Parenting during toddlerhood determinants, stability, and consequences /

Verhoeven, Johanna Catharina Theresia,

January 1900

Proefschrift Universiteit van Amsterdam. / Met samenvatting in het Nederlands.

Uit het oog, uit het hart? stabiliteit en verandering in persoonlijke relaties /

Busschbach, Jooske Tanna van.

January 1996

Proefschrift Rijksuniversiteit Groningen. / Met lit. opg. - Met samenvatting in het Engels.

Interpersoonlijke relaties. Stabiliteit.

Stability of almost parallel boundary layer flows

Stijn, Theodorus Leonardus van.

January 1983

Thesis (doctoral)--Rijksuniversiteit te Groningen, 1983. / Summary in Dutch. Includes bibliographical references.

Towards operational disequilibrium macro economics

Siebrand, Jan Cornelis.

January 1979

Thesis (Ph. D.)--Erasmus Universiteit, Rotterdam, 1979. / Summary in Dutch. Includes indexes. Includes bibliographical references (p. 158-161).

Index and stability in bimatrix games a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London. / Includes bibliographical references and index.

The development of an oral single dose emulgel formulation for Pheroid® technology / Charlene Ethel Ludick

Ludick, Charlene Ethel

January 2014

Dosage forms have been developed over the years for various applications. The dosage form consists of the active drug in combination with pharmaceutical excipients. The pharmaceutical excipients solubilise, suspend, thicken, dilute, emulsify, stabilise, preserve, colour and flavour medicinal agents into efficacious and appealing dosage forms. The dosage form under investigation in this study is of the oral type. The Pheroid® is a unique drug delivery system which consists of an oil-in-water emulsion system. Emulsion based drug systems provide a suitable medium for the delivery of both hydrophobic and hydrophilic drugs which can be incorporated into its oil or water phase for delivery to the site of action. These advantages make them more efficient as dosage form. Emulgels are either emulsion of oil-in-water or water-in-oil type, which is gelled by mixing with gelling agents. Incorporation of emulsion into gel increases its stability and makes it a dual control release system. The presence of the gel phase makes it a non-greasy formulation which favours good patient compliance. A strategy followed to improve the stability of the emulgel system is the packaging of the formula into single dose sachets to protect the product against physical and chemical breakdown during patient usage. All factors such as selection of gelling agent, preservatives and formulation methods influencing the stability and efficacy of Pheroid® emulgel are discussed. In this study, three different emulsifiers were added to the formula and the analysis of visual appearance, pH measurements, rheological studies, light microscopy and confocol laser scanning microscopy (CLSM) will provide an insight to the potential usage of emulgel as drug delivery system. A range of para-hydroxybenzoate esters was tested in the Pheroid® emulgel and the most suitable candidate chosen for further accelerated stability testing. It was thus possible to prepare a single dose emulgel with Carbopol® 934P (0.2% w/v) as an emulsifier, with Nipastat® (0.175% w/v) and PG (10% v/v) as preservatives into a stable dosage form suitable for further product development. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2014

Development

Oral

Dosage form

Emulgel

Pheroid®

Stability

Nipastat®

Carbopol® 934P

Ontwikkeling

Orale

Doseervorm

Stabiliteit

The development of an oral single dose emulgel formulation for Pheroid® technology / Charlene Ethel Ludick

Ludick, Charlene Ethel

January 2014

Dosage forms have been developed over the years for various applications. The dosage form consists of the active drug in combination with pharmaceutical excipients. The pharmaceutical excipients solubilise, suspend, thicken, dilute, emulsify, stabilise, preserve, colour and flavour medicinal agents into efficacious and appealing dosage forms. The dosage form under investigation in this study is of the oral type. The Pheroid® is a unique drug delivery system which consists of an oil-in-water emulsion system. Emulsion based drug systems provide a suitable medium for the delivery of both hydrophobic and hydrophilic drugs which can be incorporated into its oil or water phase for delivery to the site of action. These advantages make them more efficient as dosage form. Emulgels are either emulsion of oil-in-water or water-in-oil type, which is gelled by mixing with gelling agents. Incorporation of emulsion into gel increases its stability and makes it a dual control release system. The presence of the gel phase makes it a non-greasy formulation which favours good patient compliance. A strategy followed to improve the stability of the emulgel system is the packaging of the formula into single dose sachets to protect the product against physical and chemical breakdown during patient usage. All factors such as selection of gelling agent, preservatives and formulation methods influencing the stability and efficacy of Pheroid® emulgel are discussed. In this study, three different emulsifiers were added to the formula and the analysis of visual appearance, pH measurements, rheological studies, light microscopy and confocol laser scanning microscopy (CLSM) will provide an insight to the potential usage of emulgel as drug delivery system. A range of para-hydroxybenzoate esters was tested in the Pheroid® emulgel and the most suitable candidate chosen for further accelerated stability testing. It was thus possible to prepare a single dose emulgel with Carbopol® 934P (0.2% w/v) as an emulsifier, with Nipastat® (0.175% w/v) and PG (10% v/v) as preservatives into a stable dosage form suitable for further product development. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2014

Development

Oral

Dosage form

Emulgel

Pheroid®

Stability

Nipastat®

Carbopol® 934P

Ontwikkeling

Orale

Doseervorm

Stabiliteit

Formulation of 5–Fluorouracil for transdermal delivery / Vermaas M.

Vermaas, Monique

January 2010

Non–melanoma skin cancer (NMSC) is the most common human malignancy and it is estimated that over 1.3 million cases are diagnosed each year in the United States (Neville et al., 2007:462). There are three main types of NMSC, which include basal–cell carcinoma (BCC), squamous–cell carcinoma (SCC) and cutaneous malignant melanoma (CMM). Exposure to ultra–violet (UV) radiation plays a major role in the aetiology of these three skin cancer types (Franceschi et al., 1996:24). 5–Fluorouracil is an antineoplastic pyrimidine analogue that functions as an anti–metabolite. It interferes with DNA (deoxyribonucleic acid), and to a lesser extent, with RNA (ribonucleic acid) synthesis by blocking the methylation of deoxyuridylic acid into thymidylic acid. It is used in topical preparations for the treatment of actinic keratosis (AK) and NMSC. The cure rate with topical 5–fluorouracil is partly reflected by the degree of erythema, erosions, and eventual crusting which develop at the sites of treatment. This reaction often attains the best clinical response, but in turn, frustrates patients, which may lead to patient incompliance (McGillis & Fein, 2004:175). Due to the hydrophilic nature of 5–fluorouracil, the transdermal permeation through the lipophilic stratum corneum is very low and trivial (Singh et al., 2005:99). Transdermal drug delivery is the delivery of a chemical substance across the skin to reach the systemic circulation (Prausnitz et al., 2004:115). This unique drug transport mechanism suggests many advantages that include safety, patient compliance, user–friendliness, efficiency and non–invasiveness (Fang et al., 2004:241). The stratum corneum is a specialised structure that forms part of several anatomically distinct layers of the skin. Seeing that it is the outermost layer, it provides protection to the skin. It is known as the main barrier to percutaneous absorption of compounds, as well as water loss, through the skin (Bouwstra et al., 2003:4). This study focussed on the formulation of six different types of semisolid formulations, containing 0.5% 5–fluorouracil. The formulations included: a cream, Pheroid cream, emulgel, Pheroid emulgel, lotion and Pheroid lotion. Pheroid refers to a delivery system which was incorporated in the formulations in an attempt to enhance the penetration of 5–fluorouracil into the skin. This drug delivery system consists of unique and stable lipid–based submicronand micron–sized structures, formulated in an emulsion. The dispersed Pheroid structures largely comprise of natural essential fatty acids, which have an affinity for the cell membranes of the human body (Grobler et al., 2008:284–285). These formulations were manufactured in large quantities and stored at three different temperatures, each with their respective relative humidity (RH): 25 °C/60% RH, 30 °C/60% RH and 40 °C/70% RH, for a period of six months. Stability tests were conducted on each of these formulations on the day of manufacture (month 0), and then after 1, 2, 3 and 6 months. The tests included: determination of concentration of the analytes (assay) by means of high performance liquid chromatography (HPLC); determination of zeta–potential and droplet size; pH measurement; viscosity; mass loss determination; physical appearance; and particle size distribution. Franz cell skin diffusion tests were performed with these six 5–fluorouracil containing semisolid formulations (0.5%), as well as with a 0.5% Pheroid solution, 0.5% non–Pheroid solution. A 5.0% Pheroid solution and a 5.0% non–Pheroid solution were also prepared in order to compare the skin diffusion test results to a 5.0% commercially available ointment. The data of the 0.5% formulations and solutions, as well as the 5.0% solutions and commercial ointment, were statistically compared and those formulations (and solutions) that yielded the best results, with regard to % diffused, epidermis and dermis concentrations, were identified. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

5-fluorouracil

Skin cancer

Transdermal delivery

Formulation

Stability

5-fluorourasiel

Velkanker

Transdermale aflewering

Formulering

Stabiliteit

Formulation of 5–Fluorouracil for transdermal delivery / Vermaas M.

Vermaas, Monique

January 2010

Non–melanoma skin cancer (NMSC) is the most common human malignancy and it is estimated that over 1.3 million cases are diagnosed each year in the United States (Neville et al., 2007:462). There are three main types of NMSC, which include basal–cell carcinoma (BCC), squamous–cell carcinoma (SCC) and cutaneous malignant melanoma (CMM). Exposure to ultra–violet (UV) radiation plays a major role in the aetiology of these three skin cancer types (Franceschi et al., 1996:24). 5–Fluorouracil is an antineoplastic pyrimidine analogue that functions as an anti–metabolite. It interferes with DNA (deoxyribonucleic acid), and to a lesser extent, with RNA (ribonucleic acid) synthesis by blocking the methylation of deoxyuridylic acid into thymidylic acid. It is used in topical preparations for the treatment of actinic keratosis (AK) and NMSC. The cure rate with topical 5–fluorouracil is partly reflected by the degree of erythema, erosions, and eventual crusting which develop at the sites of treatment. This reaction often attains the best clinical response, but in turn, frustrates patients, which may lead to patient incompliance (McGillis & Fein, 2004:175). Due to the hydrophilic nature of 5–fluorouracil, the transdermal permeation through the lipophilic stratum corneum is very low and trivial (Singh et al., 2005:99). Transdermal drug delivery is the delivery of a chemical substance across the skin to reach the systemic circulation (Prausnitz et al., 2004:115). This unique drug transport mechanism suggests many advantages that include safety, patient compliance, user–friendliness, efficiency and non–invasiveness (Fang et al., 2004:241). The stratum corneum is a specialised structure that forms part of several anatomically distinct layers of the skin. Seeing that it is the outermost layer, it provides protection to the skin. It is known as the main barrier to percutaneous absorption of compounds, as well as water loss, through the skin (Bouwstra et al., 2003:4). This study focussed on the formulation of six different types of semisolid formulations, containing 0.5% 5–fluorouracil. The formulations included: a cream, Pheroid cream, emulgel, Pheroid emulgel, lotion and Pheroid lotion. Pheroid refers to a delivery system which was incorporated in the formulations in an attempt to enhance the penetration of 5–fluorouracil into the skin. This drug delivery system consists of unique and stable lipid–based submicronand micron–sized structures, formulated in an emulsion. The dispersed Pheroid structures largely comprise of natural essential fatty acids, which have an affinity for the cell membranes of the human body (Grobler et al., 2008:284–285). These formulations were manufactured in large quantities and stored at three different temperatures, each with their respective relative humidity (RH): 25 °C/60% RH, 30 °C/60% RH and 40 °C/70% RH, for a period of six months. Stability tests were conducted on each of these formulations on the day of manufacture (month 0), and then after 1, 2, 3 and 6 months. The tests included: determination of concentration of the analytes (assay) by means of high performance liquid chromatography (HPLC); determination of zeta–potential and droplet size; pH measurement; viscosity; mass loss determination; physical appearance; and particle size distribution. Franz cell skin diffusion tests were performed with these six 5–fluorouracil containing semisolid formulations (0.5%), as well as with a 0.5% Pheroid solution, 0.5% non–Pheroid solution. A 5.0% Pheroid solution and a 5.0% non–Pheroid solution were also prepared in order to compare the skin diffusion test results to a 5.0% commercially available ointment. The data of the 0.5% formulations and solutions, as well as the 5.0% solutions and commercial ointment, were statistically compared and those formulations (and solutions) that yielded the best results, with regard to % diffused, epidermis and dermis concentrations, were identified. / Thesis (M.Sc. (Pharmaceutics))--North-West University, Potchefstroom Campus, 2011.

5-fluorouracil

Skin cancer

Transdermal delivery

Formulation

Stability

5-fluorourasiel

Velkanker

Transdermale aflewering

Formulering

Stabiliteit

Index and stability in bimatrix games : a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London.