Effects of dietary components upon breast epithelial cell physiology

Tyers, Nicola Mary

January 1996

No description available.

615.1

Evening primrose oil; Breast pain

Oxidative stability of stripped and non-stripped borage and evening primrose oils and their oil-in-water emulsions /

Khan, Muhammad Ahmad,

January 1999

Thesis (M.Sc.), Memorial University of Newfoundland, 1999. / Restricted until June 2000. Bibliography: leaves [126]-142.

Formulation and evaluation of different transdermal delivery systems with flurbiprofen as marker / Lindi van Zyl.

Van Zyl, Lindi

January 2012

The aim of this study was to investigate the effect of different penetration enhancers containing essential fatty acids (EFAs) on the transdermal delivery of flurbiprofen. Flurbiprofen was used as a marker / model compound. Fatty acids were chosen as penetration enhancers for their ability to reversibly increase skin permeability through entering the lipid bilayers and disrupting their ordered domains. Fatty acids are natural, non-toxic compounds (Karande & Mitragotri, 2009:2364). Evening primrose oil, vitamin F and Pheroid™ technology all contain fatty acids and were compared using a cream based-formulation. This selection was to ascertain whether EFAs exclusively, or EFAs in a delivery system, would have a significant increase in the transdermal delivery of a compound. For an active pharmaceutical ingredient (API) to be effectively delivered transdermally, it has to be soluble in lipophilic, as well as hydrophilic mediums (Naik et al., 2000:319; Swart et al., 2005:72). This is due to the intricate structure of the skin, where the stratum corneum (outermost layer) is the primary barrier, which regulates skin transport (Barry, 2001:102; Moser et al., 2001:103; Venus et al., 2010:469). Flurbiprofen is highly lipophilic (log P = 4.24) with poor aqueous solubility. It has a molecular weight lower than 500 g/mol indicating that skin permeation may be possible, though the high log P indicates that some difficulty is to be expected (Dollery, 1999:F126; Hadgraft, 2004:292; Swart et al., 2005:72; Karande & Mitragotri, 2009:2363; Drugbank, 2012). In vitro transdermal diffusion studies (utilising vertical Franz diffusion cells) were conducted, using donated abdominal skin from Caucasian females. The studies were conducted over 12 h with extractions of the receptor phase every 2 h to ensure sink conditions. Prior to skin diffusion studies, membrane release studies were performed to determine whether the API was released from the formulation. Membrane release studies were conducted over 6 h and extractions done hourly. Tape stripping experiments were performed on the skin circles after 12 h diffusion studies to determine the concentration flurbiprofen present in the stratum corneum and dermisepidermis. The flurbiprofen concentrations present in the samples were determined using high performance chromatography and a validated method. Membrane release results indicated the following rank order for flurbiprofen from the different formulations: vitamin F > control > evening primrose oil (EPO) >> Pheroid™. The control formulation contained only flurbiprofen and no penetration enhancers. Skin diffusion results on the other hand, indicated that flurbiprofen was present in the stratum corneum and the dermisepidermis. The concentration flurbiprofen present in the receptor phase of the Franz cells (representing human blood) followed the subsequent rank order: EPO > control > vitamin F >> Pheroid™. All the formulations stipulated a lag time shorter than that of the control formulation (1.74 h), with the EPO formulation depicting the shortest (1.36 h). The control formulation presented the highest flux (8.41 μg/cm2.h), with the EPO formulation following the closest (8.12 μg/cm2.h). It could thus be concluded that fatty acids exclusively, rather than in a delivery system, had a significant increase in the transdermal delivery of flurbiprofen. / Thesis (MSc (Pharmaceutics))--North-West University, Potchefstroom Campus, 2013.

Fatty acid

transdermal

flurbiprofen

vitamin F

evening primrose oil

Pheroid™

vetsure

transdermaal

flurbiprofeen

vitamien F

nagkersolie

Formulation and evaluation of different transdermal delivery systems with flurbiprofen as marker / Lindi van Zyl.

Van Zyl, Lindi

January 2012

The aim of this study was to investigate the effect of different penetration enhancers containing essential fatty acids (EFAs) on the transdermal delivery of flurbiprofen. Flurbiprofen was used as a marker / model compound. Fatty acids were chosen as penetration enhancers for their ability to reversibly increase skin permeability through entering the lipid bilayers and disrupting their ordered domains. Fatty acids are natural, non-toxic compounds (Karande & Mitragotri, 2009:2364). Evening primrose oil, vitamin F and Pheroid™ technology all contain fatty acids and were compared using a cream based-formulation. This selection was to ascertain whether EFAs exclusively, or EFAs in a delivery system, would have a significant increase in the transdermal delivery of a compound. For an active pharmaceutical ingredient (API) to be effectively delivered transdermally, it has to be soluble in lipophilic, as well as hydrophilic mediums (Naik et al., 2000:319; Swart et al., 2005:72). This is due to the intricate structure of the skin, where the stratum corneum (outermost layer) is the primary barrier, which regulates skin transport (Barry, 2001:102; Moser et al., 2001:103; Venus et al., 2010:469). Flurbiprofen is highly lipophilic (log P = 4.24) with poor aqueous solubility. It has a molecular weight lower than 500 g/mol indicating that skin permeation may be possible, though the high log P indicates that some difficulty is to be expected (Dollery, 1999:F126; Hadgraft, 2004:292; Swart et al., 2005:72; Karande & Mitragotri, 2009:2363; Drugbank, 2012). In vitro transdermal diffusion studies (utilising vertical Franz diffusion cells) were conducted, using donated abdominal skin from Caucasian females. The studies were conducted over 12 h with extractions of the receptor phase every 2 h to ensure sink conditions. Prior to skin diffusion studies, membrane release studies were performed to determine whether the API was released from the formulation. Membrane release studies were conducted over 6 h and extractions done hourly. Tape stripping experiments were performed on the skin circles after 12 h diffusion studies to determine the concentration flurbiprofen present in the stratum corneum and dermisepidermis. The flurbiprofen concentrations present in the samples were determined using high performance chromatography and a validated method. Membrane release results indicated the following rank order for flurbiprofen from the different formulations: vitamin F > control > evening primrose oil (EPO) >> Pheroid™. The control formulation contained only flurbiprofen and no penetration enhancers. Skin diffusion results on the other hand, indicated that flurbiprofen was present in the stratum corneum and the dermisepidermis. The concentration flurbiprofen present in the receptor phase of the Franz cells (representing human blood) followed the subsequent rank order: EPO > control > vitamin F >> Pheroid™. All the formulations stipulated a lag time shorter than that of the control formulation (1.74 h), with the EPO formulation depicting the shortest (1.36 h). The control formulation presented the highest flux (8.41 μg/cm2.h), with the EPO formulation following the closest (8.12 μg/cm2.h). It could thus be concluded that fatty acids exclusively, rather than in a delivery system, had a significant increase in the transdermal delivery of flurbiprofen. / Thesis (MSc (Pharmaceutics))--North-West University, Potchefstroom Campus, 2013.

Fatty acid

transdermal

flurbiprofen

vitamin F

evening primrose oil

Pheroid™

vetsure

transdermaal

flurbiprofeen

vitamien F

nagkersolie

Vliv vybraných aktivních látek na vlastnosti gelových a emulzních kosmetických základů / Influence of selected active compounds for properties of gel and emulsion cosmetics

Gardoňová, Lenka

January 2009

This master‘s thesis studies problems of chosen active substances in cosmetic emulsions and gels. There is their main characteristics – distribution and properties of cosmetic emulsions and gels, preparation of the active substances, effects on the skin and conditions, which could them influence. In experimental part, preparation of gels and emulsions bases was described which were than enriched by active substances - evening primrose oil, hemp oil, Salvia officinalis extract, Symphytum officinale extract and sea salt. Properties of these cosmetic gels and emulsions bases with the addition of active substances depend on temperature and method of storage, amount of light exposure, method of preparation and another conditions. Action of these factors can cause changes of the stability, thereby the cosmetics effects on the skin can be lost. On the bases of performed rheology measurements (oscillation and flow measurements), pH measurements and sensory analysis were determined, if the properties of examined samples were changed. The measurement was performed in the certain time intervals and the properties were evaluated like at laboratory temperature 23±2 °C, so after exposure to temperature regime 37 °C in thermoregulator. On the basis of performed measurements, there was determined, that gel base with addition of Symphytum officinale extract had the most stability properties.