RESUMEN

Over the past 50 years there have been great strides made in the discovery of the composition and relevance of the total stratum corneum (SC) ceramide matrix. However, the focus of this review is on the free intercellular class of ω-linoleoyloxyacylceramides, corneocyte-bound ceramides and associated lipids known as the corneocyte lipid envelope (CLE) together with their processing enzymes involved in aiding ceramide attachment the corneocyte protein envelope (CPE). Two structural models and partially shared biosynthetic pathways have been proposed for the attachment of CPE-bound O-ceramides (ω-hydroxyceramides attached to glutamate residues of proteins in the (CPE) using the 12R-lipoxygenase (12R-LOX)/epidermal lipoxygenase-3 (eLOX3)/epoxide hydrolase-3 (EPHX3)/unknown esterase/ transglutaminase-1 (TG1) attachment pathway) and CPE-bound EO-ceramides (epoxy-enone ceramides attached to cysteine residues of proteins in the CPE using the 12R-LOX/eLOX3/short chain dehydrogenase/reductase family 9C member 7 (SDR9C7)/non-enzymatic attachment pathway), i.e. there is a bifurcation step beyond epidermal eLOX3. Their formation and structures will be discussed as well as their relevance in compromised skin barrier conditions together with our own work on SC maturation examined by proteomics, lipidomics, enzyme immunolocalization studies, mechanical fragility assays and Nile red staining of corneocyte envelopes (CE). Reduced levels of 12R-LOX, eLOX3, SDR9C7 and TG1 were observed in photodamaged skin of the cheeks that were associated with reduced SC maturation as evidenced by Nile red staining and increased CE fragility. In the severely photodamaged cheeks of Albino African SC we also observed increased levels of acylceramides. Concomitantly by reducing the activity of 12R-LOX by antibody inhibition and TG1 inhibition with a known chemical inhibitor, we demonstrated in a humidity-based ex vivo SC maturation model that these enzymes contributed to increased CE hydrophobicity and mechanical integrity. We hypothesize that at least the CPE-bound O-ceramide pathway is operational in the SC. Nevertheless, our understanding of the full complexity of ω-linoleoyloxyacylceramides and the composition of the CLE is limited particularly on cosmetically relevant body sites such as the face.

Ces 50 dernières années, de grandes avancées ont eu lieu dans la découverte de la composition de la matrice de céramides de toute la couche cornée et de son importance. Cependant, cette revue se concentre sur la classe intercellulaire libre des ω­linoléoyloxyacylcéramides, les céramides liés aux cornéocytes et les lipides associés appelés « enveloppe lipidique des cornéocytes ¼ (ELC), ainsi que sur leurs enzymes de transformation impliquées dans la fixation des céramides sur l'enveloppe protéique des cornéocytes (EPC). Deux modèles structurels et des voies de biosynthèse partiellement partagées ont été proposés pour la fixation des O­céramides liés à l'EPC (ω­hydroxycéramides fixés aux résidus glutamate des protéines dans l'[EPC] en utilisant la 12R­lipoxygénase [12R­LOX]/la lipoxygénase épidermique 3 [eLOX3]/l'époxyde hydrolase 3 [EPHX3]/une voie de fixation inconnue de l'estérase/de la transglutaminase 1 [TG1]) et les EO­céramides liés à l'EPC (céramides époxy­énone fixés aux résidus de cystéine des protéines de l'EPC utilisant la 12R­LOX/l'eLOX3/la déshydrogénase à chaîne courte/la réductase membre 7 de la famille 9C [SDR9C7]/une voie de fixation non enzymatique). En d'autres termes, il existe une étape de bifurcation au­delà de l'eLOX3 épidermique. Leur formation et leur structure, ainsi que leur importance dans des conditions de barrière cutanée compromises, font ici l'objet d'une discussion. Nous abordons également nos propres travaux sur la maturation de la couche cornée selon la protéomique, la lipidomique, les études d'immunolocalisation enzymatique, les tests de fragilité mécanique et la coloration au rouge du Nil des enveloppes cornées (EC). Des taux réduits de 12R­LOX, d'eLOX3, de SDR9C7 et de TG1, associés à une maturation réduite de la couche cornée, ont été observés sur la peau photo­lésée des joues, comme en témoigne la coloration au rouge du Nil et la fragilité accrue des EC. Nous avons également observé une augmentation des taux d'acylcéramides sur les joues de personnes africaines atteintes d'albinisme dont la couche cornée a été sévèrement photo­lésée. En réduisant l'activité de la 12R­LOX par inhibition des anticorps et du TG1 avec un inhibiteur chimique connu, nous avons pu démontrer, dans un modèle de maturation de la couche cornée ex vivo basé sur l'humidité, que ces enzymes contribuaient à accroître le caractère hydrophobe des EC, ainsi que leur intégrité mécanique. Nous émettons l'hypothèse qu'au moins la voie de l'O­céramide liée à l'EPC fonctionne dans la couche cornée. Néanmoins, notre compréhension de la complexité complète des ω­linoléoyloxyacylcéramides et de la composition de l'ELC reste limitée, en particulier à des parties du corps ou l'esthétique est importante, comme le visage.

Asunto(s)

RESUMEN

In pharmaceutics, ingredients are classified as active ingredients and excipients. In topical/transdermal phytomedicines, an ingredient may serve both functions. Published information on these dual-purpose ingredients and their pharmacological relevance is limited. An intriguing scenario arises in traditional Chinese medicine (TCM) formulations, where active ingredients and excipients are undifferentiated. This study analyzes ingredients in TCM topical/transdermal formulations, aiming at harmonization of understanding of TCMs. The most commonly recorded ingredients from such formulations in the Chinese pharmacopoeia 2020 (ChP 2020) are reviewed, aiming at developing innovative topical/transdermal phytomedicines. Current editions of Chinese historical documents were reviewed to explore the principles underlying the use of these ingredients. TCM formulations containing botanical drugs for topical/transdermal application were selected from the ChP 2020. The use of botanical materials in TCM formulations is guided by the "Jun-Chen-Zuo-Shi" principle rooted in Yin-Yang and the five elements' theories. In the ChP 2020, 155 botanical drugs, along with 40 excipients (from the "procedure" section, focusing on processing and technical parameters), were identified from 34 botanical formulations intended for topical/transdermal application. Pungent and aromatic botanical materials were the most frequently recorded. Adhesive plasters were the most commonly recorded TCM dosage form, employing specific matrix blends. This new perspective of study reveals the prevalence of pungent and aromatic botanical materials, the common use of adhesive plasters, multifunctional properties of botanical oils, and formulation adaptability in TCM topical/transdermal products. These insights should inform novel formulation designs for both pharmaceutical and phytopharmacological research.

RESUMEN

A number of baby wipe formulations contain 2-phenoxyethanol (PE) as a preservative and cetylpyridinium chloride (CPC) as a surfactant with antimicrobial activity. Previously, we reported the skin absorption of PE in porcine skin and human skin in vitro. In the present work, the permeation of PE from preparations with CPC and without CPC was investigated in human skin in vivo. The studies were conducted using Confocal Raman Spectroscopy (CRS) and tape stripping (TS) methods. The CRS studies showed that the area under the curve (AUC) of PE for the formulation with and without CPC were not significantly different (p > 0.05). The TS data indicated no significant difference in the amounts of PE recovered from tapes 1-6 for the preparation with and without CPC (p > 0.05). When comparing the in vitro and in vivo data, a correlation was observed between the cumulative amount of PE permeated through human skin in vitro at 24 h and the AUC as measured by CRS (r2 = 0.97). In addition, the cumulative amount of PE permeated through human skin in vitro at 24 h was found to correlate with the amount of PE recovered from tape 1 to 6 in vivo (r2 = 0.95). Both CRS and TS techniques demonstrated limitations in assessing the distribution of PE and CPC in the skin in vivo, primarily attributed to the Raman signal intensities of compounds under investigation and the variability in the amount of SC collected by TS. Despite the limitations of CRS and TS, the results from the present study add further insights to the in vitro permeation data. Additionally, the findings of the present study encourage the further development and application of CRS for non-invasive evaluation of topical skin formulations in vivo.

RESUMEN

This review considers the role of in vitro permeation testing (IVPT) for the evaluation of drug delivery from topical formulations applied to the skin. The technique was pioneered by Franz in the 1970's and today remains an important tool in the development, testing and optimization of such topical formulations. An overview of IVPT as well as selection of skin for the experiment, integrity testing of the membrane, and required number of replicate skin samples is discussed. In the literature many researchers have focused solely on permeation and have not reported amounts of the active remaining on and in the skin at the end of the IVPT. Therefore, a particular focus of this article is determination of the complete mass balance of the drug. It is noteworthy that for the evaluation of bioequivalence of topical formulations the draft guideline issued by the European Medicines Agency (EMA) requires the IVPT method to report on both the skin deposition and distribution of the active in the skin as well as amount permeated. Other aspects of current guidance from the EMA and United States Food and Drug Agency for IVPT are also compared and contrasted. Ultimately, harmonisation of IVPT protocols across the regulatory agencies will expedite the development process for novel topical formulations as well as the availability of generic products.

Asunto(s)

RESUMEN

Dandruff, or pityriasis capitis simplex, is a common scalp condition associated with excessive flaking and scaling of the epidermal tissue. Other features include irregular corneocyte turnover, irritation, itching and an impaired skin barrier function. Previously we reported the characterization of climbazole (CBZ), an antifungal agent used in the management of dandruff. Skin permeation of CBZ from neat solvents was also investigated. In the present work we evaluated CBZ permeation in human skin in vitro from more complex formulations that better represent products used by consumers. The various systems studied were composed of propylene glycol (PG), Transcutol®P (TC), octyl salicylate (OSal) and isopropyl alcohol (IPA). As well as measurement of skin uptake and penetration of CBZ, where possible, the skin retention and permeation of the various solvents was also determined. All vehicles promoted skin permeation of CBZ but no significant differences in amount permeated were evident between the binary vehicles (PG:TC, TC:OSal) and the ternary vehicle studied (PG:IPA:OSal). The binary vehicles generally promoted more skin uptake of CBZ compared with the neat solvents (PG, TC, OSal) studied previously. Permeation and skin extraction of CBZ from the PG:TC vehicles increased with increasing PG content; a similar trend was evident for the PG:IPA:OSal systems. New methods were developed and validated for measurement of PG, TC and OSal. Analysis of the individual solvents indicated that PG permeation was also independent of the amounts of other solvents in the binary or ternary systems. Consistent with previous findings higher proportions of TC permeated compared with PG for the PG:TC binary systems; TC also permeated the skin more rapidly than PG from these vehicles. For OSal, skin extraction was generally higher for TC:OSal compared with the PG:IPA:OSal vehicle. However, increasing the content of OSal did not appear to influence CBZ skin uptake nor permeation. Interestingly, the effects of the various PG:TC vehicles on CBZ skin delivery contrast with results we previous reported for the same systems for a different active. This confirms that with reference to skin permeation, formulation effects and/or skin penetration enhancement should be expected to vary and may not be predicted for specific vehicles.

Asunto(s)

RESUMEN

The stratum corneum (SC)-the outermost layer of the epidermis-is the principal permeability and protective barrier of the skin. Different components of the SC, including corneocytes, natural moisturizing factor, a variety of enzymes and their inhibitors, antimicrobial peptides and lipids, work interactively to maintain barrier function. The main barrier properties of the SC are the limitation of water loss and the prevention of infection and contact with potentially harmful exogenous factors. Although the SC functions consistently as a protective barrier throughout the body, variations in functions and morphology occur across body sites with age and skin type. Healthy SC function also depends on the interplay between the chemosensory barrier, the skin's microbiome and the innate immune system. Dysregulation of SC barrier function can lead to the development of skin disorders, such as dry, flaky or sensitive skin, but the complete underlying pathophysiology of these are not fully understood. This review provides insight into the current literature and emerging themes related to epidermal barrier changes that occur in the context of dry, flaky and sensitive skin. Additional studies are needed to further elucidate the underlying aetiology of dry, flaky and sensitive skin and to provide tailored treatment.

Asunto(s)

RESUMEN

OBJECTIVE: Disruption of the protective stratum corneum barrier increases the skin's vulnerability to microorganisms and facilitates conditions such as dandruff. Dandruff is a disorder of the scalp that causes increased scaling of the SC and is associated with Malassezia fungus. Consequently, many anti-dandruff commercial products use anti-fungal active ingredients such as piroctone olamine also known as Octopirox (OPX). OPX is an active ingredient used in a number of topical preparations for the management of dandruff. The characterization of the physicochemical properties of OPX was previously reported. The aim of the present work was to investigate a range of solvent systems for their effects on OPX interaction with human skin. METHODS: The solvents used in this study were propylene glycol (PG), diethylene glycol monoethyl ether or Transcutol® (TC), PG monolaurate (PGML), isopropyl myristate (IPM), caprylic/capric triglyceride or Labrafac™ Lipophile WL 1349 (LAB), PG caprylate or Capryol® 90 (CAP), isostearyl isostearate (ISIS) and Plurol® Oleique CC 497 (PIOI). The single solvent systems evaluated were PG, TC, PGML, IPM, ISIS and CAP. For the binary solvent systems, PG and TC were examined. Ternary solvent systems consisted of: PG, TC and LAB; PG, PGML and LAB; and PG, TC and IPM. The concentration of OPX used was 1% (w/v). Heat-separated human epidermis was used for 24 h permeation experiments performed under finite dose conditions; mass balance studies were also conducted. RESULTS: For the six single solvents examined no permeation was evident. Skin permeation of OPX was observed for binary and ternary solvent systems. The highest permeation for all PG:TC binary solvent system ratios tested was from the PG:TC (75:25) system. For the ternary solvent systems investigated, highest cumulative permeation of OPX was observed for PG:PGML:LAB (60:30:10). Considering all systems, PG:TC (75:25) delivered the greatest amount of OPX through the skin. Although OPX is deposited in the skin following the application of neat solvents, higher skin retention values were generally observed for binary and ternary systems. CONCLUSION: To our knowledge, this is the first study to examine the permeation behaviour of OPX for a range of single, binary and ternary solvent systems.

OBJECTIF: La perturbation de la barrière protectrice de la couche cornée augmente la vulnérabilité de la peau aux micro-organismes et facilite des affections telles que les pellicules. Les pellicules sont un trouble du cuir chevelu qui provoque une augmentation de la desquamation de la couche cornée et qui est associé au champignon Malassezia. Par conséquent, de nombreux produits commerciaux antipelliculaires utilisent des principes actifs antifongiques, tels que la piroctone olamine, également appelée Octopirox (OPX). L'OPX est un principe actif utilisé dans un certain nombre de préparations topiques pour la prise en charge des pellicules. La caractérisation des propriétés physicochimiques de l'OPX a été précédemment rapportée. L'objectif de ce travail était d'étudier un éventail de systèmes de solvants pour leurs effets sur l'interaction de l'OPX avec la peau humaine. MÉTHODES: Les solvants utilisés dans cette étude étaient le propylène glycol (PG), l'éther monoéthylique de diéthylèneglycol ou Transcutol® (TC), le monolaurate de propylène glycol (PGML), le myristate d'isopropyle (IPM), le triglycéride caprylique/caprique ou Labrafac™ lipophile WL 1349 (LAB), le caprylate de propylène glycol ou Capryol® 90 (CAP), l'isostéarate d'isostéaryle (ISIS) et Plurol® Oleique CC 497 (PIOI). Les systèmes à solvant unique évalués étaient le PG, le TC, le PGML, l'IPM, l'ISIS et le CAP. Pour les systèmes de solvants binaires, le PG et le TC ont été examinés. Les systèmes de solvants ternaires comprenaient : PG, TC et LAB ; PG, PGML et LAB ; et PG, TC et IPM. La concentration d'OPX utilisée était de 1 % (p/v). L'épiderme humain séparé par la chaleur a été utilisé pour des expériences de perméation de 24 heures réalisées dans des conditions de dose finie ; des études d'équilibre de masse ont également été menées. RÉSULTATS: Pour les six solvants uniques examinés, aucune perméation n'était manifeste. Une perméation cutanée de l'OPX a été observée pour les systèmes de solvants binaires et ternaires. La perméation la plus élevée pour tous les rapports du système de solvant binaire PG:TC testés a été obtenue avec le système PG:TC (75:25). Pour les systèmes de solvants ternaires étudiés, la perméation cumulée la plus élevée d'OPX a été observée pour PG:PGML:LAB (60:30:10). Parmi tous les systèmes, PG:TC (75:25) a délivré la plus grande quantité d'OPX à travers la peau. Bien que l'OPX se dépose dans la peau après l'application de solvants purs, des valeurs de rétention cutanée plus élevées ont généralement été observées pour les systèmes binaire et ternaire. CONCLUSION: À notre connaissance, il s'agit de la première étude visant à examiner le comportement de perméation de l'OPX pour un éventail de systèmes de solvants uniques, binaires et ternaires.

RESUMEN

The evaluation of bioequivalence (BE) for topical dermatological drug products is challenging, and there has been significant interest from regulatory authorities in developing new BE methodologies in recent years. Currently, BE is demonstrated by comparative clinical endpoint studies; these are costly and time-consuming and often lack sensitivity and reproducibility. Previously, we reported excellent correlations between in vivo Confocal Raman Spectroscopy in human subjects and in vitro skin permeation testing (IVPT) with the human epidermis for skin delivery of ibuprofen and a number of excipients. The aim of the present proof-of-concept study was to evaluate CRS as a method to assess BE of topical products. Two commercially available formulations, Nurofen Max Strength 10% Gel and Ibuleve Speed Relief Max Strength 10% Gel, were selected for evaluation. Delivery of ibuprofen (IBU) to the skin was determined in vitro and in vivo by IVPT and CRS, respectively. The formulations examined were found to deliver comparable amounts of IBU across the skin over 24 h in vitro (p > 0.05). Additionally, the formulations resulted in similar skin uptake values measured with CRS in vivo, either at 1 h or 2 h after application (p > 0.05). This is the first study to report the capability of CRS for the demonstration of BE of dermal products. Future studies will focus on the standardisation of the CRS methodology for a robust and reproducible pharmacokinetic (PK)-based evaluation of topical BE.

RESUMEN

For permeation studies that use excised skin, experimental data may show variability associated with the use of biological tissues. As a consequence, achieving reproducible results and data interpretation may be challenging. The skin parallel artificial membrane permeability assay (skin PAMPA) model has been proposed as a high-throughput tool for predicting skin permeation of chemicals. A number of skin cleansing wipe formulations for the diaper area of infants contain 2-phenoxyethanol (PE) as a preservative and cetylpyridinium chloride (CPC) as a surfactant with antimicrobial activity. However, information regarding cutaneous absorption of PE and CPC in the scientific literatures is remarkably limited. The main aim of the present study was to assess the suitability of the skin PAMPA model for prediction of skin permeation of PE. A secondary aim was to investigate the influence of CPC on the dermal absorption of PE. PE (1 % w/w) was prepared in two vehicles, namely propylene glycol (PG) and water-PG (WP). Permeability of PE was investigated in vitro using the skin PAMPA membrane, porcine skin and human skin under finite dose conditions. The highest permeation of PE was observed for the water-PG preparation with 0.2 % w/w of CPC. This finding was consistently observed in the skin PAMPA model and in Franz cell studies using porcine skin and human skin. Permeation of CPC was not detected in the three permeation models. However, permeation of PE increased significantly (p < 0.05) in the presence of CPC compared with formulations without CPC. When comparing the skin PAMPA data and the mammalian skin data for the cumulative amount of PE permeated, the r2 values for PAMPA-porcine skin and PAMPA-human skin were 0.84 and 0.89, respectively. The findings in this study demonstrate the capability of the skin PAMPA model to differentiate between various doses and formulations and are encouraging for further applications of this model as a high throughput screening tool in topical formulation development.

Asunto(s)

RESUMEN

OBJECTIVE: Dandruff and its more severe related condition, seborrheic dermatitis affects a high proportion of the population at some point in their life. Piroctone olamine, also known as Octopirox® (OPX) is the monoethanolamine salt of piroctone and is an antifungal agent widely used for the management of dandruff. The aim of the present work was to characterize the physicochemical properties of piroctone olamine and to conduct pre-formulation studies for the development of novel topical formulations of this active. METHODS: An HPLC method was developed and validated for the analysis of OPX. The melting point was determined using the DSC Q2000 (TA Instruments, USA). The distribution coefficient (logD(O/PBS) ) and partition coefficient (log Po/w ) was determined in phosphate-buffered saline (PBS) AND deionized (DI) water using the shake flask method. All experiments were performed at room temperature. The solubility was determined experimentally by adding amount of active to a solvent. The samples were kept at 32° ± 1°C for 48 h in a water bath. The stability of the compound was determined in a range of solvents by preparing solutions of 1 mg mL-1 in the relevant solvents. These solutions were kept and stirred throughout the experiment at 32 ± 1°C, and aliquots were taken at 24, 48 and 96 h. RESULTS: The HPLC method was developed successfully; however, samples at the lower end of the calibration curve showed lower degrees of precision and accuracy. Based on experiments with DSC, the melting point was observed at an onset temperature of 132.4°C. The LogD was determined to be 1.84. The compound had the highest solubility in methanol (278.4 mg mL-1 ) and propylene glycol (PG), with a value of 248.8 mg mL-1 . The lowest solubility for OPX was in dimethyl isosorbide (9.9 mg mL-1 ), Labrafac™ (3.6 mg mL-1 ) and isostearyl isostearate (0.5 mg mL-1 ). Over the 4 days, OPX showed stability in ethanol and PG, while a notable decrease in OPX was observed in PBS and DI water at 32 ± 1°C. CONCLUSION: The physicochemical properties of OPX were characterized to find suitable excipients able to target the epidermis for topical delivery. Building on these findings, future work will focus on the development of novel topical formulation of OPX.

OBJECTIF: la production de pellicules et la maladie plus grave qui y est apparentée, la dermatite séborrhéique, touchent une grande partie des personnes à un moment donné de leur vie. La piroctone olamine, également connue sous le nom d'Octopirox® (OPX), est le sel de monoéthanolamine de la piroctone. Il s'agit d'un agent antifongique largement utilisé pour le traitement des pellicules. L'objectif de ce travail était de caractériser les propriétés physicochimiques de la piroctone olamine et de mener des études de préformulation pour le développement de nouvelles formulations topiques de ce principe actif. MÉTHODES: une méthode de chromatographie liquide à haute performance (CLHP) a été développée et validée pour l'analyse de l'OPX. Le point de fusion a été déterminé à l'aide du calorimètre à balayage différentiel (Differential Scanning Calorimetry, DSC) Q2000 (TA Instruments, États-Unis). Le coefficient de distribution (logD(Octanol/PBS) ) et le coefficient de partage (log Poctanol/eau , ou log Poe ) ont été déterminés dans le tampon phosphate salin (phosphate buffered saline, PBS) et dans l'eau désionisée (deionised, DI) à l'aide de la méthode par agitation en flacon. Toutes les expériences ont été réalisées à température ambiante. La solubilité a été déterminée de manière expérimentale. Une certaine quantité du principe actif a été ajoutée au solvant. Les échantillons ont été conservés à une température de 32 °C ± 1 °C pendant 48 h dans un bain-marie. La stabilité du composé a été déterminée à l'aide d'une gamme de solvants. Des solutions de 1 mg mL−1 ont été préparées dans les solvants correspondants. Les solutions ont été conservées et agitées tout au long de l'expérience à une température de 32°C ± 1°C. Des aliquotes ont été prélevées après 24, 48 et 96 h. RÉSULTATS: la méthode CLHP a été développée avec succès. Toutefois, les échantillons situés dans la partie inférieure de la courbe d'étalonnage ont montré des degrés inférieurs de précision et d'exactitude. Sur la base des expériences avec le DSC, le point de fusion a été observé à une température initiale de 132,4°C. Le LogD a été déterminé à 1,84. Le composé présentait la solubilité la plus élevée dans le méthanol (278,4 mg mL−1 ) et le propylène glycol (PG), avec une valeur de 248,8 mg mL−1 . L'OPX présentait la solubilité la plus faible dans l'isosorbide de diméthyle (9,9 mg.mL−1 ), le LabrafacTM (3,6 mg mL−1 ) et l'isostéarate d'isostéaryle (0,5 mg mL−1 ). Sur les 4 jours, l'OPX a montré une stabilité dans l'éthanol et le PG, tandis qu'il a diminué de manière notable dans le PBS et l'eau désionisée à une température de 32°C ± 1°C. CONCLUSION: les propriétés physicochimiques de l'OPX ont été caractérisées afin de trouver des excipients appropriés capables de cibler l'épiderme dans le cadre d'une administration topique. En s'appuyant sur ces résultats, les travaux futurs se concentreront sur le développement d'une nouvelle formulation topique de l'OPX.

Asunto(s)

RESUMEN

Previously, we reported the use of confocal Raman spectroscopy (CRS) as a novel non-invasive approach to determine drug disposition in the skin in vivo. Results obtained by CRS were found to correlate with data from the well-established in vitro permeation test (IVPT) model using human epidermis. However, these studies used simple vehicles comprising single solvents and binary or ternary solvent mixtures; to date, the utility of CRS for monitoring dermal absorption following application of complex marketed formulations has not been examined. In the present work, skin delivery of diclofenac sodium (DFNa) from two topical dermatological drug products, namely Diclac® Lipogel 10 mg/g and Primofenac® Emulsion gel 1%, was determined by IVPT and in vivo by both CRS and tape stripping (TS) methodologies under similar experimental conditions. The in vivo data were evaluated against the in vitro findings, and a direct comparison between CRS and TS was performed. Results from all methodologies showed that Diclac promoted significantly greater DFNa delivery to the skin (p < 0.05). The cumulative amounts of DFNa which permeated at 24 h in vitro for Diclac (86.5 ± 9.4 µg/cm2) were 3.6-fold greater than the corresponding amounts found for Primofenac (24.4 ± 2.7 µg/cm2). Additionally, total skin uptake of DFNa in vivo, estimated by the area under the depth profiles curves (AUC), or the signal intensity of the drug detected in the upper stratum corneum (SC) (4 µm) ranged from 3.5 to 3.6-fold greater for Diclac than for Primofenac. The shape of the distribution profiles and the depth of DFNa penetration to the SC estimated by CRS and TS were similar for the two methods. However, TS data indicated a 4.7-fold greater efficacy of Diclac relative to Primofenac, with corresponding total amounts of drug penetrated, 94.1 ± 22.6 µg and 20.2 ± 7.0 µg. The findings demonstrate that CRS is a methodology that is capable of distinguishing skin delivery of DFNa from different formulations. The results support the use of this approach for non-invasive evaluation of topical products in vivo. Future studies will examine additional formulations with more complex compositions and will use a wider range of drugs with different physicochemical properties. The non-invasive nature of CRS coupled with the ability to monitor drug permeation in real time offer significant advantages for testing and development of topical dermatological products.

RESUMEN

Ion pairing is a potential strategy used to increase the partition and permeation of ionisable drug molecules. This work outlines the process of identifying, selecting and testing potential counter ions for diclofenac (DF). Three screening criteria were considered in the initial selection process. The first, toxicity, was used to eliminate counter ion candidates that could not be used in topical formulations. The second related to the balancing of charges. As DF is a free acid in its unionised state, counter ions should be of a basic character. Finally, molecular size, as represented by molecular mass (Da), was used. Because of the impact on ion pair formation, the counter ion was required to have a lower molecular weight than diclofenac. Basic amino acids L-Arginine, L-Histidine, L-Lysine and their salts were chosen. The selection process concluded with Partition Coefficient (PC) studies. These were used to identify any counter ions able to interact electrostatically with the ionised DF, enabling the 'neutral' ion pair to partition from an aqueous into an organic layer. Permeation studies using porcine skin were performed to test the efficacy of any selected counter ion. These preliminary studies suggest that amino acids may be used as counter ions to increase the partition and permeation of ionisable drugs.

Asunto(s)

RESUMEN

The purpose of this in vivo exploratory study was to investigate human stratum corneum (SC) lipid conformational order and chain packing in healthy face (cheek) skin as a function of stratum corneum depth using a combination of tape-stripping and horizontal attenuated total reflection Fourier transform infrared (HATR-FTIR) spectroscopy. Equivalent data were also collected from volar forearm skin as we, and others, have previously characterized forearm SC lipid order as a function of depth, therefore these data served as a comparison site and an experimental internal standard for the previously unmeasured in vivo face skin data. An SC depth profile was achieved by using tape strips to sequentially remove "layers" of SC. Trans epidermal water loss (TEWL) measurements were recorded following each sequential tape strip. In vivo HATR-FTIR spectra were collected after each tape strip, providing a depth profile of spectral data through the SC of both faces and arms. Spectral data were analyzed at five discrete SC depths corresponding to baseline and SC depths at which the increase in TEWL was 25, 50, 75, and 100 percent (%) from the baseline measurement. Analysis of the SC in vivo HATR-FTIR spectroscopic data utilized mean spectra generated by averaging the spectra from all panelists (n = 10) at the five specific SC depths corresponding to when TEWL had increased by 25, 50, 75 and 100 % from baseline for each subject, respectively. While this is an exploratory study, and the data could be collated and processed in many ways, the average spectral data reveal clear trends in the face and arm SC. Increasing SC lipid order with depth is observed for face skin, as with arm skin, albeit with significant differences at all relative depths in the absolute lipid order between faces and arms. In vivo SC lipids are significantly more ordered at all depths in arms versus cheeks. The less ordered SC lipids of face skin can be in part attributed to the presence of a high amount of fluid sebaceous lipid species observed deep into the face SC. Interestingly, no evidence of orthorhombic packing is observed at any depth in face SC. This is consistent with the high degree of disorder indicated from the chain fluidity measurements. These in vivo HATR-FTIR depth studies of face skin highlight how different SC barrier organization is in the face compared to the more widely studied body sites such as arms and legs. Further studies of the SC lipid barrier in faces are needed to understand the significant differences in lipid organization and its implication for the penetration of drug and cosmetic actives through face skin.

Asunto(s)

RESUMEN

A good understanding of infant skin should provide a rationale for optimum management of the health of this integument. In this review, we discuss the skin barrier function of infants, particularly with reference to the use of diapers and baby wipes. The skin barrier of newborns continues to develop with age. Two years after birth, the barrier properties of infant skin closely resemble those of adult skin. However, several risk factors may contribute to impaired skin barrier and altered skin permeability in infants. Problems may arise from the use of diapers and baby wipes. The skin covered by a diaper is effectively an occluded environment, and thus is vulnerable to over-hydration. To date there has been no published information regarding dermal absorption of ingredients contained in baby wipes. Similarly, dermal absorption of topical ingredients in infants with underlying skin conditions has not been widely explored. Clearly, there are serious ethical concerns related to conducting skin permeation studies on infant skin. However, the increasing availability of non-invasive methods for in vivo studies is encouraging and offers new directions for studying this important patient group.

Asunto(s)

RESUMEN

For effective topical and transdermal drug delivery, it is necessary for most actives to penetrate and permeate through the stratum corneum (SC). Extensive investigation of the thermal behaviour of mammalian SC has been performed to understand the barrier function of the skin. However, little attention has been paid to the related experimental variables in thermal analysis of the SC using differential scanning calorimetry that may influence the results obtained from such studies. In this review, we provide a comprehensive overview of the thermal transitions of the SC of both porcine and human skin. More importantly, the selection and impact of the experimental and instrumental parameters used in thermal analysis of the SC are critically evaluated. New opportunities for the use of thermal analysis of mammalian SC in advancing skin research, particularly for elucidation of the actions of excipients employed in topical and transdermal formulations on the skin are also highlighted.

Asunto(s)