39 resultados para Pomegranate
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Se ent regan antecedentes sobr e las diferencias morfométricas en distintas estructuras de adultos y del pupoide de las poblaciones de aleyródidos asociados a olivo, peral y granado en la región de Arica- Parinacota, Chile. Las significativas diferencias (p < 0,01) encontradas en las dimensiones y en la morfología de las estructuras estudiadas entre las distintas poblaciones de mosquitas blancas que atacan a olivos respecto del peral y del granado, permiten establecer que en Arica la mosquita blanca del olivo es Siphoninus finitimus Silvestri y que S. phillyreae, está asociada a peral y granado.
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The past decade has seen an influx of speciality plant seed oils arriving into the market place. The need to characterise these oils has become an important aspect of the oil industry. The characterisation of the oils allows for the physical and chemical properties of the oil to be determined. Speciality oils were characterised based on their lipid and fatty acid profiles and categorised as monounsaturated rich (oleic acid as the major acyl components e.g. Moringa and Marula oil), linoleic acid rich (Grape seed and Evening Primrose oil) or linolenic acid rich (Flaxseed and Kiwi oil). The quality of the oils was evaluated by determining the free fatty acid content, the peroxide value (that measures initial oxidation) and p-anisidine values (that determines secondary oxidation products containing the carbonyl function). A reference database was constructed for the oils in order to compare batches of oils for their overall quality including oxidative stability. For some of the speciality oils, the stereochemistry of the triacylglycerols was determined. Calophyllum, Coffee, Poppy and Sea Buckthorn oils stereochemistry was determined. The oils were enriched with saturated and/or a monounsaturated fatty acids at position sn-1 and sn-3. The sn-2 position of the four oils was esterified with a polyunsaturated and/or a monounsaturated fatty acid indicating that they follow a typical acylation pathway and no novel acylation activity was evident from these studies (e.g enrichment of saturates at the sn-2 position). The oxidative stability of the oils was evaluated at 18oC and 60oC and the effect of adding a-tocopherol at commercially used level i.e 750ppm was assessed. The addition of 750ppm of a-tocopherol at 18oC increased the oxidative stability of Brown flax, Moringa, Wheat germ and Yangu oils. At 60oC Brown Flax, Manketti and Pomegranate oil polymerised after 48 hours. The addition of 750ppm a-tocopherol delayed the onset of polymerisation by up to 48 hours in Brown Flax seed oil. Pomegranate oil showed a high resistance to oxidation, and was blended into other speciality oils at 1%. Pomegranate oil increased the oxidative stability of Yangu oil at 18oC. The addition of Pomegranate oil to Wheat germ oil at 60oC, decreased the peroxide content by 10%. In Manketti and Brown Flaxseed oil at elevated temperatures, Pomegranate oil delayed the onset of polymerisation. Preliminary studies of Pomegranate oil blending to Moringa and Borage oil showed it to be more effective than a-tocopherol for certain oils. The antioxidant effects observed following the addition of Pomegranate oil may be due to its conjugated linolenic acid fatty acid, punicic acid.
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The agriculture with the use of products with less environmental impact is expanding. In it, the producers offer their products without the use of synthetic chemical inputs, solving the phytosanitary problems with the use of biological or alternative control agents such as parasites, predators, entomopathogenic, alternative products, plant extracts and essential oils. These products can be considered safe to non-target organisms, but studies are needed to find these features on natural enemies and on the beneficial insects such as bees, common frequenter of cultures. In this sense, this study aims to evaluate the effects of control over reproductive quality queens of Apis mellifera L. (Hymenoptera: Apidae) Africanized. For this, it tested the action of control products on the production of A. mellifera queens, using the commercial entomopathogenic fungus Boveril® 1,0x108 (Beauveria bassiana) and aqueous extract of pomegranate (Punica granatum) at a concentration of 5% sterile distilled water with Tween (0.01%) and sterile distilled water (controls). The treatments were incorporated into a tissue type gauze, wrapped in an acrylic plate and packed inside minirrecrias type colonies for the production of queens on the day before the transfer of larvae. The next day were introduced battens with 30 domes with larvae to produce queens, so the workers have contacted the agent tested. From the emergence of all the queens, they were monitored to determine the measures of body weight (mg), length and width of wing and abdomen, length, width and height of the chest (mm) as well as the time of emergence of queens. The next step was evaluated the influence of the control agents in production creates, performing measurements of creating areas in cm2 for six straight weeks. It was found that the area creates Queens did not differ among the treatments. Histological analysis of hipofaringeanas of workers glands that came into contact with the control agents and the midgut of virgin queens were also held. Histological analysis differences were observed in the tissues when the treatments were compared with the respective controls.
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Tese de Doutoramento, Química, Faculdade de Ciências e Tecnologia, Universidade do Algarve, 2016
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Purpose: To investigate the analgesic properties of fruit extracts of Vitis vinifera (grape) and Punica granatum (pomegranate) in Albino mal mice. Methods: The analgesic activity of fruit extracts of V. vinifera and P. granatum were examined in vivo using thermal stimulus assays (i.e., tail immersion and hot plate) and acetic acid-induced writhing test using acetylsalicylic acid (0.1 g/kg, per os) as standard. The extracts were administered orally in doses of 1.0, 2.0 and 3.0 g/kg. Results: In acetic acid writhes test, both fruit extract pretreatments (1.0, 2.0 and 3.0 g/kg, per os) significantly decreased the number of writhes (p < 0.0001) in a dose-dependent manner compared to control. The Index of Pain Inhibition (IPI) values following V. vinifera extract treatments were 36.52 % (1.0 g/kg), 66.67 % (2.0 g/kg) and 89.71 % (3.0 g/kg) which were significantly different from those for P. granatum extracts (45.39 %, 1.0 g/kg), 70.93 %, 2.0 g/kg) and 86.88 %, 3.0 g/kg) at equivalent doses of 2.0 and 3.0 g/kg of the extracts The fruit extracts of both species increased the reaction latency time. In tail-immersion assay, only the fruit extract of P. granatum significantly increased the response to heat stimulus at doses of 2.0 g/kg (p < 0.05). Conclusion: The hydroalcohol fruit extracts of P. granatum and V. vinifera have potential analgesic effects. Further studies are needed to determine the active component responsible for this effect.
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A avulsão dentária é um dos mais severos traumatismos dento-alveolares, caracterizado pela desinserção completa do dente do seu ambiente natural, o alvéolo. O prognóstico desta condição traumática depende em grande escala da atitude adoptada no momento do acidente. No entanto, quando o reposicionamento dentário imediato não é possível, factores como o tempo que o dente permaneceu no meio extra-oral e o meio de transporte utilizado influenciam consideravelmente o prognóstico da peça dentária avulsionada. A elaboração deste trabalho tem como objectivo verificar o estado actual da investigação científica relativamente aos meios de transporte de dentes avulsionados, nomeadamente, indagar sobre os potenciais meios de transporte actualmente em estudo. Foi efectuada uma pesquisa bibliográfica digital, na base de dados PUBMED, com os seguintes termos de pesquisa: “tooth avulsion”, “storage media”, “tooth reimplantation” e “delayed reimplantation” isoladamente ou em combinação. Para a selecção dos artigos foram estipulados critérios de inclusão e exclusão na pesquisa bibliográfica. Existem soluções especificamente concebidas para a conservação e preservação de células humanas, que idealmente deveriam ser sempre utilizadas como meios de transporte de dentes avulsionados, tais como: solução balanceada de Hank, Viaspan®, Eurocollins® e determinados meios de cultura. São soluções que apresentam propriedades biofísico-químicas que os levam a ser considerados meios de transporte de eleição. No entanto, a sua escassa disponibilidade no momento da avulsão desperta a necessidade pela investigação de outros meios, nomeadamente, soluções que apresentem nesse contexto maior disponibilidade. O leite, a saliva, a solução salina e o Gatorade® continuam a representar meios alternativos para o transporte de dentes avulsionados, porém, outras soluções emergentes apresentam características biológicas que as remetem para meios de transporte promissores como por exemplo: solução de propólis, o chá verde, o extracto de aloe Vera, água de côco, clara de ovo, extracto de amora, sumo de romã, salvia officinalis e Ricetral®. Evidencia-se, com este trabalho, a necessidade de estudos futuros nesta área de modo a que meios de transporte que actualmente pensa-se poderem ser extremamente efectivos na manutenção da viabilidade célular e com ampla disponibilidade, possam ser utilizados de forma segura e vantajosa para o paciente, nomeadamente, garantindo melhores prognósticos em situações de reimplantação dentária.
