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

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

Evaluation of the floral rewards of Aloe greatheadii var davyana (Asphodelaceae), the most important indigenous South African bee plant

Human, Hannelie

09 July 2008

The most important indigenous bee plant in South Africa is the winter flowering Aloe greatheadii var davyana, with a widespread distribution across the summer rainfall region. Beekeepers commonly move their hives to the "aloe fields" during winter, using the strong pollen and nectar flow for colony growth, queen rearing and honey production. In spite of its importance for the bee industry, no complete pollen analysis is available and, except for the popular bee literature, little is known about nectar production or pollinators. The aim of the study was therefore to evaluate the floral rewards of this aloe and to investigate the importance of these resources for honeybees. We analysed fresh, bee-collected and stored aloe pollen for its nutritional content (not previously done for any plant species). Addition of nectar and glandular secretions leads to an increase in water and carbohydrate content and a decrease in protein and lipid content. All the essential amino acids, except tryptophan, met or exceeded the minimum levels for honeybee development. In worker bees in queenright colonies, ovarian development is greater on aloe than on sunflower pollen, which may be explained by the exceptionally high protein content and high extraction efficiency during digestion. In assessing the nectar resource, we investigated the nectary structure and nectar presentation of two species belonging to different sections of the genus Aloe, A. castanea and A. greatheadii var davyana, but anatomical differences were not related to the nectar production. We looked at variation in nectar volume and concentration of A. greatheadii var davyana on various levels, from within the flowers to across the summer rainfall area. Nectar was continuously available and, although dilute (mean concentration 18.6%), the nectar of A. greatheadii var davyana is more concentrated than that of other Aloe species, making it an ideal source of energy and water for honeybees. Utilisation of dilute nectar by bees requires elimination of much excess water. We sampled crop contents of nectar foragers to determine if changes in nectar concentration occurred after collection and before unloading in the hive. Contrary to the common assumption that nectar is either unchanged or slightly diluted during transport, we observed a dramatic increase in concentration and a decrease in volume between the flowers and the hive. Bees may be foraging primarily to get enough water for their physiological needs. Using miniaturised data loggers, we showed that bees are able to adjust nest humidity within sub-optimal limits, in addition to efficient regulation of hive temperature. Humidity levels are influenced by trade-offs with regulation of temperature and respiratory gas exchanges. Although the dilute nectar and pinkish red tubular flowers are characteristic of bird-pollination, exclusion experiments showed that bees are the primary pollinators of A. greatheadii var davyana. This contrasts with other Aloe species which are pollinated by sunbirds and other passerine birds, but highlights the two-way interaction between the bees and the aloes. / Thesis (PhD (Entomology))--University of Pretoria, 2008. / Zoology and Entomology / unrestricted

Aloe greatheadii var davyana

Honey production

Aloe species

Bee plant

UCTD

Transdermal penetration enhancement and clinical efficacy of Aloe marlothii and Aloe ferox compared to Aloe vera / Lizelle Trifena Fox

Fox, Lizelle Trifena

January 2014

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

Transdermal penetration enhancement and clinical efficacy of Aloe marlothii and Aloe ferox compared to Aloe vera / Lizelle Trifena Fox

Fox, Lizelle Trifena

January 2014

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

Shelf-life extension of home-made mahewu by adding Aloe vera powder

Mashau, Mpho Edward

12 February 2015

Department of Food Science and Technology / MSCPNT

Maize

Mahewu

Aloe vera

Sensory properties

641.8730968

Brewing -- South Africa -- Limpopo

Fermentation -- South Africa -- Limpopo

Aloe -- South Africa -- Limpopo

Efecto antiinflamatorio y cicatrizante del extracto liofilizado de Aloe Vera (Aloe Vera (L) burm. f.) presentado en forma de gel farmacéutico

Almonacid Moscoso, Antonio

January 2012

Se evaluó el efecto antiinflamatorio y cicatrizante del Gel del extracto de Aloe vera y su contenido (sábila) procedente de Lima, se preparó el Gel del extracto de Aloe vera al 20% que fue aplicado por vía tópica en 40 pacientes entre las edades 20 a 50 años, de ambos sexos, en el Establecimiento de Salud Ganimedes DISA LIMA ESTE del Ministerio de Salud, y otro grupo de 40 pacientes (grupo control) sin la aplicación del Gel del extracto de Aloe vera, comparando ambos casos se demostró la eficacia antiinflamatoria y cicatrizante del Gel del extracto de Aloe vera, que consistió en el control de la medición de la inflamación y la herida leve cerrada al paciente, desde su llegada por Emergencia (tópico) al establecimiento de Salud, por efecto de un trauma accidental o por otra índole; primero se evalúo el estado general del paciente para un diagnóstico médico, luego se plantea para su consentimiento del estudio a realizar, iniciando el uso tópico mediante controles de observación y medición de la zona inflamada y herida leve cerrada, así como el cambio de color de la piel y reacciones adversas que puede ocasionar el uso tópico hasta su recuperación total. El estudio del Gel del extracto de Aloe vera (sábila) de acuerdo con los ensayos efectuados y los objetivos generales propuestos, han demostrado su efecto anti inflamatorio y cicatrizante en la parte externa de la piel, el cual se realizó por el método mecánico y tópico. El Gel del extracto de Aloe vera, es un producto natural muy económico, de acceso fácil en su elaboración, presentando actividad antiinflamatoria y cicatrizante, administrada por vía tópica en los pacientes tratados en mención. La calidad de la inflamación y la cicatrización obtenida con Gel del extracto de Aloe vera demuestra que es de gran utilidad en tratamiento dermatológico o en cirugía plástica, obteniendo mejores resultados en regeneración de tejido o piel y epitelización de las heridas. Palabras clave:Gel del extracto de Aloe vera, efecto: antiinflamatorio y cicatrizante, Dermatológico. / The effect of anti-inflammatory and healing gel of Aloe vera and its contents (Aloe vera) from Lima, was prepared Gel Aloe vera extract 20% was applied topically to 40 patients aged 20 to 50, of both sexes, in the health facility Ganymede DISA LIMA EAST Ministry of Health, and another group of 40 patients (control group) without the application Gel of Aloe vera, comparing both anti-inflammatory efficacy was demonstrated Scar Gel and Aloe vera extract, which consisted medicine control inflammation and mild closed injury to the patient, since his arrival in Emergency (topical) the establishment of Health, due to accidental trauma or other nature, first performed an overall patient for a medical diagnosis, then posed for consent to conduct the study, starting with the topical use of observation and measurement controls the inflamed area and minor wound closed, and the change of color of the skin and can cause adverse reactions to topical total. The recovery study Gel Aloe vera (Aloe) according to those tests and the general objectives proposed have demonstrated its anti inflammatory and healing on the outside of the skin, which is performed by the mechanical method and topical. The gel of Aloe vera is a natural product very economical, easy to access in their development, presenting antiinflammatory and healing, administered topically in patients treated in mention. The inflammation and scarring gel obtained Aloe vera extract shows that it is of great use in treating dermatological or plastic surgery, obtaining better results in tissue regeneration or epithelialization of skin wounds. Key words: Gel of Aloe vera Extract, effect: anti-inflammatory and healing, Dermatology.

Cicatrices - Tratamiento

Aloe vera - Uso terapéutico

Modeling the environmental niche of a South African fynbos endemic tree aloe, kumara plicatilis, and predicting impacts of climate change on the species' distribution

Variawa, Tasneem

January 2017

A research report submitted to the Faculty of Science, University of the Witwatersrand, in partial fulfillment of the MSc by Coursework Degree (in Resource Conservation Biology) June 2017. South Africa. / Understanding why species occur where they do and, predicting where species might migrate to under different global change scenarios is an important aspect of biodiversity conservation. Regions that harbour high levels of species diversity and endemism arising from sharp local climatic and ecological gradients are highly susceptible to changing conditions. Kumara plicatilis is a tree aloe endemic to the Boland mountain ranges in the species-rich fynbos region in the Western Cape Province of South Africa. The species is currently listed as Least Concern as far as habitat degradation, population decline, invasive species and direct-use threats are concerned although impacts of anthropogenic climate change on this habitat specialist remain undocumented. This study used species distribution models to successfully classify the environmental niche of the species as well as delineate spatial patterns of probable occurrence and abundance based on this niche. In addition, models based on the IPCCs 2014 ‘best-case’ and ‘worst-case’ climate change scenarios provide projections of changes in the spatial occurrence patterns of Kumara plicatilis expected under conditions of shifting climates. Niche-based statistical analyses were further used to draw temporal comparisons between current and future projected ranges to ascertain the degree and properties of shared niche space now and in the future. Results indicate that suitable habitat conditions for the species distribution is irregularly spread around the central and southwestern fynbos region constrained by several climatic and biophysical variables including winter rainfall and temperature conditions as well as vegetation type. The species is expected to experience limited to severe declines in the area of suitable habitat available under mild and harsh climate change conditions, respectively. The patterns arising from these models are in line with the environmental niche measurements which show large degrees of overlap between current and future niche space of the species. These outcomes suggest that Kumara plicatilis displays traits of environmental niche conservatism where unsuitable climate and biophysical conditions can limit its geographic range and local extinction of populations can occur due to global change. Whilst the results of this study offer a useful and initial insight into the possible impacts of shifting climates on this species, outcomes from modeling should be interpreted with caution to reach the best management decisions and conservation action for this endemic species. / MT 2017

Biodiversity conservation

Fynbos

Climatic changes

Aloe--South Africa

The effect of crude aqueous and alcohol extracts of Aloe vera on the gastrointestinal tract and accessory organs of suckling rats.

Wabeya, Beya

12 October 2011

For centuries Aloe vera has been exploited for several verified and unverified medicinal uses such as wound healing, treatment of gastrointestinal ulcers and for its many biological effects including anti-microbial, laxative, anti-inflammatory and immunostimulatory activities. Studies have generally focused on its effects in vitro and in adults. When nursing mothers use Aloe vera extracts, their suckling infants are at risk of indirect exposure to Aloe vera via breast feeding or directly as dietary/health supplements. The gastrointestinal tract (GIT) of the neonate is sensitive to dietary manipulations during the suckling period with long lasting effects that can be irreversible. Thus babies may be at risk if administered Aloe vera extracts directly as dietary supplements or indirectly via breast milk. The main objectives of this study were to evaluate the effects of orally administered aqueous and alcohol extracts of Aloe vera on growth performance, the morphometry and morphology of the gastrointestinal tract and accessory organs, and liver function of suckling rats. Suckling Sprague-Dawley rats (77), males (n=38) and females (n=39) of 6 days old were randomly assigned to one of five treatment groups and given once daily by oral gavage a suspension of lyophilized crude alcohol or aqueous extracts of Aloe vera suspended in distilled water. Group I (control) was gavaged with distilled water (vehicle). Group II received a low dose of the aqueous extract (AqL) at 50mg. kg-1; Group III received a high dose of the aqueous extract (AqH) at 500mg. kg-1; Group IV received a low dose of the alcohol extract (AlcL) at 50mg. kg-1 whilst Group V received a high dose of the alcohol extract (AlcH) at 500mg. kg-1. The extracts and distilled water were 2 administered at a volume of 10ml.kg-1. The pups remained with their dams for the duration of the study and after 8 days on the treatments, the pups were humanely killed to harvest their tissues for measurements and physiological analysis. All data were expressed as mean ± SD and analyzed by one way ANOVA, the values were considered statistically significant when p < 0.05 and then a Bonferroni Post hoc test was applied. The suckling rats fed respectively with high doses of AlcH and AqH had a significantly higher body mass gain than the other groups (p < 0.05, one way ANOVA). Linear growth as measured by tibial length was significantly increased in the AqH group compared to the other groups. There was no significant difference in the mass and relative density of the tibia bones of the rats from the different treatment groups. The differences in growth could not be attributed to circulating concentrations of the somatotrophic hormone, Insulin-like growth factor-1 (IGF-1) which was not significantly different between the groups. The treatments did not result in any significant differences in lengths, and mass of the small and large intestine, however the caecum was significantly enlarged (hypertrophy of muscularis, submucosa and mucosa) in the rats that received the Aloe vera extracts. Although, there was no significant difference in the mass of the rats’ livers, the lipid and glycogen content were significantly higher (p < 0.001) for the AqH group compared to the other groups. Histologically, the hepatocytes showed enlarged nuclei, granular cytoplasm and dilated sinusoids for AqH and AlcH as compared to the control group. An indirect assessment of liver function by measurement of blood concentrations of alkaline phosphatase (ALP) and alanine amino transaminase (ALT) did not reveal a significant difference between the groups. The non fasting concentration of metabolic substrates (glucose and triglycerides) was also not significantly different between the groups. The pups given high doses of the extracts had a significantly greater (p < 0.05) thymus mass (hyperplastic) than the other groups. The short term administration of Aloe vera extracts has shown a growth promoting effect, enhanced hepatic storage of metabolic substrates and hypertrophy of the caecum and thymus of neonatal rats. These effects need to be explored further to enhance animal production and health.

Aloe vera

effects on suckling rats

gastrointestinal tract

medicinal plants

Composição química, fitoquímica e dosagem de metais pesados das cascas das folhas secas e do gel liofilizado de Aloe Vera cultivadas em hortas comunitárias da cidade de Palmas, Tocantins

Lacerda, Gabriela Eustáquio

19 December 2016

O consumo de plantas com finalidade terapêutica apresenta-se como fonte inesgotável na produção de medicamentos. Metabólitos produzidos, principalmente os metabólitos secundários, vêm se tornando uma fonte de moléculas potencialmente úteis para os seres humanos, com grande interesse nos setores alimentícios, farmacológicos e de cosméticos. Logo a análise de composição química de plantas, é importante, haja vista o grande interesse quanto à identificação das atividades biológicas presentes. A Aloe vera, popularmente conhecida como babosa, pertencente à família das Liliáceas. Apresenta mais de 75 componentes com potencial ação farmacêutica, sendo as moléculas ativas distribuídas tanto no gel quanto na casca da folha. Assim este trabalho teve como objetivo. Realizar análises de composição química, triagem fitoquímica e avaliar a presença de metais pesados em babosa (Aloe vera) cultivada em hortas comunitárias na cidade de Palmas. Coletaram-se folhas adultas em sete hortas comunitárias. Após retirada do conteúdo mucilaginoso para liofilização, as cascas das folhas foram submetidas à secagem em estufa de circulação. A composição centesimal, umidade (determinador de umidade), carboidratos (método por diferença), lipídeos (método de Soxhlet, IAL, 2008), cinzas, proteína bruta, e fibra bruta foram realizados segundo método AOAC (2005), determinação de minerais por espectrofotometria de absorção atômica, pesquisa fitoquímica segundo Matos (1997), análise fitoquímica por cromatografia líquida de alta eficiência (CLAE). E determinação de metais pesados seguiu metodologia proposta pela Embrapa (2009). O teor de umidade teve variância entre 07,06 a 10,62% enquanto as porcentagens médias de cinzas, proteína bruta, lipídeos e fibra bruta foram de 13,62 a 32,63, 5,58 a 7,47, 0,58 a 2,04, 16,22 a 16,49% respectivamente. A análise fitoquímica permitiu identificar ácido gálico, catequina, galocatequina, ácido elágico, naringina, miricetina, quercetina e kaempeferol. Tais compostos são dispostos na literatura como potenciais benéficos a saúde humana. Não foi detectado presença de metal pesado nas amostras analisadas. A investigação deste trabalho forneceu uma parcela de informações sobre a composição química, composto bioativo e contaminates por metal pesado para plantas de Aloe vera cultivadas em hortas comunitárias na cidade de Palmas – TO. Serão necessárias novas investigações ao longo do ano para que se avalie como a sazonalidade pode interferir no teor de tais compostos. / The consumption of plants with therapeutic purpose presents itself as an inexhaustible source in the production of medicines. Metabolites produced, mainly secondary metabolites, have become a source of potentially useful molecules for humans, with great interest in the food, pharmacological and cosmetic sectors. Therefore the analysis of chemical composition of plants is important, given the great interest in identifying the biological activities present. Aloe vera, popularly known as aloe, belonging to the Liliaceae family. It presents more than 75 components with potential pharmaceutical action, the active molecules being distributed both in the gel and in the bark of the leaf. So this work had as objective. Carry out analyzes of chemical composition, phytochemical screening and evaluate the presence of heavy metals in aloe (Aloe vera) grown in community gardens in the city of Palmas. Adult leaves were collected in seven community gardens. After removal of the mucilaginous contents for lyophilization, the leaf husks were submitted to drying in a circulation oven. The centesimal composition, moisture (moisture determinant), carbohydrates (method by difference), lipids (Soxhlet method, IAL, 2008), ashes, crude protein and crude fiber were performed according to AOAC (2005) method, Spectrophotometry of atomic absorption, phytochemical research according to Matos (1997), phytochemical analysis by high performance liquid chromatography (HPLC). And determination of heavy metals followed the methodology proposed by Embrapa (2009). The moisture content had a variance between 07.06 and 10.62%, while the mean percentages of ash, crude protein, lipids and crude fiber were 13.62 to 32.63, 5.58 to 7.47, 0.58 To 2.04, 16.22 to 16.49% respectively. The phytochemical analysis allowed the identification of gallic acid, catechin, gallocatechin, ellagic acid, naringin, myricetin, quercetin and kaempeferol. Such compounds are arranged in the literature as potential beneficial to human health. No presence of heavy metal was detected in the analyzed samples. The investigation of this work provided a piece of information on the chemical composition, bioactive compound and heavy metal contaminates for Aloe vera plants grown in community gardens in the city of Palmas - TO. Further research will be needed throughout the year to assess how seasonality can interfere with the content of such compounds.

CNPQ::CIENCIAS DA SAUDE

Aloe vera

Composição química

Fitoquímica

Mmetais pesados

AVALIAÇÃO DAS ATIVIDADES ANGIOGÊNICA E CICATRICIAL DO EXTRATO DE Aloe vera (Aloe barbadensis).

Mercês, Patrícia Lima

14 May 2015

Made available in DSpace on 2016-08-10T10:54:46Z (GMT). No. of bitstreams: 1 PATRICIA LIMA MERCES.pdf: 1291852 bytes, checksum: 8680fab655ce1b8b3f1410b572872b4c (MD5) Previous issue date: 2015-05-14 / Objective: To evaluate the influence of Aloe vera (Aloe barbadensis) in angiogenesis and scar activity Methods: experimental study used 120 fertile eggs of chicken (Gallus domesticus) of Rhoss lineage. The eggs were incubated, and the end of the 13 °, filter paper discs, conveying 3 uL of the solution to be tested (glycolic extract of aloe vera 10%) and the proper controls were deposited directly on the Chorioallantoic Membrane-MCA so carefully to evaluate the angiogenic activity of Aloe vera. The healing activity was evaluated using 15 healthy rats of the species Rattus norvegicus albinus by creating a lesion on the dorsum of each mouse using a rectangular size 2,0x3,0cm mold, after making the injuries were applied the solution to be tested, Aloe vera and the positive and negative controls Results: regarding angiogenic activity observed If through the images that 80% of MCAs which was used Aloe vera was the formation of thicker blood vessels and in greater quantities, but there was no difference significant when compared to the positive control. Regarding scar activity results in macroscopic evaluation showed that 100% of the test group mice showed a complete closure of the lesions on the 21st day of the experiment while only 40% of the control group had complete closure. But when the Tukey test (p> 0.05), there was no statistical difference. Demonstrating how the scar activity of Aloe vera is the same as Regederm® you already have scientific evidence in wound healing. Conclusion: Aloe vera presented healing activity equal to the positive control, the MCA presented angiogenic activity equal to the positive control, with formation of new vessels, it was easy to apply and handling, conclusion themselves with what the Aloe vera extract or pro components -angiogênicos isolates may have potential pharmaceutical applications for wound treatment. / Objetivo: Avaliar a influência do Aloe vera (Aloe barbadensis) na atividade angiogênica e cicatricial Métodos: estudo experimental onde se utilizou 120 ovos férteis de galinha (Gallus domesticus) da linhagem Rhoss. Os ovos foram incubados e ao final do 13°, discos de papel de filtro, veiculando 3 µL da solução a ser testada (extrato glicólico de aloe vera a 10%), e os devidos controles, foram depositadas diretamente sobre a Membrana Corioalantóide-MCA de forma cuidadosa para avaliação da atividade angiogênica do Aloe vera. A atividade cicatricial foi avaliada utilizando 15 ratos saudáveis, da espécie Rattus norvegicus albinus, através da criação de uma lesão no dorsos de cada rato utilizando um molde do tamanho retangular 2,0x3,0cm, após a confecção da lesão eram aplicadas a solução a ser testada, Aloe vera e os controles positivo e negativo Resultados: com relação a atividade angiogênica observou se através das imagens que 80% das MCAs onde se utilizou o Aloe vera houve formação de vasos sanguíneos mais grossos e em maior quantidade, porém não apresentou diferenças significativas quando comparada ao controle positivo. Com relação a atividade cicatricial os resultados na avaliação macroscópica demonstraram que 100% dos ratos do grupo teste apresentaram um fechamento completo das lesões no 21º dia do experimento enquanto que apenas 40% do grupo controle apresentavam fechamento completo. Porém quando aplicado o teste de Tukey, (p>0,05), não houve diferença estatística. Demostrando assim que a atividade cicatricial do Aloe vera é igual à do Regederm® que já possui comprovação cientifica na cicatrização de feridas. Conclusão: o Aloe vera apresentou atividade cicatrização igual ao controle positivo, na MCA apresentou atividade angiogênica igual ao controle positivo, com formação de novos vasos, foi de fácil aplicação e manuseio, Concluindo -se com isso que o extrato de Aloe vera ou componentes pró-angiogênicos isolados podem ter potencial para aplicações farmacêuticas para o tratamento de feridas.

Babosa

Biotecnologia

Fitoterapia

Aloe

Biotechnology

Herbal Medicine

CNPQ::CIENCIAS DA SAUDE