Your search keyword '"Grice JE"' showing total 9 results

1. Deformable liposomes as enhancer of caffeine penetration through human skin in a Franz diffusion cell test.

Author

Abd E, Gomes J, Sales CC, Yousef S, Forouz F, Telaprolu KC, Roberts MS, Grice JE, Lopes PS, Leite-Silva VR, and Andréo-Filho N

Subjects

Cells, Cultured, Diffusion, Humans, Caffeine pharmacokinetics, Liposomes, Skin Absorption

Abstract

Objective: The permeation of hydrophilic molecules through the skin is still a challenge due to the barrier posed by stratum corneum, the outermost layer of the skin. Liposomes have frequently been used as carriers for different types of drugs and may also function as permeation enhancers. Propylene glycol has also been used as an edge activator in liposomes to increase the permeation. The aim of this work was to prepare liposomes containing an edge activator and loaded with caffeine to evaluate the potential of caffeine reaching the deeper layers in the skin., Methods: The formulations were prepared by a top-down process using high-pressure homogenization at 200 00 psi for 10 min. They were characterized by size, polydispersity index (PI), zeta potential (ZP), pH, caffeine content and encapsulation efficiency (EE%) on preparation (time zero) and after 30 days. Cytotoxicity of blank and loaded liposomes was assessed by MTT proliferation assay with a normal keratinocyte cell line (HaCaT). In vitro permeation tests were performed with human skin in Franz cells over 24 h, and caffeine concentration was determined in the skin surface, stratum corneum, dermo-epidermal fraction and receptor medium by HPLC., Results: The caffeine liposomes with (DL-Caf) or without propylene glycol (CL-Caf) showed, respectively, mean size 94.5 and 95.4 nm, PI 0.48 and 0.42, ZP + 1.3 and + 18.1 mV and caffeine content of 78.57 and 80.13%. IC 50 values of caffeine in DL-Caf (3.59 v/v %) and CL-Caf (3.65 v/v %) were not significantly different from conventional blank liposome (3.27 v/v %). The DL-Caf formulation presented the best capability to enhance the caffeine permeation through the skin, resulting 1.94-folds higher than caffeine solution. Furthermore, the caffeine flux from DL-Caf was 1.56- and 3.05-folds higher than caffeine solution and CL-Caf, respectively. On the other hand, CL-Caf showed the lowest caffeine penetration revealing the importance of edge activator to aid hydrophilic drug penetration to all skin layers., Conclusion: The DL-Caf formulation tested was able to improve the permeation of caffeine through the stratum corneum and dermo-epidermal layers, suggesting that this delivery system may be effective for deep skin delivery of hydrophilic drugs., (© 2020 Society of Cosmetic Scientists and the Société Française de Cosmétologie.)

Published

2021

2. Permeation Mechanism of Caffeine and Naproxen through in vitro Human Epidermis: Effect of Vehicles and Penetration Enhancers.

Author

Abd E, Benson HAE, Mohammed YH, Roberts MS, and Grice JE

Subjects

Epidermis metabolism, Ethanol pharmacology, Eucalyptol pharmacology, Female, Humans, Hydrogen-Ion Concentration, Oleic Acid pharmacology, Permeability, Polyethylene Glycols pharmacology, Sodium Dodecyl Sulfate pharmacology, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Caffeine pharmacokinetics, Epidermis drug effects, Naproxen pharmacokinetics, Pharmaceutical Vehicles pharmacology, Skin Absorption drug effects

Abstract

Background/aims: The mechanisms by which permeation enhancers increase human skin permeation of caffeine and naproxen were assessed in vitro., Methods: Active compound solubility in the vehicles and in the stratum corneum (SC), active compound flux across epidermal membranes and uptake of active and vehicle components into the SC were measured. The effect of vehicle pH on the permeation of caffeine and naproxen was also determined., Results: Oleic acid and eucalyptol significantly enhanced the skin penetration of caffeine and naproxen, compared to aqueous controls. Naproxen permeation was increased from vehicles with pH presenting more ionized naproxen. Caffeine maximum flux enhancement was associated with an increase in caffeine SC solubility and skin diffusivity, whereas for naproxen a penetration enhancer/vehicle-induced increase in solubility in the SC correlated with an increase in maximum flux. SC solubility was related to experimentally determined active uptake, which was in turn predicted by vehicle uptake and active compound solubility in the vehicle., Conclusion: A permeation enhancer-induced alteration in diffusivity, rather than effects on SC solubility, was the main driving force behind increases in permeation flux of the hydrophilic molecule caffeine. For the more the lipophilic molecule naproxen, increased SC solubility drove the increases in permeation flux., (© 2019 S. Karger AG, Basel.)

Published

2019

3. Follicular Penetration of Caffeine from Topically Applied Nanoemulsion Formulations Containing Penetration Enhancers: In vitro Human Skin Studies.

Author

Abd E, Benson HAE, Roberts MS, and Grice JE

Subjects

Administration, Cutaneous, Adult, Caffeine chemistry, Cyclohexanols chemistry, Emulsions, Ethanol administration & dosage, Ethanol chemistry, Eucalyptol, Female, Humans, Hydrophobic and Hydrophilic Interactions, In Vitro Techniques, Monoterpenes chemistry, Oleic Acid chemistry, Caffeine administration & dosage, Cyclohexanols administration & dosage, Monoterpenes administration & dosage, Oleic Acid administration & dosage, Skin metabolism, Skin Absorption

Abstract

Background/aims: This study aimed to investigate transfollicular delivery enhancement of caffeine from nanoemulsion formulations incorporating oleic acid (OA) and eucalyptol (EU) as chemical penetration enhancers., Methods: Caffeine permeation was evaluated from nanoemulsions containing OA or EU and an aqueous control solution through excised human full-thickness skin with hair follicles opened, blocked, or left untreated. Differential tape stripping was performed, followed by cyanoacrylate skin surface biopsies to determine the amount of caffeine in the hair follicles, and skin extraction to determine the retention of caffeine in the skin., Results: Nanoemulsions significantly increased caffeine permeation through open and untreated skin over control (untreated: 36- and 42-fold for OA and EU, respectively; open: 40- and 49-fold). The follicular route contributed 53.7% of caffeine permeation for the OA nanoemulsion and 51% for EU when follicles were opened. Nanoemulsions promoted 4- and 3.4-fold increases in caffeine retention in open follicles, for OA and EU, respectively. Retention of caffeine in the stratum corneum and skin was almost equal in all cases., Conclusions: This study demonstrated effective delivery of caffeine as a hydrophilic model drug into and through hair follicles and showed that follicles and surrounding regions may be targeted by optimised formulations for specific treatments., (© 2018 S. Karger AG, Basel.)

Published

2018

4. Synergistic Skin Penetration Enhancer and Nanoemulsion Formulations Promote the Human Epidermal Permeation of Caffeine and Naproxen.

Author

Abd E, Namjoshi S, Mohammed YH, Roberts MS, and Grice JE

Subjects

Chemistry, Pharmaceutical, Cyclohexanols, Diffusion Chambers, Culture, Emulsions, Epidermis metabolism, Eucalyptol, Excipients, Female, Humans, Monoterpenes, Nanostructures, Oleic Acid, Solubility, Anti-Inflammatory Agents, Non-Steroidal administration & dosage, Anti-Inflammatory Agents, Non-Steroidal pharmacokinetics, Caffeine administration & dosage, Caffeine pharmacokinetics, Central Nervous System Stimulants administration & dosage, Central Nervous System Stimulants pharmacokinetics, Naproxen administration & dosage, Naproxen pharmacokinetics, Skin Absorption drug effects

Abstract

We examined the extent of skin permeation enhancement of the hydrophilic drug caffeine and lipophilic drug naproxen applied in nanoemulsions incorporating skin penetration enhancers. Infinite doses of fully characterized oil-in-water nanoemulsions containing the skin penetration enhancers oleic acid or eucalyptol as oil phases and caffeine (3%) or naproxen (2%) were applied to human epidermal membranes in Franz diffusion cells, along with aqueous control solutions. Caffeine and naproxen fluxes were determined over 8 h. Solute solubility in the formulations and in the stratum corneum (SC), as well as the uptake of product components into the SC were measured. The nanoemulsions significantly enhanced the skin penetration of caffeine and naproxen, compared to aqueous control solutions. Caffeine maximum flux enhancement was associated with a synergistic increase in both caffeine SC solubility and skin diffusivity, whereas a formulation-increased solubility in the SC was the dominant determinant for increased naproxen fluxes. Enhancements in SC solubility were related to the uptake of the formulation excipients containing the active compounds into the SC. Enhanced skin penetration in these systems is largely driven by uptake of formulation excipients containing the active compounds into the SC with impacts on SC solubility and diffusivity.

Published

2016

5. A Comparison of the Penetration and Permeation of Caffeine into and through Human Epidermis after Application in Various Vesicle Formulations.

Author

Abd E, Roberts MS, and Grice JE

Subjects

Caffeine chemistry, Caffeine pharmacokinetics, Chemistry, Pharmaceutical, Cholesterol chemistry, Cyclohexanols chemistry, Eucalyptol, Female, Glucosides chemistry, Humans, In Vitro Techniques, Liposomes, Monoterpenes chemistry, Oleic Acid chemistry, Phosphatidylcholines chemistry, Skin Absorption, Surface-Active Agents chemistry, Caffeine administration & dosage, Excipients chemistry, Skin metabolism

Abstract

Background/aims: A range of vesicles is now widely used to carry various solutes into and through the epidermis. These usually have the active solute encapsulated within and may be modified to confer flexibility and skin penetration enhancement. Here, we compared the ability of five different vesicle systems to deliver a model hydrophilic drug, caffeine, into and through excised human skin., Methods: In addition to lipids, the vesicle excipients included eucalyptol or oleic acid as penetration enhancers, and decyl polyglucoside as a non-ionic surfactant. Vesicle particle sizes ranged between 135 and 158 nm, and caffeine encapsulation efficiencies were between 46 and 66%. Caffeine penetration and permeation were measured using high-performance liquid chromatography., Results: We found that niosomes, which are liposomes containing a non-ionic surfactant, and transferosomes (ultraflexible vesicles) showed significantly greater penetration into the skin and permeation across the stratum corneum. Significant enhancement of caffeine penetration into hair follicles was found for transferosomes and those liposomes containing oleic acid., Conclusions: We conclude that targeted delivery of the hydrophilic drug caffeine into the skin compartments can be modified using optimized vesicular formulations., (© 2015 S. Karger AG, Basel.)

Published

2016

6. Hair follicles contribute significantly to penetration through human skin only at times soon after application as a solvent deposited solid in man.

Author

Liu X, Grice JE, Lademann J, Otberg N, Trauer S, Patzelt A, and Roberts MS

Subjects

Administration, Topical, Humans, Male, Models, Theoretical, Time Factors, Caffeine pharmacokinetics, Central Nervous System Stimulants pharmacokinetics, Hair Follicle metabolism, Skin metabolism, Skin Absorption physiology, Solvents metabolism

Abstract

Aims: The aim of this study was to define the underlying relative penetration of caffeine through hair follicles and through intact stratum corneum with time in vivo through pharmacokinetic modelling., Methods: Caffeine plasma concentration-time profiles after topical application into skin with or without hair follicle blocking were modelled using the Wagner-Nelson method or a compartmental model with first order absorption and elimination. Pharmacokinetic parameters describing absorption rate and extent of absorption through hair follicles or the stratum corneum were determined separately and compared with each other., Results: The obtained pharmacokinetic parameters from the two methods were similar. The absorption rate constant of caffeine for hair follicles was nearly 10 times higher than that for the stratum corneum and the percentage of absorption from hair follicles was more than half of that of the stratum corneum. In addition, the absorption from the stratum corneum showed an approximately 10 min delay while there was no delay for absorption from hair follicles. All caffeine absorbed by hair follicles occurs within 30 min of application and accounts for 10.5 to 33.8% of the total amount absorbed across the skin for all subjects, whereas absorption of caffeine through the stratum corneum can occur over several hours., Conclusion: Hair follicles contribute significantly to percutaneous absorption of caffeine after topical application in man in vivo only at times soon after application., (© 2011 The Authors. British Journal of Clinical Pharmacology © 2011 The British Pharmacological Society.)

Published

2011

7. Deformable liposomes as enhancer of caffeine penetration through human skin in a Franz diffusion cell test

Author

Newton Andréo-Filho, Jeffrey E. Grice, Michael S. Roberts, J Gomes, Eman Abd, Patricia Santos Lopes, Krishna Telaprolu, Vânia Rodrigues Leite-Silva, F Forouz, C C Sales, Shereen A. Yousef, Abd, E, Gomes, J, Sales, CC, Yousef, S, Forouz, F, Telaprolu, KC, Roberts, MS, Grice, JE, Lopes, PS, Leite-Silva, VR, and Andréo-Filho, N

Subjects

Aging, Skin Absorption, Pharmaceutical Science, Human skin, Dermatology, 030226 pharmacology & pharmacy, Diffusion, caffeine penetration, 030207 dermatology & venereal diseases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Colloid and Surface Chemistry, Caffeine, Drug Discovery, medicine, Stratum corneum, Humans, skin barrier, Cells, Cultured, Liposome, Chromatography, integumentary system, Chemistry, edge activator, Penetration (firestop), Permeation, permeation test, HaCaT, medicine.anatomical_structure, liposomes formulation, Chemistry (miscellaneous), Liposomes, Keratinocyte

Abstract

The permeation of hydrophilic molecules through the skin is still a challenge due to the barrier posed by stratum corneum, the outermost layer of the skin. Liposomes have frequently been used as carriers for different types of drugs and may also function as permeation enhancers. Propylene glycol has also been used as an edge activator in liposomes to increase the permeation. The aim of this work was to prepare liposomes containing an edge activator and loaded with caffeine to evaluate the potential of caffeine reaching the deeper layers in the skin.The formulations were prepared by a top-down process using high-pressure homogenization at 200 00 psi for 10 min. They were characterized by size, polydispersity index (PI), zeta potential (ZP), pH, caffeine content and encapsulation efficiency (EE%) on preparation (time zero) and after 30 days. Cytotoxicity of blank and loaded liposomes was assessed by MTT proliferation assay with a normal keratinocyte cell line (HaCaT). In vitro permeation tests were performed with human skin in Franz cells over 24 h, and caffeine concentration was determined in the skin surface, stratum corneum, dermo-epidermal fraction and receptor medium by HPLC.The caffeine liposomes with (DL-Caf) or without propylene glycol (CL-Caf) showed, respectively, mean size 94.5 and 95.4 nm, PI 0.48 and 0.42, ZP + 1.3 and + 18.1 mV and caffeine content of 78.57 and 80.13%. ICThe DL-Caf formulation tested was able to improve the permeation of caffeine through the stratum corneum and dermo-epidermal layers, suggesting that this delivery system may be effective for deep skin delivery of hydrophilic drugs.La perm´eation de mol´ecules hydrophiles `a travers lapeau reste un d´efi en raison de la barri`ere oppos´ee par la couchecorn´ee, la couche la plus externe de la peau. Les liposomes ontfr´equemment ´et´e utilis´es comme supports pour diff´erents types dem´edicaments et peuvent ´egalement fonctionner comme des amplificateursde perm´eation. Le propyl`ene glycol a ´egalement ´et´e utilis´ecomme activateur dans les liposomes pour augmenter la perm´eation.Le but de ce travail ´etait de pr´eparer des liposomes contenantun activateur et charg´es de caf´eine pour ´evaluer le potentiel de lacaf´eine atteignant les couches les plus profondes de la peau. MÉTHODES: Les formulations sont pr´epar´ees par homog´en´eisationhaute pression `a 200 00 psi pendant 10 min. Elles sontcaract´eris´es par la taille des liposomes, l’indice de polydispersit´e(PI), le potentiel zˆeta (ZP), le pH, la teneur en caf´eine et l’efficacit´ed’encapsulation (EE%) `a la pr´eparation (temps z´ero) et apr`es 30jours. La cytotoxicit´e des liposomes `a blanc et charg´es est ´evalu´eepar un test de prolif´eration MTT avec une lign´ee cellulaire de k´eratinocytesnormale (HaCaT). Des tests de perm´eation in vitro sontr´ealis´es avec de la peau humaine dans des cellules de Franz pendant24 h, et la concentration de caf´eine est d´etermin´ee `a la surfacede la peau, dans la couche corn´ee, la fraction dermo-´epidermique et le milieu r´ecepteur par HPLC. RÉSULTATS: Les liposomes contenant de la caf´eine avec (DL-Caf)ou sans propyl`ene glycol (CL-Caf) pr´esentent respectivement unetaille moyenne de 94,5 et 95,4 nm, PI 0,48 et 0,42, ZP + 1,3 et +18,1 mV et une teneur en caf´eine de 78,57 et 80,13%. Les valeursIC50 de la caf´eine dans DL - Caf (3,59 %v/v) et CL - Caf (3,65 %v/v) ne sont pas significativement diff´erentes de celles du liposome `ablanc conventionnel (3,27 %v/v). La formulation DL-Caf est cellequi permet la meilleure perm´eation de la caf´eine, avec une quantit´ede caf´eine dans la peau 1,94 fois plus ´elev´ee que la solution decaf´eine. De plus, le flux de caf´eine de DL-Caf est 1,56 et 3,05 foisplus ´elev´e que la solution de caf´eine et CL-Caf, respectivement.D’autre part, CL-Caf montre la plus faible p´en´etration de caf´eine,r´ev´elant l’importance de l’activateur pour aider `a la p´en´etration dela mol´ecule hydrophile dans toutes les couches de la peau.La formulation DL-Caf test´ee am´eliore la perm´eationde la caf´eine `a travers la couche corn´ee et les couches dermo-´epidermiques, ce qui sugg`ere que ce syst`eme d’administration peutˆetre efficace pour l’administration cutan´ee profonde de mol´eculeshydrophiles.

Published

2020

8. Follicular Penetration of Caffeine from Topically Applied Nanoemulsion Formulations Containing Penetration Enhancers: In vitro Human Skin Studies

Author

Heather A. E. Benson, Michael S. Roberts, Eman Abd, Jeffrey E. Grice, Abd, E, Benson, HAE, Roberts, MS, and Grice, JE

Subjects

Drug, skin and hair follicle, Adult, Physiology, media_common.quotation_subject, Skin Absorption, nanoemulsion, Human skin, Dermatology, Pharmacology, In Vitro Techniques, Administration, Cutaneous, 030226 pharmacology & pharmacy, 030207 dermatology & venereal diseases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Caffeine, Follicular phase, Stratum corneum, medicine, Humans, human, high-performance liquid chromatography, media_common, caffeine, Skin, Eucalyptol, integumentary system, Ethanol, General Medicine, Penetration (firestop), Permeation, Cyclohexanols, Oleic acid, medicine.anatomical_structure, chemistry, penetration enhancers, skin barrier function, Monoterpenes, transfollicular penetration, Emulsions, Female, Hydrophobic and Hydrophilic Interactions, Oleic Acid

Abstract

Background/Aims: This study aimed to investigate transfollicular delivery enhancement of caffeine from nanoemulsion formulations incorporating oleic acid (OA) and eucalyptol (EU) as chemical penetration enhancers. Methods: Caffeine permeation was evaluated from nanoemulsions containing OA or EU and an aqueous control solution through excised human full-thickness skin with hair follicles opened, blocked, or left untreated. Differential tape stripping was performed, followed by cyanoacrylate skin surface biopsies to determine the amount of caffeine in the hair follicles, and skin extraction to determine the retention of caffeine in the skin. Results: Nanoemulsions significantly increased caffeine permeation through open and untreated skin over control (untreated: 36- and 42-fold for OA and EU, respectively; open: 40- and 49-fold). The follicular route contributed 53.7% of caffeine permeation for the OA nanoemulsion and 51% for EU when follicles were opened. Nanoemulsions promoted 4- and 3.4-fold increases in caffeine retention in open follicles, for OA and EU, respectively. Retention of caffeine in the stratum corneum and skin was almost equal in all cases. Conclusions: This study demonstrated effective delivery of caffeine as a hydrophilic model drug into and through hair follicles and showed that follicles and surrounding regions may be targeted by optimised formulations for specific treatments.

Published

2017

9. A comparison of the penetration and permeation of caffeine into and through human epidermis after application in various vesicle formulations

Author

Michael S. Roberts, Eman Abd, Jeffrey E. Grice, Abd, E, Roberts, MS, and Grice, JE

Subjects

vesicle systems, Physiology, Chemistry, Pharmaceutical, Skin Absorption, Human skin, 02 engineering and technology, Dermatology, In Vitro Techniques, 030226 pharmacology & pharmacy, Excipients, Surface-Active Agents, 03 medical and health sciences, 0302 clinical medicine, Glucosides, Caffeine, Stratum corneum, medicine, Humans, stratum corneum, Niosome, Skin, hair follicles, Pharmacology, Liposome, Eucalyptol, Chromatography, integumentary system, Chemistry, encapsulation efficiency, Vesicle, General Medicine, Penetration (firestop), Permeation, Cyclohexanols, 021001 nanoscience & nanotechnology, Transferosomes, Cholesterol, medicine.anatomical_structure, Liposomes, Monoterpenes, Phosphatidylcholines, Female, 0210 nano-technology, Oleic Acid

Abstract

Background/Aims: A range of vesicles is now widely used to carry various solutes into and through the epidermis. These usually have the active solute encapsulated within and may be modified to confer flexibility and skin penetration enhancement. Here, we compared the ability of five different vesicle systems to deliver a model hydrophilic drug, caffeine, into and through excised human skin. Methods: In addition to lipids, the vesicle excipients included eucalyptol or oleic acid as penetration enhancers, and decyl polyglucoside as a non-ionic surfactant. Vesicle particle sizes ranged between 135 and 158 nm, and caffeine encapsulation efficiencies were between 46 and 66%. Caffeine penetration and permeation were measured using high-performance liquid chromatography. Results: We found that niosomes, which are liposomes containing a non-ionic surfactant, and transferosomes (ultraflexible vesicles) showed significantly greater penetration into the skin and permeation across the stratum corneum. Significant enhancement of caffeine penetration into hair follicles was found for transferosomes and those liposomes containing oleic acid. Conclusions: We conclude that targeted delivery of the hydrophilic drug caffeine into the skin compartments can be modified using optimized vesicular formulations.

Published

2016