffusivity of the drug in the skin phase. A comparison of the in vivo and in vitro results indicated a good correlation between these studies. In vivo and in vitro histological assessment were employed to evaluate vehicle-skin effects. Applications of glycerol and PEG 200 had no effect on the skin, whereas increasing concentrations of propylene glycol caused progressive disintegration of the stratum corneum. Some `penetration enhancers' showed unacceptable levels of skin damage and/or irritancy. Future studies may correlate these findings with their penetration enhancing properties.
|
2 |
MATHEMATICAL MODEL FOR PREDICTING THE PERCUTANEOUS ABSORPTION OF FRANGRANCE RAW MATERIALSSAIYASOMBATI, PENPAN 02 September 2003 (has links)
No description available.
|
3 |
DOSE AND VEHICLE EFFECTS ON THE PENETRATION RATE OF SELECTED PLANT POLYPHENOLS THROUGH HUMAN SKINBALASUBRAMANIAN, SHREEKRIPA 21 May 2002 (has links)
No description available.
|
4 |
Mathematical Modeling of the Disposition of Binary Solutions of Topically Applied Agents in the Stratum Corneum and Underlying Skin LayersYu, Fang 05 October 2021 (has links)
No description available.
|
5 |
Desenvolvimento de produtos dermatológicos contendo corticosteróides: avaliação da liberação e penetração transcutânea por metodologia in vitro / Development of dermatological products containing corticosteroids: in vitro evaluation of drug release and skin permeationBentley, Maria Vitoria Lopes Badra 02 August 1994 (has links)
Os corticosteróides são substância largamente empregadas em dertatologia devido ao seu potente efeito anti-inflamatório na pela. Entretanto, associado a este efeito benéfico tem-se o risco da ocorrência de efeitos colaterais, decorrentes principalmente da absorção sistêmica dos corticosteróides pela via cutânea. A penetração transcutânea e retenção cutânea dos corticosteróides é influenciada pelo veículo no qual estes princípios ativos são incorporados. Assim sendo, os objetivos desta pesquisa foram investigar, in vitro, formulações que proporcionassem uma alta retenção cutânea dos corticosteróides na pele e também mínima penetração transcutânea. O estudo foi realizado com géis de Poloxamer 407 contendo diferentes concentrações dos promotores de absorção cutânea, uréia ou lecitina. Os parâmetros liberação, penetração transcutânea e retençâo cutânea dos acetatos de hidrocortisona e dexametasona, desonida e triamcinolona acetonida foram avaliados por metodologia in vitro, utilizando-se de célula de difusão e membranas. A quantificação dos corticosteróides nas diferentes fases do experimento foi realizada por cromatografia líquida de alta eficiência. Os esultados obtidos mostraram a influência do veículo nos parâAmetros avaliados. As formulações obedeceram cinética de 1ª. ordem para a liberação e penetração transcutânea. As preparações contendo lecitina promoveram uma maior retenção cutânea dos corticosteróides, sugerindo, assim, que géis de Poloxamer 407, associados com lecitina, formam veículos adequados para a incorporação de corticosteróides. / Corticoids are drugs often used in dermatology due to its anti-inflamatory effect in the skin. Meanwhile, together with this beneficial effect it can have side effects, due to the systemic absorption of the corticoids by cutaneous way. Transcutaneous penetration and cutaneous retention of the corticoids is influenciated by the vehicle in which this drogs are incorporated. In this way, the objetive of this research was to investigate, in vitro, formulations that would provide both, high cutaneous retention of the corticoids in the Skin and minimmn transcutaneous penetration. For this work was used Poloxamer 407 gels containing different concentrations of the absorptions enhancers, urea and lecithin. The release transcutaneous penetration and cutaneous retention of hydrocortisone and dexamethasone acetate, desonide and triamcinolone acetonide was evaluated by in vitro methodology using difiusion cells and membranes. The corticoids was analysed by HPLC. The results obtained showed the influence of the vehicle in the evaluated parameters. The corticoid relesse and transcutaneous penetration appeared to fit first order kinetic. The formulations containing lecithin promoved higher cutaneous retetion of the corticoids than the containing urea, sugesting, in this way, that Poloxamer 407 gels in the presence of lecithin are adequated preparations to the corticoids.
|
6 |
Desenvolvimento de hidrogéis contendo extrato de Achyrocline satureioides incorporado em nanoemulsões visando à atividade antioxidanteBalestrin, Lucélia Albarello January 2015 (has links)
Achyrocline satureioides (AS) - Asteraceae é uma planta medicinal amplamente usada na América do Sul. Uma vasta literatura tem mostrado a atividade antioxidante dos extratos de AS. Tal atividade tem sido relacionada às principais agliconas flavonoídicas dos extratos de AS: quercetina, luteolina e 3-O-metilquercetina. Neste estudo, descrevemos o desenvolvimento de hidrogéis antioxidantes contendo extrato de AS incorporado em nanoemulsões, objetivando a aplicação tópica. Em uma primeira etapa, nanoemulsões compostas do extrato de AS, triglicerídeos de cadeia média, lecitina de gema de ovo, polissorbato 80 e água foram preparadas por emulsificação espontânea. Este procedimento conduziu à obtenção de nanoemulsões monodispersas (índice de polidispersão <0,2) com tamanho médio de gotícula de 250 nm, confirmado por microscopia eletrônica de transmissão, e potencial zeta de aproximadamente -50 mV. Tais propriedades foram similares após a incorporação das nanoemulsões em hidrogéis de Carbopol Ultrez (0,15%) e estas mantiveram-se inalteradas ao longo do tempo (até 90 dias). Os hidrogéis exibiram um comportamento não-Newtoniano pseudoplástico. Foi observada uma maior liberação de 3-O-metilquercetina a partir das ASNE quando comparada com o HASNE. Estudos de permeação/retenção em pele de orelha suína foram realizados utilizando células de difusão do tipo Franz durante 8 horas. Os flavonoides foram retidos progressivamente na pele com um aumento na quantidade de formulação colocada no compartimento doador, até atingir um platô em aproximadamente 2 ug/cm2. Neste platô foi detectada uma maior retenção de 3-O-metilquercetina em comparação com os outros flavonoides. Finalmente, a proteção da pele de orelha suína pelas formulações contra o estresse oxidativo gerado pela luz UVA/UVB, foi evidenciado por meio de técnicas como TBARS, carbonilação de proteínas e grupamentos tióis totais. Os resultados globais mostraram o potencial das formulações desenvolvidas neste estudo visando à prevenção do estresse oxidativo na pele. / Achyrocline satureioides (AS) - Marcela is a medicinal plant widely used in South America. A well-documented literature has shown the antioxidant activity of the extracts of A. satureioides. Such activity has been related to the main aglycone flavonoids of AS: quercetin, luteolin, and 3-O-methylquercetin. In this study, we described the development of antioxidant hydrogels containing an A. satureioides extract-loaded nanoemulsions aimed at topical application. In the first step, nanoemulsions composed of A. satureioides extract, medium chain triglycerides, lecithin yolk egg, polysorbate 80, and water were prepared by means of the spontaneous emulsification. This procedure led to obtaining monodisperse nanoemulsions (polydispersity index <0.2) with average droplet size of 250 nm, confirmed by transmission electron microscopy, and zeta potential of approximately -50mV. Such properties were quite similar after thickening of nanoemulsions with Carbopol® Ultrez (0.15%) and remained unchanged over time (up to 90 days). Hydrogels exhibit a non-Newtonian pseudoplastic behavior. A higher release of 3-O-mehylquercetin from ASNE was observed when compared with HASNE. Studies of flavonoids permeation/retention through porcine ear skin were performed using Franz diffusion cells during 8 hours. Flavonoids were progressively retained into the porcine ear skin with an increase of the amount of formulation placed in donor compartment, until it reached a plateau of approximately 2 ug/cm2. At this plateau, it was detected a higher retention of 3MQ in comparison with other flavonoids. Finally, a protection the porcine ear skin by formulations, against oxidative stress generated by UVA/UVB light, was demonstrated by means of TBARS, protein carbonylation, and total protein thiol content assays. The overall results showed the potential of the formulations developed in this study for the prevention of oxidative stress on the skin.
|
7 |
Desenvolvimento de produtos dermatológicos contendo corticosteróides: avaliação da liberação e penetração transcutânea por metodologia in vitro / Development of dermatological products containing corticosteroids: in vitro evaluation of drug release and skin permeationMaria Vitoria Lopes Badra Bentley 02 August 1994 (has links)
Os corticosteróides são substância largamente empregadas em dertatologia devido ao seu potente efeito anti-inflamatório na pela. Entretanto, associado a este efeito benéfico tem-se o risco da ocorrência de efeitos colaterais, decorrentes principalmente da absorção sistêmica dos corticosteróides pela via cutânea. A penetração transcutânea e retenção cutânea dos corticosteróides é influenciada pelo veículo no qual estes princípios ativos são incorporados. Assim sendo, os objetivos desta pesquisa foram investigar, in vitro, formulações que proporcionassem uma alta retenção cutânea dos corticosteróides na pele e também mínima penetração transcutânea. O estudo foi realizado com géis de Poloxamer 407 contendo diferentes concentrações dos promotores de absorção cutânea, uréia ou lecitina. Os parâmetros liberação, penetração transcutânea e retençâo cutânea dos acetatos de hidrocortisona e dexametasona, desonida e triamcinolona acetonida foram avaliados por metodologia in vitro, utilizando-se de célula de difusão e membranas. A quantificação dos corticosteróides nas diferentes fases do experimento foi realizada por cromatografia líquida de alta eficiência. Os esultados obtidos mostraram a influência do veículo nos parâAmetros avaliados. As formulações obedeceram cinética de 1ª. ordem para a liberação e penetração transcutânea. As preparações contendo lecitina promoveram uma maior retenção cutânea dos corticosteróides, sugerindo, assim, que géis de Poloxamer 407, associados com lecitina, formam veículos adequados para a incorporação de corticosteróides. / Corticoids are drugs often used in dermatology due to its anti-inflamatory effect in the skin. Meanwhile, together with this beneficial effect it can have side effects, due to the systemic absorption of the corticoids by cutaneous way. Transcutaneous penetration and cutaneous retention of the corticoids is influenciated by the vehicle in which this drogs are incorporated. In this way, the objetive of this research was to investigate, in vitro, formulations that would provide both, high cutaneous retention of the corticoids in the Skin and minimmn transcutaneous penetration. For this work was used Poloxamer 407 gels containing different concentrations of the absorptions enhancers, urea and lecithin. The release transcutaneous penetration and cutaneous retention of hydrocortisone and dexamethasone acetate, desonide and triamcinolone acetonide was evaluated by in vitro methodology using difiusion cells and membranes. The corticoids was analysed by HPLC. The results obtained showed the influence of the vehicle in the evaluated parameters. The corticoid relesse and transcutaneous penetration appeared to fit first order kinetic. The formulations containing lecithin promoved higher cutaneous retetion of the corticoids than the containing urea, sugesting, in this way, that Poloxamer 407 gels in the presence of lecithin are adequated preparations to the corticoids.
|
8 |
Transdermal delivery of 5-Fluorouracil with PheroidTM technology / C.P. van DykVan Dyk, Christina Petronella January 2008 (has links)
Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.
|
9 |
Transdermal delivery of 5-Fluorouracil with PheroidTM technology / C.P. van DykVan Dyk, Christina Petronella January 2008 (has links)
5-Fluorouracil (5FU) is a pyrimidine analogue, indicated for the therapy of proliferative skin diseases such as actinic keratosis (AK), superficial basal cell carcinoma and psoriasis. It has also been used for the treatment of solid tumours like colorectal, breast and liver carcinomas for nearly 40 years.
Although 5FU has always been administered parenterally and orally, metabolism is rapid and absorption is erratic. Several severe side-effects are also commonly associated with 5FU therapy, including myelosuppression, hand-foot syndrome and gastrointestinal effects. Seeing that 5FU is an important part of the treatment of several malignant and pre-malignant disorders, it would be advantageous to find a delivery route and delivery system that negate absorption and metabolic variation and decrease side-effects.
The transdermal route provides a promising alternative to the above-mentioned conventional delivery routes, solving most of the problems associated with parenteral and oral administration. That being said, the formidable barrier situated in the skin is not easily breached. The stratum corneum, the outermost skin layer, is mostly lipophilic in nature, preventing hydrophilic molecules such as 5FU from entering.
5FU-containing creams and lotions are currently commercially available, but absorption is still very limited. The transdermal absorption from these formulations has been compared to that obtained with the use of new transdermal delivery vehicles, with the newer formulations proving to be promising.
It was decided to entrap 5FU in a novel therapeutic system, in the form of the Pheroid™ system, to increase its transdermal penetration.
Pheroid™ vesicles are stable spherical structures in a unique, emulsion-like formulation, and fall in the submicron range. The main components of the Pheroid™ system are the ethyl esters of the essential fatty acids linoleic acid and linolenic acid, as well as the cys-form of oleic acid, and water. The formulation is saturated with nitrous oxide (N20).
Although Pheroid™ vesicles may resemble other lipid-based vehicles, such as liposomes and micro-emulsions, they are unique in the sense that they have inherent therapeutic qualities as well. The Pheroid™ formulation can be specifically manipulated to yield different types of vesicles, ensuring a fast transport rate, high entrapment efficiency, rapid delivery and stability of the delivery system for a specific drug.
In this study, 5FU was entrapped in the Pheroid™ formulation. Transdermal permeation studies were then performed to evaluate the influence of this delivery system on the transdermal flux of 5FU.
Vertical Franz diffusion cells were utilised to determine the transdermal penetration of 5FU. Only Caucasian female abdominal skin was used to minimise physiological variables. Diffusion studies were done over 12 hour periods, with the entire receptor phase being withdrawn at predetermined intervals. Samples were analysed using high performance liquid chromatography (HPLC), after which the cumulative concentration of active was plotted against time. The linear portion of this graph represents the flux of 5FU through the skin.
It was found that there were differences in the results between formulations containing 5FU in a phosphate buffer solution (PBS)-based Pheroid™ and water-based Pheroid™, though the difference was not statistically significant. The 0.5 % 5FU in water-based Pheroid™ resulted in a significantly bigger yield than the control (1 % 5FU in water) as well as a significant difference to the 1 % 5FU in PBS-based Pheroid™ formulation. In general the water-based Pheroid™ formulations had greater average cumulative concentrations, yields and fluxes than the other formulations.
The fluxes obtained with the water-based Pheroid™ formulations also correlated well with a previous study done by Kilian (2004).
Thus it can be concluded that the Pheroid™ therapeutic delivery system enhances the transdermal penetration of 5FU. Water-based Pheroid™ formulations proved to be more effective than PBS-based Pheroid™ formulations. It can also be concluded that a 0.5 % 5FU in water-based Pheroid™ formulation can be used instead of a 1 % formulation, because there were no statistically significant differences between the two formulations. This would be advantageous - patient compliance can be enhanced because of a more tolerable formulation with fewer side effects, while manufacturing cost is lowered by using a lower concentration of active.
It is recommended that some aspects of the study be investigated further to optimise the transdermal delivery of 5FU using the Pheroid™ therapeutic system. These aspects
include optimising the composition of the Pheroid formulation, investigating the entrapment process of 5FU within Pheroid™ spheres, the influence of PBS and water as basis of the Pheroid™ formulation and the amount of 5FU remaining in the epidermis after the 12 hour period of the diffusion study.
Keywords: 5-Fluorouracil, Franz diffusion cell, Heat separated epidermis, Skin penetration, Transdermal, Drug delivery system, Pheroid™ / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.
|
10 |
Transdermal delivery of 5-Fluorouracil with PheroidTM technology / C.P. van DykVan Dyk, Christina Petronella January 2008 (has links)
5-Fluorouracil (5FU) is a pyrimidine analogue, indicated for the therapy of proliferative skin diseases such as actinic keratosis (AK), superficial basal cell carcinoma and psoriasis. It has also been used for the treatment of solid tumours like colorectal, breast and liver carcinomas for nearly 40 years.
Although 5FU has always been administered parenterally and orally, metabolism is rapid and absorption is erratic. Several severe side-effects are also commonly associated with 5FU therapy, including myelosuppression, hand-foot syndrome and gastrointestinal effects. Seeing that 5FU is an important part of the treatment of several malignant and pre-malignant disorders, it would be advantageous to find a delivery route and delivery system that negate absorption and metabolic variation and decrease side-effects.
The transdermal route provides a promising alternative to the above-mentioned conventional delivery routes, solving most of the problems associated with parenteral and oral administration. That being said, the formidable barrier situated in the skin is not easily breached. The stratum corneum, the outermost skin layer, is mostly lipophilic in nature, preventing hydrophilic molecules such as 5FU from entering.
5FU-containing creams and lotions are currently commercially available, but absorption is still very limited. The transdermal absorption from these formulations has been compared to that obtained with the use of new transdermal delivery vehicles, with the newer formulations proving to be promising.
It was decided to entrap 5FU in a novel therapeutic system, in the form of the Pheroid™ system, to increase its transdermal penetration.
Pheroid™ vesicles are stable spherical structures in a unique, emulsion-like formulation, and fall in the submicron range. The main components of the Pheroid™ system are the ethyl esters of the essential fatty acids linoleic acid and linolenic acid, as well as the cys-form of oleic acid, and water. The formulation is saturated with nitrous oxide (N20).
Although Pheroid™ vesicles may resemble other lipid-based vehicles, such as liposomes and micro-emulsions, they are unique in the sense that they have inherent therapeutic qualities as well. The Pheroid™ formulation can be specifically manipulated to yield different types of vesicles, ensuring a fast transport rate, high entrapment efficiency, rapid delivery and stability of the delivery system for a specific drug.
In this study, 5FU was entrapped in the Pheroid™ formulation. Transdermal permeation studies were then performed to evaluate the influence of this delivery system on the transdermal flux of 5FU.
Vertical Franz diffusion cells were utilised to determine the transdermal penetration of 5FU. Only Caucasian female abdominal skin was used to minimise physiological variables. Diffusion studies were done over 12 hour periods, with the entire receptor phase being withdrawn at predetermined intervals. Samples were analysed using high performance liquid chromatography (HPLC), after which the cumulative concentration of active was plotted against time. The linear portion of this graph represents the flux of 5FU through the skin.
It was found that there were differences in the results between formulations containing 5FU in a phosphate buffer solution (PBS)-based Pheroid™ and water-based Pheroid™, though the difference was not statistically significant. The 0.5 % 5FU in water-based Pheroid™ resulted in a significantly bigger yield than the control (1 % 5FU in water) as well as a significant difference to the 1 % 5FU in PBS-based Pheroid™ formulation. In general the water-based Pheroid™ formulations had greater average cumulative concentrations, yields and fluxes than the other formulations.
The fluxes obtained with the water-based Pheroid™ formulations also correlated well with a previous study done by Kilian (2004).
Thus it can be concluded that the Pheroid™ therapeutic delivery system enhances the transdermal penetration of 5FU. Water-based Pheroid™ formulations proved to be more effective than PBS-based Pheroid™ formulations. It can also be concluded that a 0.5 % 5FU in water-based Pheroid™ formulation can be used instead of a 1 % formulation, because there were no statistically significant differences between the two formulations. This would be advantageous - patient compliance can be enhanced because of a more tolerable formulation with fewer side effects, while manufacturing cost is lowered by using a lower concentration of active.
It is recommended that some aspects of the study be investigated further to optimise the transdermal delivery of 5FU using the Pheroid™ therapeutic system. These aspects
include optimising the composition of the Pheroid formulation, investigating the entrapment process of 5FU within Pheroid™ spheres, the influence of PBS and water as basis of the Pheroid™ formulation and the amount of 5FU remaining in the epidermis after the 12 hour period of the diffusion study.
Keywords: 5-Fluorouracil, Franz diffusion cell, Heat separated epidermis, Skin penetration, Transdermal, Drug delivery system, Pheroid™ / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2008.
|
Page generated in 0.1207 seconds