Formulation, characterisation and topical application of oil powders from whey protein stabilised emulsions / Magdalena Kotze

Kotze, Magdalena

January 2014

The available literature indicates that to date, few research has been performed on oil powders for topical delivery. The aim of this project was to investigate the release characteristics of oil powder formulations, as well as their dermal and transdermal delivery properties. Whey protein-stabilised emulsions were used to develop oil powders. Whey protein was used alone, or in combination with chitosan or carrageenan. Nine oil powders, with salicylic acid as the active ingredient, were formulated by using the layer-by-layer method. Three different pH values (pH 4, 5 and 6) were used to prepare the formulations, because of the different charges that polymeric emulsifiers may have. The characteristics of the prepared oil powders were determined, including their droplet sizes, particle size distributions, loss on drying, encapsulation efficiencies, oil leakage and water dispersibility. Release studies (membrane diffusion studies) were conducted by utilising cellulose acetate membranes (0.2 μm pore size) and Franz-type diffusion cells over a period of eight hours. The release of the active ingredient was determined for all nine powders, their respective template emulsions, as well as their respective oil powders redispersed in water. The release of salicylic acid from the respective redispersed oil powders was then further compared to its release from the template emulsions and from the oil powders. The effect of pH and different polymer types used in preparing the oil powders, their respective redispersed oil powders and the template emulsions were determined with regards to the release of the active ingredient from all these preparations. The effect of pH and different polymers used was furthermore determined on the oil powders and their respective redispersed oil powders, with regards to their dermal and transdermal deliveries. Transdermal delivery and skin uptake were investigated on specifically selected powders only, based on the outcomes of the oil powder characterisation and release data. The qualifying formulations were chitosan pH 4, 5 and 6, whey and carrageenan pH 6 oil powders, together with their respective redispersed oil powders in water. Human abdominal skin was dermatomed (thickness 400 μm) for use in the diffusion studies. Franz-type diffusion cells were used over a period of 24 hours. The results of the membrane release studies indicated that the oil powders had achieved a significantly higher release than their respective redispersed oil powders. The release of salicylic acid from the redispersed oil powders and from their respective emulsions was similar. The transdermal delivery test outcomes showed that the effect of pH could have been influenced by the degree of ionisation, resulting in a decrease in permeation with increasing ionisation of salicylic acid, in accordance with the pH partition hypothesis. Furthermore, biopolymers, such as chitosan had demonstrated a penetration enhancing effect, which had led to the enhanced dermal and transdermal delivery of salicylic acid. A correlation was also found between the powder particle size and transdermal delivery. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2014

Oil powders

Whey proteins

Chitosan

Carrageenan

Topical delivery

Release

Salicylic acid

Olie-poeiers

Wei-proteïen

Kitosaan

Karrageenan

Topikale aflewering

Vrystelling

Salisielsuur

Formulation, characterisation and topical application of oil powders from whey protein stabilised emulsions / Magdalena Kotze

Kotze, Magdalena

January 2014

The available literature indicates that to date, few research has been performed on oil powders for topical delivery. The aim of this project was to investigate the release characteristics of oil powder formulations, as well as their dermal and transdermal delivery properties. Whey protein-stabilised emulsions were used to develop oil powders. Whey protein was used alone, or in combination with chitosan or carrageenan. Nine oil powders, with salicylic acid as the active ingredient, were formulated by using the layer-by-layer method. Three different pH values (pH 4, 5 and 6) were used to prepare the formulations, because of the different charges that polymeric emulsifiers may have. The characteristics of the prepared oil powders were determined, including their droplet sizes, particle size distributions, loss on drying, encapsulation efficiencies, oil leakage and water dispersibility. Release studies (membrane diffusion studies) were conducted by utilising cellulose acetate membranes (0.2 μm pore size) and Franz-type diffusion cells over a period of eight hours. The release of the active ingredient was determined for all nine powders, their respective template emulsions, as well as their respective oil powders redispersed in water. The release of salicylic acid from the respective redispersed oil powders was then further compared to its release from the template emulsions and from the oil powders. The effect of pH and different polymer types used in preparing the oil powders, their respective redispersed oil powders and the template emulsions were determined with regards to the release of the active ingredient from all these preparations. The effect of pH and different polymers used was furthermore determined on the oil powders and their respective redispersed oil powders, with regards to their dermal and transdermal deliveries. Transdermal delivery and skin uptake were investigated on specifically selected powders only, based on the outcomes of the oil powder characterisation and release data. The qualifying formulations were chitosan pH 4, 5 and 6, whey and carrageenan pH 6 oil powders, together with their respective redispersed oil powders in water. Human abdominal skin was dermatomed (thickness 400 μm) for use in the diffusion studies. Franz-type diffusion cells were used over a period of 24 hours. The results of the membrane release studies indicated that the oil powders had achieved a significantly higher release than their respective redispersed oil powders. The release of salicylic acid from the redispersed oil powders and from their respective emulsions was similar. The transdermal delivery test outcomes showed that the effect of pH could have been influenced by the degree of ionisation, resulting in a decrease in permeation with increasing ionisation of salicylic acid, in accordance with the pH partition hypothesis. Furthermore, biopolymers, such as chitosan had demonstrated a penetration enhancing effect, which had led to the enhanced dermal and transdermal delivery of salicylic acid. A correlation was also found between the powder particle size and transdermal delivery. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2014

Oil powders

Whey proteins

Chitosan

Carrageenan

Topical delivery

Release

Salicylic acid

Olie-poeiers

Wei-proteïen

Kitosaan

Karrageenan

Topikale aflewering

Vrystelling

Salisielsuur

Pheroid technology for the topical delivery of depigmenting agents transforming growth factor–ß1 and tumor necrosis factor–a / Berenice Campbell

Campbell, Berenice

January 2010

Pigmentation disorders occur in multiple conditions (Hakozaki et al., 2006:105). Although many modalities of treatments are available, none are completely satisfactory (Briganti et al., 2003:101). Two cytokines normally present in the skin, transforming growth factor–beta1 (TGF–81) and tumour necrosis factor–alpha (TNF–9), have been shown to inhibit melanin synthesis (Martinez–Esparza, 2001:972). The stratum corneum has been commonly accepted as the main barrier to percutaneous absorption. Many techniques have been applied to overcome this barrier properties and to enhance penetration with varying success (Pellet et al., 1997:92). The objective of this study was to investigate the topical delivery of the above mentioned peptide drugs with aid of the Pheroid drug delivery system. Pheroid technology is a delivery system that promotes the absorption and increases the efficacy of dermatological, biological and oral medicines in various pharmacological groups (Grobler et al., 2008:4). Pheroid entraps drugs with high efficiency and delivers them with remarkable speed to target sites (Grobler, 2004:4). In order to avoid degradation of these peptides, bestatin hydrochloride (an aminopeptidase inhibitor), was used (Lkhagvaa et al., 2008:386). Topical drug delivery was achieved by means of vertical Franz cell diffusion studies performed over a 6 and 12 h period. ELISA (enzyme linked immunosorbent assay) detection was used to detect cytokine concentrations. Entrapped cytokine solutions were monitored by confocal laser scanning microscopy (CLSM). Upon removal of donor and receptor compartments, skin discs were subjected to tape stripping in order to establish the amount of active present within the stratum corneum and epidermis as well as the remaining dermis (Pellet et al., 1997:92). When comparing the two studies with each other, it is evident that the diffused concentration values obtained with PBS (phosphate buffer solution, pH 7.4) was lower than that obtained with the Pheroid drug delivery system. Both cytokine concentrations were successfully delivered topically as a minimum of concentrations for both actives were detected. This positive result was confirmed as well by the amount of active detected in stratum corneum–epidermis and epidermis–dermis solutions. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Pigmentation

Topical delivery

Pheroid

Transforming growth factor-beta1

Tumour necrosis factor-alpha

Bestatin

Tape stripping

Pigmentasie

Topikale aflewering

Transformerende groei faktor-beta1

Tumor nekrosis faktor-alpha

Bestatien

Bandstroping

Pheroid technology for the topical delivery of depigmenting agents transforming growth factor–ß1 and tumor necrosis factor–a / Berenice Campbell

Campbell, Berenice

January 2010

Pigmentation disorders occur in multiple conditions (Hakozaki et al., 2006:105). Although many modalities of treatments are available, none are completely satisfactory (Briganti et al., 2003:101). Two cytokines normally present in the skin, transforming growth factor–beta1 (TGF–81) and tumour necrosis factor–alpha (TNF–9), have been shown to inhibit melanin synthesis (Martinez–Esparza, 2001:972). The stratum corneum has been commonly accepted as the main barrier to percutaneous absorption. Many techniques have been applied to overcome this barrier properties and to enhance penetration with varying success (Pellet et al., 1997:92). The objective of this study was to investigate the topical delivery of the above mentioned peptide drugs with aid of the Pheroid drug delivery system. Pheroid technology is a delivery system that promotes the absorption and increases the efficacy of dermatological, biological and oral medicines in various pharmacological groups (Grobler et al., 2008:4). Pheroid entraps drugs with high efficiency and delivers them with remarkable speed to target sites (Grobler, 2004:4). In order to avoid degradation of these peptides, bestatin hydrochloride (an aminopeptidase inhibitor), was used (Lkhagvaa et al., 2008:386). Topical drug delivery was achieved by means of vertical Franz cell diffusion studies performed over a 6 and 12 h period. ELISA (enzyme linked immunosorbent assay) detection was used to detect cytokine concentrations. Entrapped cytokine solutions were monitored by confocal laser scanning microscopy (CLSM). Upon removal of donor and receptor compartments, skin discs were subjected to tape stripping in order to establish the amount of active present within the stratum corneum and epidermis as well as the remaining dermis (Pellet et al., 1997:92). When comparing the two studies with each other, it is evident that the diffused concentration values obtained with PBS (phosphate buffer solution, pH 7.4) was lower than that obtained with the Pheroid drug delivery system. Both cytokine concentrations were successfully delivered topically as a minimum of concentrations for both actives were detected. This positive result was confirmed as well by the amount of active detected in stratum corneum–epidermis and epidermis–dermis solutions. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

Pigmentation

Topical delivery

Pheroid

Transforming growth factor-beta1

Tumour necrosis factor-alpha

Bestatin

Tape stripping

Pigmentasie

Topikale aflewering

Transformerende groei faktor-beta1

Tumor nekrosis faktor-alpha

Bestatien

Bandstroping