Improved skin delivery and validation of novel stability-indicating HPLC method for ketoprofen nanoemulsion

Abstract Ketoprofen is a non-steroidal anti-inflammatory drug (NSAID) widely used to treat rheumatoid arthritis and other inflammatory diseases. Normally used by oral route, this drug presents numerous side effects related to this administration route, such as nausea, dyspepsia, diarrhea, constipation and even renal complications. To avoid that, topical administration of ketoprofen represents a good alternative, since this drug has both partition coefficient and aqueous solubility suitable for skin application, compared to other NSAIDs. In this study, we describe the production of a nanoemulsion containing ketoprofen, its skin permeation and in vitro release study and a novel validation method to analyze this drug in the permeation samples and a forced degradation study using skin and nanoemulsion samples. The new HPLC method was validated, with all specifications in accordance with validation parameters and with an easy chromatographic condition. Forced degradation study revealed that ketoprofen is sensitive to acid and basic hydrolysis, developing degradation peaks after exposure to these factors. Concerning in vitro release from the nanoemulsion, release curves presented first order profile and were not similar to each other. After 8 h, 85% of ketoprofen was release from the nanoemulsion matrix while 49% was release from control group. In skin permeation study, nanoemulsion enabled ketoprofen to pass through the skin and enhanced retention in the epidermis and stratum corneum, layer on which the formulation presented statistically different values compared to the control group

Dissolving Microneedles Developed in Association with Nanosystems: A Scoping Review on the Quality Parameters of These Emerging Systems for Drug or Protein Transdermal Delivery

The largest organ of the body provides the main challenge for the transdermal delivery of lipophilic or high molecular weight drugs. To cross the main barrier of the skin, the stratum corneum, many techniques have been developed and improved. In the last 20 years, the association of microneedles with nanostructured systems has gained prominence for its versatility and for enabling targeted drug delivery. Currently, the combination of these mechanisms is pointed to as an emerging technology; however, some gaps need to be answered to transcend the development of these devices from the laboratory scale to the pharmaceutical market. It is known that the lack of regulatory guidelines for quality control is a hindrance to market conquest. In this context, this study undertakes a scoping review of original papers concerning methods applied to evaluate both the quality and drug/protein delivery of dissolving and hydrogel-forming microneedles developed in association with nanostructured systems

Improved skin delivery and validation of novel stability-indicating HPLC method for ketoprofen nanoemulsion

Abstract Ketoprofen is a non-steroidal anti-inflammatory drug (NSAID) widely used to treat rheumatoid arthritis and other inflammatory diseases. Normally used by oral route, this drug presents numerous side effects related to this administration route, such as nausea, dyspepsia, diarrhea, constipation and even renal complications. To avoid that, topical administration of ketoprofen represents a good alternative, since this drug has both partition coefficient and aqueous solubility suitable for skin application, compared to other NSAIDs. In this study, we describe the production of a nanoemulsion containing ketoprofen, its skin permeation and in vitro release study and a novel validation method to analyze this drug in the permeation samples and a forced degradation study using skin and nanoemulsion samples. The new HPLC method was validated, with all specifications in accordance with validation parameters and with an easy chromatographic condition. Forced degradation study revealed that ketoprofen is sensitive to acid and basic hydrolysis, developing degradation peaks after exposure to these factors. Concerning in vitro release from the nanoemulsion, release curves presented first order profile and were not similar to each other. After 8 h, 85% of ketoprofen was release from the nanoemulsion matrix while 49% was release from control group. In skin permeation study, nanoemulsion enabled ketoprofen to pass through the skin and enhanced retention in the epidermis and stratum corneum, layer on which the formulation presented statistically different values compared to the control group

Cyclodextrin-Based Delivery Systems and Hydroxycinnamic Acids: Interactions and Effects on Crucial Parameters Influencing Oral Bioavailability—A Review

Hydroxycinnamic acids (HCAs) are a subclass of phenolic acids presenting caffeic acid (CA), chlorogenic acid (CGA), coumaric acid (COA) isomers, ferulic acid (FA), and rosmarinic acid (RA) as the major representants, being broadly distributed into vegetal species and showing a range of biological potentials. Due to the low oral bioavailability of the HCAs, the development of delivery systems to promote better administration by the oral route is demanding. Among the systems, cyclodextrin (CD)-based delivery systems emerge as an important technology to solve this issue. Regarding these aspects, in this review, CD-based delivery systems containing HCAs are displayed, described, and discussed concerning the degree of interaction and their effects on crucial parameters that affect the oral bioavailability of HCAs

Revestimento de superfícies compreendendo carreadores micro ou nano estruturados e uso do revestimento de superfícies

Universidade Federal do Rio Grande do SulEngenhariaFarmáciaDepositad

Obtenção de espumas flexíveis de poliuretano com celulose de Pinus elliottii

Resumo Neste trabalho foram desenvolvidas espumas flexíveis de poliuretano com a adição de celulose de Pinus nas concentrações de 0,5; 1 e 2% (m/m). A celulose foi submetida ao processo de fibrilação mecânica e posterior secagem por aspersão (spray dry) sendo caracterizada quanto a sua morfologia por MEV e MET. As espumas foram produzidas pelo método de batelada (one-shot) com a adição e mistura da fibra junto ao poliol. As espumas foram caracterizadas por MEV, densidade aparente e resistência à compressão. Os principais resultados indicam que a fibrilação mecânica promove a obtenção de fibras em escala nanométrica, porém durante a secagem, ocorre aglomeração ocasionando aumento para escala micrométrica. As propriedades mecânicas da espuma obtiveram acréscimos de 40 e 50% na resistência à compressão com a adição de 0,5 e 1% de celulose, respectivamente, evidenciando seu potencial como aditivo alternativo para o desenvolvimento de espumas de poliuretano

Revestimento de superfícies compreendendo carreadores micro ou nano estruturados e uso do revestimento de superfícies

Universidade Federal do Rio Grande do SulEngenhariaFarmáciaDepositad

Piper aduncum Essential Oil Rich in Dillapiole: Development of Hydrogel-Thickened Nanoemulsion and Nanostructured Lipid Carrier Intended for Skin Delivery

The essential oil extracted from the leaves of Piper aduncum, an aromatic plant from the Amazon region, is rich in dillapiole and presents anti-inflammatory activity. In this study, nanoemulsions (NE) and nanostructured lipid carriers (NLC), which are biocompatible nanostructured systems of a lipid nature, were prepared by high-pressure homogenization for the yet unexplored skin delivery of dillapiole. The addition of hydroxyethylcellulose produced hydrogel-thickened NE or NLC in view to improving the viscosity and skin adherence of the nanoformulations. Formulations were characterized with respect to dillapiole content, droplet size, polydispersity index, zeta potential, morphology, rheological behavior, bioadhesion, skin permeation profile, and in vitro irritancy (HET-CAM). The formulations developed presented spherical, homogeneous nanometric particle size (around 130 nm), narrow polydispersity index (<0.3), and negative zeta potential (around −40 mV). Dillapiole content was slightly lower in NLC compared to NE since the production process involves heating. The hydrogels containing nanocarriers showed pseudoplastic behavior with bioadhesive characteristics. The developed formulations exhibited a controlled release profile, dillapiole delivery up to the dermis, the layer of interest for anti-inflammatory potential, and low irritant potential in the chorioallantoic membrane (HET-CAM). Both hydrogels-thickened NE and NLC seemed to be promising formulations for skin delivery of Piper aduncum essential oil

Antiherpes Activity and Skin/Mucosa Distribution of Flavonoids from Achyrocline satureioides Extract Incorporated into Topical Nanoemulsions

This study investigated the inhibitory effects of Achyrocline satureioides extract (ASE) incorporated into a topical nanoemulsion on Herpes Simplex Virus type 1 (HSV-1/KOS strain) replication, as well as the distribution of the main ASE flavonoids (quercetin, luteolin, and 3-O-methylquercetin) in porcine skin and mucosa. The ASE-loaded nanoemulsion showed more pronounced effects against HSV-1 replication when compared to the ASE or pure quercetin, as determined by the viral plaque number reduction assay. All flavonoids were detected in the skin epidermis (2.2 µg/cm2) and the mucosa upper layers (3.0 µg/cm2) from ASE-loaded nanoemulsion until 8 h after topical application. A higher amount of flavonoids was detected when these tissues were impaired, especially in deeper mucosa layers (up to 7-fold). Flavonoids were detected in the receptor fluid only when the mucosa was injured. Such results were supported by confocal microscopy images. Overall, these findings suggest that the tested ASE-loaded nanoemulsion has potential to be used topically for herpes infections

Toward a greener multifunctional pharmaceutical excipient: <i>in vivo</i> safety evaluation of nanofibrillated cellulose from tobacco stalk

Tobacco stalk is a cellulose-rich material and a sustainable alternative to be applied as a plant-based nanofibrillated cellulose (NFC) source. NFC use has garnered attention in the development of oral pharmaceutical forms, despite concerns about its safety due to the adverse effects of nicotine on health. Therefore, we aimed at establishing the safety of NFC derived from tobacco stalk for its potential use as a novel pharmaceutical excipient, exploring its potential functions for tablet production. We conducted acute and subchronic oral toxicity tests in adult female Wistar rats. Initially, individual animals received sequential doses (175–5,000 mg·kg−1) for 24 hours followed by a careful observation of any toxic effects. Subsequently, 20 rats were divided into four groups for a subchronic assay, evaluating toxicity signs, body weight changes, hematological, biochemical, and histopathological parameters. No deaths or other clinical toxicity signs were observed in either the acute or the subchronic assays. We noticed a significant reduction in body weight gain (p −1 per day for 28 days was well-tolerated by treated rats, with no reported deaths. In conclusion, NFC derived from tobacco stalk has shown to be a sustainable and safe alternative for use as an excipient at experimental doses, demonstrating compatibility with its proposed applications.</p