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      Development and optimization of proniosomal gel containing etodolac: in-vitro, ex-vivo and in-vivo evaluation Translated title: Desarrollo y optimización del gel proniosomal que contiene etodolaco: evaluación in vitro, ex vivo e in vivo

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          Abstract

          Abstract Introduction: Etodolac is used in the treatment of acute pain and inflammation. It has low solubility because of high hydrophobicity and it is reported that upon oral administration shows gastric disturbances. This encourages the development of topical vesicular formulation. Method: In this work we used coacervation-phase separation method for the development of etodolac loaded vesicular system by using non-ionic surfactants, cholesterol and soya lecithin. Central composite design (rotatble) was used to optimize the concentrations of soy lecithin, surfactant and cholesterol. The prepared formulations were characterized by number of vesicles formed, vesicle size, zeta potential, entrapment efficiency, in-vitro permeation, ex-vivo permeation and anti-inflammatory study. Results: Etodolac was successfully entrapped in all formulations having efficiency in the range of 74.36% to 90.85%, which was more at 4 °C than room temperature. When hydrated with water; niosome in the range of 54 to 141 (per cubic mm) were spontaneously produced. The results of in-vitro diffusion study revealed that etodolac was released in the range of 71.86 to 97.16% over a period of 24 hrs. The average vesicle size of optimized formulation was found 211.9 nm with PDI of 0.5. The observed responses i.e. % encapsulation efficiency and drug release were 74.12 and 95.08 respectively. The zeta potential was -19.4mV revealed the stability of formulation which was further confirmed by no changes in drug content and drug release after stability studies. The % inhibition in paw volume was 40.52% and 43.61% for test and marketed proniosomal gel. Conclusion: Proniosomal gel formulation was stable and could enhance skin delivery of etodolac because of excellent permeation capability of vesicular system.

          Translated abstract

          Resumen Introducción: Etodolac se usa en el tratamiento del dolor agudo y la inflamación. Tiene baja solubilidad debido a la alta hidrofobia y se informa que tras la administración oral muestra alteraciones gástricas. Esto fomenta el desarrollo de formulación tópica en lugar de oral. Método: En este trabajo utilizamos el método de separación de fase de coacervación para el desarrollo del sistema vesicular cargado con etodolaco mediante el uso de tensioactivos no iónicos, colesterol y lecitina de soja. El diseño central compuesto (rotativo) se utilizó para optimizar las concentraciones de lecitina de soja, surfactante y colesterol. Las formulaciones preparadas se caracterizaron por análisis de tamaño de vesículas, potencial zeta, eficiencia de atrapamiento, permeación in vitro, permeación ex vivo y estudio antiinflamatorio. Resultados: Etodolac quedó atrapado con éxito en todas las formulaciones que tenían una eficiencia en el intervalo de 74,36% a 90,85%, siendo mayor a 4 ° C que a temperatura ambiente. Cuando se hidrata con agua, los niosomas se producen espontaneamente el rango de 54 a 141 (por mm cúbico). Los resultados del estudio de difusión in vitro revelaron que el etodolaco se liberó en un rango de 71,86 a 97,16% durante un período de 24 horas. El tamaño medio de vesícula de la formulación optimizada se encontró en 211,9 nm con un PDI de 0,5. Las respuestas observadas, es decir,% de eficacia de encapsulación y liberación de fármaco, fueron 74,12 y 95,08 respectivamente. El potencial zeta fue de -19,4 mV y reveló la estabilidad de la formulación, que fue confirmada adicionalmente por la ausencia de cambios en el contenido del fármaco y la liberación del fármaco después de los estudios de estabilidad. El% de inhibición en el volumen de la pata fue del 40,52% y del 43,61% para la prueba y el gel proniosómico comercializado. Conclusión: la formulación de gel proniosomal fue estable y podría mejorar el suministro de etodolaco a la piel debido a la excelente capacidad de permeación del sistema vesicular.

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          Role of edge activators and surface charge in developing ultradeformable vesicles with enhanced skin delivery.

          Transfersomes are highly efficient edge activator (EA)-based ultraflexible vesicles capable of, non-invasively, trespassing skin by virtue of their high, self-optimizing deformability. This investigation presents different approaches for the optimization of Transfersomes for enhanced transepidermal delivery of Diclofenac sodium (DS). Different methods of preparation, drug and lipid concentrations and vesicle compositions were employed, resulting in ultraflexible vesicles with diverse membrane characteristics. Evaluation of Transfersomes was implemented in terms of their shapes, sizes, entrapment efficiencies (EE%), relative deformabilities and in vitro skin permeation. Transfersomes prepared with 95:5% (w/w) (PC:EA) ratio showed highest EE% (Span 85>Span 80>Na cholate>Na deoxycholate>Tween 80). Whereas, those prepared using 85:15% (w/w) ratio showed highest deformability (Tween 80 was superior to bile salts and spans). Transfersomes were proved significantly superior in terms of, the amount of drug deposited in the skin and the amount permeated, with an enhancement ratio of 2.45, when compared to a marketed product. The study proved that the type and concentration of EA, as well as, the method of preparation had great influences on the properties of Transfersomes. Hence, optimized Transfersomes can significantly increase transepidermal flux and prolong the release of DS, when applied non-occlusively. Copyright 2010 Elsevier B.V. All rights reserved.
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            Proniosomes as a drug carrier for transdermal delivery of ketorolac.

            Niosomes are nonionic surfactant vesicles that have potential applications in the delivery of hydrophobic and hydrophilic drugs. Permeation of a potent nonsteroidal anti-inflammatory, ketorolac, across excised rabbit skin from various proniosome gel formulations was investigated using Franz diffusion cells. Each of the prepared proniosomes significantly improved drug permeation and reduced the lag time (P 0.05). The encapsulation efficiency and size of niosomal vesicles formed by proniosome hydration were also characterized by specific high performance liquid chromatography method and scanning electron microscopy. Each of the prepared niosomes achieved about 99% drug encapsulation. Vesicle size was markedly dependent on the composition of the proniosomal formulations. Proniosomes may be a promising carrier for ketorolac and other drugs, especially due to their simple production and facile up.
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              Recent advances in gel technologies for topical and transdermal drug delivery.

              Transdermal drug delivery systems are a constant source of interest because of the benefits that they afford in overcoming many drawbacks associated with other modes of drug delivery (i.e. oral, intravenous). Because of the impermeable nature of the skin, designing a suitable drug delivery vehicle that penetrates the skin barrier is challenging. Gels are semisolid formulations, which have an external solvent phase, may be hydrophobic or hydrophilic in nature, and are immobilized within the spaces of a three-dimensional network structure. Gels have a broad range of applications in food, cosmetics, biotechnology, pharmatechnology, etc. Typically, gels can be distinguished according to the nature of the liquid phase, for example, organogels (oleogels) contain an organic solvent, and hydrogels contain water. Recent studies have reported other types of gels for dermal drug application, such as proniosomal gels, emulgels, bigels and aerogels. This review aims to introduce the latest trends in transdermal drug delivery via traditional hydrogels and organogels and to provide insight into the latest gel types (proniosomal gels, emulgels, bigels and aerogels) as well as recent technologies for topical and transdermal drug delivery.
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                Author and article information

                Journal
                ars
                Ars Pharmaceutica (Internet)
                Ars Pharm
                Universidad de Granada (Granada, Granada, Spain )
                2340-9894
                September 2021
                : 62
                : 3
                : 290-304
                Affiliations
                [1] Pune orgnameSavitribai Phule Pune University orgdiv1MET's Institute of Pharmacy orgdiv2Department of Pharmaceutics India
                [2] Pune orgnameSavitribai Phule Pune University orgdiv1MET's Institute of Pharmacy orgdiv2Department of Pharmacology India
                [3] Pune orgnameSavitribai Phule Pune University orgdiv1MET's Institute of Pharmacy orgdiv2Department of Pharmaceutical analysis India
                Article
                S2340-98942021000300290 S2340-9894(21)06200300290
                10.30827/ars.v62i3.17944
                b0488f14-b23a-4fbd-b90a-4c73e46bc5ef

                This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

                History
                : 25 April 2021
                : 11 January 2021
                Page count
                Figures: 0, Tables: 0, Equations: 0, References: 21, Pages: 15
                Product

                SciELO Spain

                Categories
                Original Articles

                estudio antiinflamatorio,drug delivery,proniosomal gel,etodolac,non-ionic surfactants,anti- inflammatory study,de fármacos vesiculares,gel proniosómico,etodolaco,tensioactivos no iónicos

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