Global ETD Search

1	Avaliação toxicológica reprodutiva da resina de Aloe ferox miller em ratas wistar Maria de Lima Maranhâo, Hélida 31 January 2010 (has links) Made available in DSpace on 2014-06-12T16:25:39Z (GMT). No. of bitstreams: 2 arquivo1127_1.pdf: 1310738 bytes, checksum: 00b328f05b9311ebd934646422c35f4f (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2010 / Aloe ferox Miller, pertencente à família Liliaceae, é originária da Província do Cabo Oriental na África do Sul. No Brasil, a planta é conhecida como babosa e os maiores produtores encontram-se no interior de São Paulo (particularmente no município de Jarinu), Santa Catarina e na região Nordeste. Sendo esta última, a que possui as melhores condições de plantio. Ela consiste em um arbusto perene arborescente típico de climas secos e quentes, possui folhas alongadas e pontiagudas, e é constituída em duas partes: gel e látex. A resina de Aloe ferox é um resíduo sólido obtido pela evaporação do látex que escorre do corte transversal de suas folhas. Na medicina popular, dentre outras aplicações, a resina da planta é usada no tratamento da constipação. Os efeitos da administração oral de A. ferox foram investigados sobre a fertilidade, prenhez e desenvolvimento pós-natal da prole de ratas Wistar. A aloína presente na resina foi identificada por cromatografia em camada delgada e os derivados hidroxiantracênicos expressos como aloína foram quantificados por espectrofotometria. A resina na forma de pó foi dissolvida em glicerina 40% (v/v). O estudo foi realizado em três períodos, cada um contendo cinco grupos de ratas prenhes (n=8- 9/grupo), totalizando 15 grupos randomicamente formados. Os grupos 1 e 2 (grupos controle) receberam água destilada e solução de glicerina 40% (v/v), respectivamente, enquanto os outros foram tratados oralmente com A. ferox nas doses de 0,1, 0,5 e 2,5 g/kg. No primeiro período, o tratamento foi administrado do 1º ao 6º dia (período de pré-implantação - PP) e o segundo, do 7º ao 14º dia (período de organogênese - PO). No 20º dia de prenhez, as ratas foram laparotomizadas para avaliação dos parâmetros reprodutivos. No último período, as ratas prenhes foram tratadas oralmente com as mesmas doses durante toda a prenhez e os parâmetros maternos e os da prole foram avaliados. A aloína (Rf 0,35) foi identificada e a porcentagem dos derivados hidroxiantracênicos expressos como aloína foi 33.5%. Durante o PP houve diminuição no ganho de massa corporal materna (p < 0,05) em todas as doses. Reduções também foram observadas em alguns parâmetros maternos (massas da placenta) e fetais (comprimento e massa relativa) nas doses de 0,5 e 2,5 g/kg quando comparado aos grupos controle. No PO, a redução no ganho de massa corporal materna foi observada apenas no tratamento com a maior dose. Entretanto, outros parâmetros como massas dos fetos, da placenta e dos ovários foram alterados em todas as doses avaliadas. Durante o período integral da gestação houve aumento apenas na massa corporal e comprimento dos conceptos no 7º e 21º dias de vida pós-natal, na maior dose. Os parâmetros comportamentais da prole não foram alterados. Dessa forma conclui-se que o uso da glicerina como solvente não interferiu nos parâmetros reprodutivos analisados no estudo. Embora alguns parâmetros tenham sido alterados pelo tratamento com A. ferox, o desenvolvimento normal da prole não foi influenciado por ele. Mas, o tratamento com a maior dose de A. ferox sugere possível toxicidade materna devido ao provável efeito abortivo obtido com essa dose, mesmo sem causar morte de ratas prenhes e malformações fetais. Nesse sentido, estudos posteriores devem ser conduzidos a fim de assegurar o uso dessa planta durante a gestação humana Aloe ferox Miller Aloína Toxicologia Prenhez Prole
2	Combining chemical permeation enhancers to obtain synergistic effects / Trizel du Toit Du Toit, Trizel January 2014 (has links) The oral route of administration remains the preferred route of administrating drugs due to patient acceptance and compliance. Therapeutic proteins are currently mainly administered by means of the parenteral route because of its low intestinal epithelial permeation capability. The major challenges for oral delivery of proteins and peptides are pre-systemic enzymatic degradation and poor penetration of the intestinal mucosa. The latter can be overcome by including safe and effective absorption enhancers in dosage forms. Aloe vera, Aloe ferox and Aloe marlothii gel materials as well as N-trimethyl chitosan chloride (TMC) were shown to be capable of increasing peptide drug transport across in vitro models such as Caco-2 cell monolayers. The purpose of this study is to investigate binary combinations of chemical drug absorption enhancers and to determine if synergistic drug absorption enhancement effects exist. A. vera, A. ferox and A. marlothii leaf gel materials as well as with N-trimethyl chitosan chloride (TMC) were combined in different ratios and their effects on the transepithelial electrical resistance (TEER) as well as the transport of FITC-dextran across Caco-2 cell monolayers were measured. The isobole method was applied to determine the type of interaction that exists between the absorption enhancers combinations. The TEER results showed synergism existed for the combinations between A. vera and A. marlothii, A. marlothii and A. ferox as well as A. vera and TMC. Antagonism interactions also occurred and can probably be explained by chemical reactions between the chemical permeation enhancers such as complex formation. In terms of FITC-dextran transport, synergism was found for combinations between A. vera and A. marlothii, A. marlothii and A. ferox, A. vera and TMC, A. ferox and TMC and A. marlothii and TMC, whereas antagonism was observed for A. vera and A. ferox. The combinations where synergism was obtained have the potential to be used as effective drug absorption enhancers at lower concentrations compared to single components. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2015 Absorption enhancer Aloe vera Aloe ferox Aloe marlothii Synergism Isobole
3	Combining chemical permeation enhancers to obtain synergistic effects / Trizel du Toit Du Toit, Trizel January 2014 (has links) The oral route of administration remains the preferred route of administrating drugs due to patient acceptance and compliance. Therapeutic proteins are currently mainly administered by means of the parenteral route because of its low intestinal epithelial permeation capability. The major challenges for oral delivery of proteins and peptides are pre-systemic enzymatic degradation and poor penetration of the intestinal mucosa. The latter can be overcome by including safe and effective absorption enhancers in dosage forms. Aloe vera, Aloe ferox and Aloe marlothii gel materials as well as N-trimethyl chitosan chloride (TMC) were shown to be capable of increasing peptide drug transport across in vitro models such as Caco-2 cell monolayers. The purpose of this study is to investigate binary combinations of chemical drug absorption enhancers and to determine if synergistic drug absorption enhancement effects exist. A. vera, A. ferox and A. marlothii leaf gel materials as well as with N-trimethyl chitosan chloride (TMC) were combined in different ratios and their effects on the transepithelial electrical resistance (TEER) as well as the transport of FITC-dextran across Caco-2 cell monolayers were measured. The isobole method was applied to determine the type of interaction that exists between the absorption enhancers combinations. The TEER results showed synergism existed for the combinations between A. vera and A. marlothii, A. marlothii and A. ferox as well as A. vera and TMC. Antagonism interactions also occurred and can probably be explained by chemical reactions between the chemical permeation enhancers such as complex formation. In terms of FITC-dextran transport, synergism was found for combinations between A. vera and A. marlothii, A. marlothii and A. ferox, A. vera and TMC, A. ferox and TMC and A. marlothii and TMC, whereas antagonism was observed for A. vera and A. ferox. The combinations where synergism was obtained have the potential to be used as effective drug absorption enhancers at lower concentrations compared to single components. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2015 Absorption enhancer Aloe vera Aloe ferox Aloe marlothii Synergism Isobole
4	An investigation of the anti-oxidant, antimicrobial and wound healing properties of whole leave juice and gelpowders of Aloe ferox and Aloe vera Koma, Seboeng Portia January 2014 (has links) Aloe vera is found in the Northern Africa and the Mediterranean areas while Aloe ferox is found in Southern Africa. Aloe ferox and Aloe vera prepared by different methods have been shown to possess the following properties: Stimulatory effects on different cell types (e.g human fibroblasts, rat adrenal cells, calf pulmonary artery endothelial cells etc.), wound healing, antimicrobial, antioxidant, antidiabetics etc. In this study solvent extracted gel powders and whole leaf juice of Aloe ferox and Aloe vera prepared specifically without bitter components were tested. The aim was to assess if the samples could be used orally for therapeutic purposes with regards to wound healing, antimicrobial and antioxidant properties avoiding the laxative effects of the bitter components. The following were used: Human lymphocytes cells to determine cytotoxicity effects, chicken fibroblasts cells for potential wound healing properties, Candida albicans, Staphylococcus aureus and Pseudomona aeruginosa microorganisms for antimicrobial properties and ORAC, DPPH, TEAC and chemiluminescence assays for antioxidant properties. Most of the results obtained were contrary to the bulk of the literature available about these beneficial plants’ extract. Bitter components have been reported to stimulate different cell types and to have antimicrobial and antioxidant properties. Thus the removal has been suggested as the main reason why the effects of the tested extracts did not correspond to much of the reported literature. From the results obtained from various aspects of this study it could be concluded that the removal of bitter components contributed to the apparently contradictory results. From this study it might be concluded that the four Aloe extract samples tested could not be used therapeutically for wound healing, antimicrobial or antioxidant properties. However they could still be effective for cosmetics purposes as obtained from the literature. / Dissertation (MSc)--University of Pretoria, 2014. / gm2014 / Pharmacology / unrestricted Aloe vera Aloe ferox Wound healing Antimicrobial Antioxidant Antidiabetics UCTD
5	Preparation and evaluation of multiple-unit solid oral dosage forms containing chemical permeation enhancing agents / Elmarie Kleynhans Kleynhans, Elmarie January 2014 (has links) The most popular and convenient route of drug administration remains the oral route, however, protein and peptide drugs such as insulin have poor membrane permeability and stability in the gastrointestinal tract. Absorption enhancers can be added to drug delivery systems to overcome the epithelial cell membrane permeability problem. Although previous studies have shown that aloe leaf materials improve the transport of drugs across intestinal epithelia, their performance in solid oral dosage forms has not yet been investigated. Beads containing insulin and each of the selected absorption enhancers (i.e. Aloe ferox, Aloe marlothii and Aloe vera gel materials) were produced by extrusion-spheronisation, using a full factorial design to optimise the formulations based on transepithelial electrical resistance (TEER) reduction of Caco-2 cell monolayers as response. The optimum bead formulations were evaluated in terms of friability, mass variation, particle surface texture, shape, size and dissolution. The transport of insulin across excised pig intestinal tissue from the optimised bead formulations was determined over a 2 h period. The samples obtained from the transport studies were analysed for insulin content by means of high-performance liquid chromatography (HPLC). The results showed that the TEER reduction, as an indication of tight junction modulation, obtained for the bead formulations containing aloe materials was concentration dependent. Furthermore, inclusion of croscarmellose sodium (Ac-di-sol®) as a disintegrant showed an enhanced TEER reduction effect in combination with the aloe gel materials. Dissolution profiles indicated that the beads containing aloe leaf materials in conjunction with insulin, released the insulin within an hour. In accordance with the TEER reduction results, the A. marlothii and A. vera materials containing beads showed similar increased insulin delivery across excised pig intestinal tissue, which was pronouncedly higher than that of the control group (insulin alone). It can be concluded that beads containing aloe leaf materials have high potential as effective delivery systems for protein therapeutics such as insulin via the oral route of administration. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2015 Oral route Insulin Absorption enhancers Aloe ferox Aloe marlothii Aloe vera Extrusion-spheronisation Transepithelial electrical resistance
6	Preparation and evaluation of multiple-unit solid oral dosage forms containing chemical permeation enhancing agents / Elmarie Kleynhans Kleynhans, Elmarie January 2014 (has links) The most popular and convenient route of drug administration remains the oral route, however, protein and peptide drugs such as insulin have poor membrane permeability and stability in the gastrointestinal tract. Absorption enhancers can be added to drug delivery systems to overcome the epithelial cell membrane permeability problem. Although previous studies have shown that aloe leaf materials improve the transport of drugs across intestinal epithelia, their performance in solid oral dosage forms has not yet been investigated. Beads containing insulin and each of the selected absorption enhancers (i.e. Aloe ferox, Aloe marlothii and Aloe vera gel materials) were produced by extrusion-spheronisation, using a full factorial design to optimise the formulations based on transepithelial electrical resistance (TEER) reduction of Caco-2 cell monolayers as response. The optimum bead formulations were evaluated in terms of friability, mass variation, particle surface texture, shape, size and dissolution. The transport of insulin across excised pig intestinal tissue from the optimised bead formulations was determined over a 2 h period. The samples obtained from the transport studies were analysed for insulin content by means of high-performance liquid chromatography (HPLC). The results showed that the TEER reduction, as an indication of tight junction modulation, obtained for the bead formulations containing aloe materials was concentration dependent. Furthermore, inclusion of croscarmellose sodium (Ac-di-sol®) as a disintegrant showed an enhanced TEER reduction effect in combination with the aloe gel materials. Dissolution profiles indicated that the beads containing aloe leaf materials in conjunction with insulin, released the insulin within an hour. In accordance with the TEER reduction results, the A. marlothii and A. vera materials containing beads showed similar increased insulin delivery across excised pig intestinal tissue, which was pronouncedly higher than that of the control group (insulin alone). It can be concluded that beads containing aloe leaf materials have high potential as effective delivery systems for protein therapeutics such as insulin via the oral route of administration. / MSc (Pharmaceutics), North-West University, Potchefstroom Campus, 2015 Oral route Insulin Absorption enhancers Aloe ferox Aloe marlothii Aloe vera Extrusion-spheronisation Transepithelial electrical resistance
7	Avaliação toxicológica pré-clínica e atividade laxantede Aloe ferox Miller Ribeiro Leite, Vanessa 31 January 2010 (has links) Made available in DSpace on 2014-06-12T16:27:15Z (GMT). No. of bitstreams: 2 arquivo1193_1.pdf: 802111 bytes, checksum: 2138eacdcd88ad8c201968b734c5b81f (MD5) license.txt: 1748 bytes, checksum: 8a4605be74aa9ea9d79846c1fba20a33 (MD5) Previous issue date: 2010 / Aloe ferox, Asphodelaceae, é uma planta que se desenvolve em terras com chuvas mais ou menos moderadas e secas e solos menos férteis; possui ampla distribuição em toda a África do Sul, tendo maior concentração nas Províncias do Cabo Leste e Oeste. No Brasil, esta planta é encontrada no interior de São Paulo, Santa Catarina e na região nordeste; sendo esta última a que possui melhores condições de cultivo. Aloe ferox é popularmente utilizada como laxante, porém existe uma carência de estudos referentes à eficácia de seu uso como laxante bem como de informações toxicológicas detalhadas sobre a espécie. Neste contexto, o trabalho teve como objetivo avaliar o efeito da resina de Aloe ferox Miller sobre o trânsito intestinal em ratos e investigar a segurança de seu uso. Para isso foram realizados o teste de motilidade intestinal em camundongos, nas doses de 0.05, 0.1 e 0.2 g/kg, teste de toxicidade aguda em ratos e avaliou-se a influência da administração crônica (13 semanas) por via oral do extrato da resina de Aloe ferox, nas doses de 0.1, 0.5 e 1.5 g/kg, sobre os parâmetros bioquímicos, hematológicos e morfológicos em ratos. Os resultados mostraram que na toxicidade aguda, Aloe ferox não produziu morte dos animais em doses de até 5 g/kg. Para a atividade laxante, observou-se que após 30 minutos da administração Aloe ferox aumentou a motilidade intestinal em camundongos em mais de 90% em todas as doses administradas. No entanto, a administração crônica promoveu alterações em vários parâmetros bioquímicos, hematológicos e morfológicos. No que se diz respeito aos parâmetros hematológicos, Aloe ferox, na dose de 1.5 g/kg induziu uma redução nos valores de eritrócitos, hematócrito e hemoglobina nos primeiros trinta dias de tratamento e aumento dos valores desses parâmetros no último mês de tratamento para ambos os sexos e promoveu o aumento do RDW em fêmeas tratadas com a mesma dose (1.5 g/kg). Com relação aos parâmetros bioquímicos, os animais tratados com Aloe ferox na dose de 1.5 g/kg sofreram uma redução nos níveis de creatinina e aumento de bilirrubina total e indireta em ambos os sexos. Nas fêmeas verificou-se uma redução nos níveis de HDL e triglicerídeos e aumento de bilirrubina direta. Os machos apresentaram aumento de fosfatase alcalina e ALT. A análise morfológica de vísceras, encéfalo e órgãos reprodutivos bem como a massa absoluta e relativa destes órgãos apresentou alterações nos animais que sobreviveram ao tratamento com Aloe ferox na dose de 1.5 g/kg. As principais alterações observadas foram massa absoluta e relativa diminuída do baço em fêmeas e do intestino nos machos. Os resultados encontrados nos levam a concluir que Aloe ferox é eficaz no tratamento da constipação intestinal, porém induz alterações significativas em vários parâmetros bioquímicos, hematológicos e morfológicos em ratos Wistar de ambos os sexos, indicando que a administração desta planta pode exercer efeito tóxico ao ser humano Aloe ferox Miller Atividade laxante Toxicidade aguda Toxicidade crônica Hematologia Bioquímica
8	A comparative study for the topical treatment of atopic dermatitis with Aloe ferox and Aloe vera in Balb/c mice Finberg, Marike Johanna January 2013 (has links) Atopic dermatitis (AD) typically develops in patients with a history of allergic ailments, and is characterised by an itchy, inflammatory skin condition with scaling, lichenification, papules, excoriations and pruritus. In AD patients a chronic relapsing inflammatory condition is seen, associated with IgE hyper production. AD flares are largely triggered by environmental factors. However, the exact etiology of AD is unclear and there is a pressing need for new treatment regimens as AD is a chronic condition and requires long term treatment. Historically Aloe has been used to treat skin conditions as well as a variety of other diseases. To further explore the pathogenesis and treatment of AD, Balb/c mice were sensitized and challenged with 2,4-dinitrochlorobenzene (DNCB) for atopic dermatitis induction. Thereafter, mice were treated with either Aloe ferox or Aloe vera applied daily on the dorsal skin for 10 consecutive days. A placebo gel was used for the control mice. Blood was collected at the end of the treatment period and serum IgE levels measured. Serum IgE levels were significantly lowered in the Aloe ferox group than in the Aloe vera group. This study demonstrated Aloe’s immunoregulatory potential for alleviating atopic dermatitis through influencing of Th2 cell activation. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Pharmacology / unrestricted Atopic dermatitis (AD) Balb/c mice Treatment Corticosteroids Aloe ferox Aloe vera Dinitrofluorobenzene Adverse event UCTD
9	Transdermal penetration enhancement and clinical efficacy of Aloe marlothii and Aloe ferox compared to Aloe vera / Lizelle Trifena Fox Fox, Lizelle Trifena January 2014 (has links) Extensive research has already been performed on Aloe vera therefore it is important that researchers include other aloe species, such as Aloe marlothii and Aloe ferox, in studies involving aloe plant materials (Loots et al., 2007:6891). The use of natural products has regained popularity and in recent years the demand for alternative medication has risen considerably (Walji & Wiktorowicz, 2013:86). The hydration state of the human skin is fundamental for its normal functioning (Verdier-Sévrain & Bonté, 2007:75), with healthy skin possessing a water content higher than 10% (w/v) (Blank, 1952:439). This demonstrates the importance of the topical application of skin moisturisers as part of basic skin care regime (Verdier-Sévrain & Bonté, 2007:75). The first part of this project focused on the in vivo skin hydration effects of the precipitated polysaccharide components of A. vera, A. ferox and A. marlothii leaf gel materials (3% (w/v)) after single (30, 90 and 150 min after application) and multiple applications (twice daily application over a period of four weeks) on healthy volunteers, respectively. The anti-erythema effects of these aloe materials on sodium lauryl sulphate irritated skin were also examined. The skin hydration effects of the aloe materials were determined with the Corneometer® CM 825 and Visioscan® VC 98 during the short term study (single application) and longer term study (multiple applications). In addition, as an indirect measurement of skin hydration, the Cutometer® dual MPA 580 was used to measure skin elasticity during the longer term study. To determine the anti-erythema effects of the aloe materials when applied to irritated skin areas, the haemoglobin content of the skin was measured with a Mexameter® MX 18. The results from the in vivo study indicated that A. ferox gel material dehydrated the skin, whereas A. vera and A. marlothii gel materials hydrated the skin during the short term study. Results from the longer term study showed that all the aloe leaf materials have skin dehydration effects, probably due to the aloe absorbing moisture from the skin into the applied gel layer upon drying. From the anti-erythema study, it was seen that A. vera and A. ferox materials had the potential to reduce erythema on the skin similar to that of the positive control group (i.e. hydrocortisone gel) after six days of treatment. The skin possesses exceptional barrier properties which can mostly be ascribed to the outermost layer of the skin, the stratum corneum (SC). Due to the physical barrier the skin has against drug permeation, the delivery of drug molecules into and across the skin continues to be challenging (Lane, 2013:13) and to overcome this barrier, penetration enhancers can be used to efficiently deliver drugs across the skin (Barry, 2002:522). The aim of the second part of this project was to determine the skin penetration enhancing effects of the gel and whole leaf materials of A. vera, A. marlothii and A. ferox. Ketoprofen was used as the marker compound and a high performance liquid chromatography (HPLC) method was developed and validated to determine the amount of ketoprofen present in the samples. Prior to the skin diffusion studies, membrane release studies were performed to test whether the solutions containing different concentrations of the aloe leaf materials (i.e. 3.00%, 1.50% and 0.75% (w/v)) released ketoprofen from their gel-like structures. From these studies, it was evident the 0.75% (w/v) concentration had the highest average percentage ketoprofen release, which was subsequently chosen as the concentration for the aloe leaf materials tested in the transdermal skin diffusion studies. The in vitro permeation study was conducted across dermatomed (400 μm thick) skin in Franz diffusion cells. Tape stripping was performed after completion of the diffusion studies to determine the concentration ketoprofen present in the SC-epidermis and epidermis-dermis layers of the skin. Results from the in vitro permeation study showed that A. vera gel enhanced the flux of ketoprofen to the highest extent (20.464 μg/cm2.h) when compared to the control group (8.020 μg/cm2.h). Aloe marlothii gel (12.756 μg/cm2.h) and A. ferox whole leaf material (12.187 μg/cm2.h) also enhanced the permeation of ketoprofen across the skin compared to the control group. A. vera gel material was the most efficient transdermal drug penetration enhancer of the selected aloe species investigated. In order to determine by which mechanism the aloe leaf materials enhanced the skin permeation of ketoprofen (Hadgraft et al., 2003:141), the permeation profiles were analysed using a non-linear curve-fitting procedure (Díez-Sales et al., 1991:3) to obtain α, β and kp values. A change in the α-value indicated the aloe leaf material influenced the partition coefficient (K), whereas a change in β indicated the aloe leaf material influenced the diffusivity (D) (with the assumption that h, the diffusional path length is constant) (Otto et al., 2010:278). The calculated α-values indicated the drug permeation enhancing effect of A. vera gel can be ascribed to an increased partitioning of the drug into the skin. The calculated β-values showed A. ferox whole leaf altered the diffusion characteristics of the skin for ketoprofen. The tape stripping results showed A. marlothii whole leaf delivered the highest concentration of the ketoprofen into the SC-epidermis and epidermis-dermis layers of the skin. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2014 Aloe vera Aloe marlothii Aloe ferox Skin hydration Anti-erythema Gel Whole leaf Penetration enhancer Tape stripping Velhidrasie Anti-eriteem Jel Heelblaar Penetrasiebevorderaar Kleefbandafstroping
10	Transdermal penetration enhancement and clinical efficacy of Aloe marlothii and Aloe ferox compared to Aloe vera / Lizelle Trifena Fox Fox, Lizelle Trifena January 2014 (has links) Extensive research has already been performed on Aloe vera therefore it is important that researchers include other aloe species, such as Aloe marlothii and Aloe ferox, in studies involving aloe plant materials (Loots et al., 2007:6891). The use of natural products has regained popularity and in recent years the demand for alternative medication has risen considerably (Walji & Wiktorowicz, 2013:86). The hydration state of the human skin is fundamental for its normal functioning (Verdier-Sévrain & Bonté, 2007:75), with healthy skin possessing a water content higher than 10% (w/v) (Blank, 1952:439). This demonstrates the importance of the topical application of skin moisturisers as part of basic skin care regime (Verdier-Sévrain & Bonté, 2007:75). The first part of this project focused on the in vivo skin hydration effects of the precipitated polysaccharide components of A. vera, A. ferox and A. marlothii leaf gel materials (3% (w/v)) after single (30, 90 and 150 min after application) and multiple applications (twice daily application over a period of four weeks) on healthy volunteers, respectively. The anti-erythema effects of these aloe materials on sodium lauryl sulphate irritated skin were also examined. The skin hydration effects of the aloe materials were determined with the Corneometer® CM 825 and Visioscan® VC 98 during the short term study (single application) and longer term study (multiple applications). In addition, as an indirect measurement of skin hydration, the Cutometer® dual MPA 580 was used to measure skin elasticity during the longer term study. To determine the anti-erythema effects of the aloe materials when applied to irritated skin areas, the haemoglobin content of the skin was measured with a Mexameter® MX 18. The results from the in vivo study indicated that A. ferox gel material dehydrated the skin, whereas A. vera and A. marlothii gel materials hydrated the skin during the short term study. Results from the longer term study showed that all the aloe leaf materials have skin dehydration effects, probably due to the aloe absorbing moisture from the skin into the applied gel layer upon drying. From the anti-erythema study, it was seen that A. vera and A. ferox materials had the potential to reduce erythema on the skin similar to that of the positive control group (i.e. hydrocortisone gel) after six days of treatment. The skin possesses exceptional barrier properties which can mostly be ascribed to the outermost layer of the skin, the stratum corneum (SC). Due to the physical barrier the skin has against drug permeation, the delivery of drug molecules into and across the skin continues to be challenging (Lane, 2013:13) and to overcome this barrier, penetration enhancers can be used to efficiently deliver drugs across the skin (Barry, 2002:522). The aim of the second part of this project was to determine the skin penetration enhancing effects of the gel and whole leaf materials of A. vera, A. marlothii and A. ferox. Ketoprofen was used as the marker compound and a high performance liquid chromatography (HPLC) method was developed and validated to determine the amount of ketoprofen present in the samples. Prior to the skin diffusion studies, membrane release studies were performed to test whether the solutions containing different concentrations of the aloe leaf materials (i.e. 3.00%, 1.50% and 0.75% (w/v)) released ketoprofen from their gel-like structures. From these studies, it was evident the 0.75% (w/v) concentration had the highest average percentage ketoprofen release, which was subsequently chosen as the concentration for the aloe leaf materials tested in the transdermal skin diffusion studies. The in vitro permeation study was conducted across dermatomed (400 μm thick) skin in Franz diffusion cells. Tape stripping was performed after completion of the diffusion studies to determine the concentration ketoprofen present in the SC-epidermis and epidermis-dermis layers of the skin. Results from the in vitro permeation study showed that A. vera gel enhanced the flux of ketoprofen to the highest extent (20.464 μg/cm2.h) when compared to the control group (8.020 μg/cm2.h). Aloe marlothii gel (12.756 μg/cm2.h) and A. ferox whole leaf material (12.187 μg/cm2.h) also enhanced the permeation of ketoprofen across the skin compared to the control group. A. vera gel material was the most efficient transdermal drug penetration enhancer of the selected aloe species investigated. In order to determine by which mechanism the aloe leaf materials enhanced the skin permeation of ketoprofen (Hadgraft et al., 2003:141), the permeation profiles were analysed using a non-linear curve-fitting procedure (Díez-Sales et al., 1991:3) to obtain α, β and kp values. A change in the α-value indicated the aloe leaf material influenced the partition coefficient (K), whereas a change in β indicated the aloe leaf material influenced the diffusivity (D) (with the assumption that h, the diffusional path length is constant) (Otto et al., 2010:278). The calculated α-values indicated the drug permeation enhancing effect of A. vera gel can be ascribed to an increased partitioning of the drug into the skin. The calculated β-values showed A. ferox whole leaf altered the diffusion characteristics of the skin for ketoprofen. The tape stripping results showed A. marlothii whole leaf delivered the highest concentration of the ketoprofen into the SC-epidermis and epidermis-dermis layers of the skin. / PhD (Pharmaceutics), North-West University, Potchefstroom Campus, 2014 Aloe vera Aloe marlothii Aloe ferox Skin hydration Anti-erythema Gel Whole leaf Penetration enhancer Tape stripping Velhidrasie Anti-eriteem Jel Heelblaar Penetrasiebevorderaar Kleefbandafstroping

Search results