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How geography influences complex cognitive abilityUniversidad Peruana de Ciencias Aplicadas (UPC), León, Federico R., Burga León, Andrés 20 May 2015 (has links)
federicorleone@gmail.com / Evolutionary explanations for geography's influence on complex cognitive ability (CCA) imply virtually immutable components of between-nation IQ differences. Their weight vis-à-vis the weight of situational components was evaluated through an analysis of a 194-country data set. Additive effects of absolute latitude (AL) and longitudinal distance from Homo sapiens' cradle (LDC) explain Northeastern Asian higher, Sub-Saharan African lower CCAs. AL exerts cognitive influence directly and through socioeconomic development and evolutionary genetics whereas LDC does through evolutionary genetics; however, this occurs differently in Africa-Near East- Europe and elsewhere. The findings are understood assuming supremacy of contemporary UVB radiation → hormonal and climatic → socioeconomic mediators of the AL–CCA linkage whose effects are moderated by heterogeneous genetic and cultural adaptations to radiation and climate. Geography's cognitive effects are dynamic and public-policy actions may modify them. / Funds for this researchwere provided by the Vicerrectorado
de Investigación through the Research Center at Universidad
San Ignacio de Loyola (USIL), Lima, Peru. We are indebted to Romain Wacziarg for making available to us the Spolaore-
Wacziarg tables on genetic distance and Edvard Avilés for
comments to an earlier version of the paper. FRL designed the
study, drafted the manuscript, performed part of the analyses,
and interpreted the findings. ABL performed the path analyses
and approved the manuscript. The data set utilized in the
research has been positioned at USIL's Repository and can be
accessed through the following link: http://repositorio.usil.edu.
pe/jspui/handle/123456789/1038. / Revisión por pares
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Evidence based ex situ husbandry for captive amphibiansMichaels, Christopher January 2015 (has links)
Amphibians are declining worldwide in response to pressures that are too numerous, difficult and rapid to ameliorate in the wild before some taxa become extinct. Ex situ conservation, whereby animals are maintained in captivity until threats in the wild have been resolved, is the only means of saving up to five hundred amphibian species. Amongst political, financial and practical hurdles, the most fundamental problem for these programmes is lack of knowledge about how to maintain species successfully in captivity. Captive populations have failed to survive or reproduce and, furthermore, captive husbandry may produce animals unsuitable for reintroduction through intra or inter-generational changes. These problems entirely undermine initiatives and if ex situ programs are to succeed, evidence based captive husbandry is needed to support captive breeding programs. In this thesis, I quantify our ignorance of amphibian requirements in captivity. Furthermore, I present investigations into fundamental areas ofamphibian husbandry, about which we currently know very little. I investigate the relationship between amphibians and Ultraviolet B (UVB) radiation and examine the relationship between UVB provision and calcium provision and evaluate routes of dietary calcium supplementation. I also present data on the effects of enrichment and rearing environment on the growth, fitness, behaviour and dermal bacterial communities of captive amphibians. These results, from a range of areas of amphibian husbandry, together demonstrate the power of the captive environment to influence the phenotype and therefore the fitness of amphibians, even within single generations. Additionally, I provide some of the first data addressing key areas of amphibian husbandry that until now have been led mostly or entirely by anecdote and hearsay.
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Studium kinetiky fotochemických reakcí v tenké tištěné polymerní vrstvě / Kinetic study of photochemical reactions in thin printed layerRudická, Andrea January 2020 (has links)
This diploma thesis deals with a study of kinetics of photochemical reactions in a thin printed polymer layer. The experimental part deals with the composition preparation and layers coating. The prepared layers were exposed and subsequently studied for their colour response to the light. The aim of this work was to prepare a photosensitive layer with a significant colour change between individual doses of radiation, to improve the mechanical resistance of the layers, to adjust the sensitivity of the compositions to UVB radiation and to study the kinetics of the photochemical reaction used.
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Psycho-physiological stress and its effects on ultraviolet light induced inflammation, DNA damage, and skin carcinogenesisSaul, Alison Nicole 08 March 2007 (has links)
No description available.
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Avaliação do crescimento e composição de micro-organismos fotossintetizantes para uso como matéria-prima em fotoprotetor / Evaluation of growth and composition of photosynthetic microorganisms for use as raw material in sunscreen.Araújo, Fabíola Ornellas de 26 February 2016 (has links)
O cultivo dos micro-organismos fotossintetizantes depende de alguns fatores primordiais, como a intensidade luminosa a ser empregada, a temperatura e a quantidade de nitrogênio fornecida ao reator. Extratos de micro-organismos, devido à ampla possibilidade que estes possuem de produzir compostos orgânicos, podem conter substâncias possíveis de serem utilizadas em formulações cosméticas capazes de proteger a pele contra os eventuais efeitos danosos das radiações UVA e UVB, as quais estão crescentes devido ao aumento na depleção da camada de ozônio atmosférico. Assim, esta pesquisa teve como objetivo o estudo de dois micro-organismos fotossintetizantes, Arthrospira (Spirulina) platensis e Chlorella vulgaris, como fonte de moléculas com ação fotoprotetora. Incialmente foram avaliadas fontes de nitrogênio (sulfato de amônio, nitrato de sódio e ureia) e suas concentrações em cultivos de C. vulgaris, utilizando-se erlenmeyers, e para ambos os micro-organismos foram realizados experimentos em reatores tubulares. As condições correspondentes aos maiores crescimentos celulares foram utilizadas para produção de biomassas, estas avaliadas quanto à ação fotoprotetora. Nos cultivos, foram avaliados a concentração celular máxima (Xm), produtividade em células (Px), teor proteico da biomassa seca (Tprot) e teor lipídico da biomassa seca (Tlip). Foi avaliada a ação fotoprotetora dos extratos desses micro-organismos, obtidos com solventes de diferentes polaridades, e verificando-se o potencial destes na elaboração do fotoprotetor. Em cultivos em erlenmeyers, utilizando-se meio Bold modificado, a associação de sulfato de amônio e nitrato de sódio nas concentrações de 5 mM, para ambas as fontes de nitrogênio, direcionou-se para maiores resultados de crescimentos de C. vulgaris, obtendo-se: Xm= 538 mg.L-1; Px= 28,9 mg.L-1.d-1; Tprot= 40,9 %; Tlip= 18,8 %. Nos cultivos em reatores tubulares de C. vulgaris, utilizando-se condições otimizadas em frascos Erlenmeyers (meio Bold e 5 mM de (NH4)2SO4 e 5 mM de NaNO3), os resultados obtidos foram: Xm= 3011 mg.L-1; Px= 373 mg.L-1.d-1; Tprot= 42,2 %; Tlip= 19,5 %. Nos cultivos em reatores tubulares de A. (Spirulina) platensis (meio Schlösser enriquecido com 30 mM de NaNO3), obtiveram-se: Xm= 2925 mg.L-1; Px= 370,3 mg.L-1.d-1; Tprot= 40,1 %; Tlip= 19,4 %. Dentre os extratos desses micro-organismos fotossintetizantes, o de Chlorella vulgaris foi o que apresentou o melhor FPS, revelando ser esta a que possuiu o melhor desempenho de ação fotoprotetora, cujo fator de proteção solar (FPS) foi de 38, após a formulação ser irradiada com UV. / The cultivation of the photosynthetic microorganisms relies on some key factors, such as the light intensity to be employed, the temperature and the amount of nitrogen supplied to the reactor. The extracts of microorganisms, due to the large possibility that these have to produce organic compounds, may contain substances that can be used in cosmetic formulations that protect the skin from any harmful effects of UVA and UVB radiation, which are increasing due to the increase in depletion of atmospheric ozone. Thus, this research aimed to study two photosynthetic microorganisms, Arthrospira (Spirulina) platensis and Chlorella vulgaris, as a source of molecules with sunscreen action. Initially, were evaluated sources of nitrogen (ammonium sulfate, sodium nitrate and urea) and different concentrations theirs in C. vulgaris cultures, using Erlenmeyer flasks, and for both microorganisms were carried out experiments in tubular reactors. The corresponding conditions to the larger cell growths were used for the production of biomasses, which were evaluated for theirs photoprotective action. In the medium were evaluated: the maximum cell concentration (Xm), productivity in cells (Px), protein content of the dry biomass (Tprot) and lipid content of dry biomass (Tlip). It was evaluated the photoprotective action of extracts from these microorganisms, obtained using solvents of different polarity, and verifying the potential of these in the preparation of sunscreen. In cultures in Erlenmeyer flasks, using modified medium Bold, the combination of ammonium sulfate and sodium nitrate in concentration 5 mM for both nitrogen source led to a higher growth of the C. vulgaris, getting: Xm= 538 mg.L-1; Px= 28.9 mg.L-1.d-1; Tprot= 40.9 %; Tlip= 18.8 %. In cultivation in tubular reactors of C. vulgaris, using the optimized conditions in Erlenmeyer flasks (medium Bold and 5 mM of (NH4)2SO4nd 5 mM of NaNO3), the obtained results were: Xm= 3011 mg.L-1; Px= 373 mg.L-1.d-1; Tprot= 42.2 %; Tlip= 19.5 %. In cultivation in tubular reactors of A. (Spirulina) platensis (medium Schlösser supplemented with 30 mM of NaNO3), the results were: Xm= 2925 mg.L-1; Px= 370.3 mg.L-1.d-1; Tprot= 40.1 %; Tlip= 19.4 %. Among the extracts of these photosynthetic microorganisms, Chlorella vulgaris showed the best SPF, revealing that this is what possessed the best sunscreen action performance, whose sun protection factor (SPF) was 38, after the formulation irradiated with UV.
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Effets des rayonnements UVB sur la libération de médiateurs pro-inflammatoires impliqués dans le vieillissement cutané : activité anti-âge d’un extrait de fleurs de Butea monosperma (Lam.) Taubert / Effects of the UVB radiations on the liberation of pro-inflammatory mediators involved in skin aging : anti-aging activity of a Butea monosperma (Lam.) Taub. flowers extractKrolikiewicz-Renimel, Isabelle 18 June 2013 (has links)
Le photo-vieillissement cutané est en partie dû aux effets néfastes des rayonnements UV qui induisent un stress oxydant. Celui-ci joue un rôle promoteur dans l’installation d’un statut micro-inflammatoire lié à la production de médiateurs tels que des cytokines pro-inflammatoires, des métalloprotéinases de la matrice extracellulaire (MMPs) et des prostaglandines E2. Mes travaux ont été effectués sur le kératinocyte, cellule majeure de l’épiderme et acteur du processus de vieillissement cutané. Dans une première partie, nous décrivons différentes expériences menées pour évaluer l’association de plusieurs molécules anti-oxydantes connues afin d’en potentialiser l’activité. Cette étude a mis en évidence que dans certains cas, un effet pro-oxydant pouvait être observé. Dans une seconde partie, grâce à un système de multiplexing, nous avons pu identifier 39 cytokines et 4 MMPs sécrétées par les kératinocytes suites à une irradiation par des UVB. Nous avons également pu mettre en évidence une différence entre donneurs jeunes et âgés, avec une augmentation des cytokines pro-inflammatoires et une diminution des cytokines anti-inflammatoires pour ces derniers. Dans une dernière partie, l’activité d’un extrait de fleurs de Butea monosperma a été étudiée. L’extrait présente une activité anti-oxydante en piégeant les EORs intracellulaires, anti-inflammatoire en diminuant la sécrétion de cytokines pro-inflammatoires (IL-1; IL-6 et IL-8) et protectrice du derme en inhibant la production de MMP-1 ; 2 ; 9 et 10. Cette étude multifactorielle a permis d’expliquer les utilisations traditionnelles de cette plante comme anti-inflammatoire. En conclusion, afin de comprendre et de limiter les effets des radiations UVB sur le vieillissement cutané, il est nécessaire d’avoir une approche multifactorielle. Comme nous l’avons observé, le stress oxydant n’est pas le seul responsable du statut micro-inflammatoire cutané mais en est le promoteur. Il faut donc agir en amont en limitant la production d’EORs et en aval en contrôlant la sécrétion de cytokines pro-inflammatoires et de MMPs. / Early signs of skin aging are related amongst others by UV irradiation that induces an oxidative stress. This one is associated with a skin micro-inflammatory status which is the consequence of mediator productions as pro-inflammatory cytokines, matrix metalloproteinases (MMPs) and prostaglandin E2. Studies reported in this thesis were mainly conducted with human keratinocyte, one of the cells involved in the skin aging process. In a first part, we describe various experiments led to evaluate the association of several antioxydant molecules in the aim to increase their activities. This study has shown that in certain cases, a pro-oxidizing effect could be observed. In a second part, through a multiplexing system, we have identified 39 cytokines and 4 extracellular MMPs that are secreted upon UVB irradiation. We have also found a difference between the cytokines secreted by keratinocytes from young and old donors; the latter has an increase of pro-inflammatory cytokines and a decrease in anti-inflammatory cytokines. Finally, in a last part, an extract of flowers of Butea monosperma has been studied. The extract present an anti-oxidant activity by scavenging intracellular ROS, an anti-inflammatory effect by reducing the secretion of pro-inflammatory cytokines (IL-1 , IL-6 and IL-8) and a protective effect of the dermis by inhibiting the production of extracellular MMP-1, 2, 9 and 10. These results explain the strong protective anti-inflammatory activity of this plant which is widely used. In conclusion, in order to understand and limit the impact UVB radiations on skin aging, it is necessary to have a multifactorial approach. As we have observed, oxidative stress is not solely responsible for the micro-inflammatory status associated with photo-aging, but is the proponent. We must act upstream by limiting production of ROS and downstream by controlling the secretion of pro-inflammatory cytokines and MMPs.
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Avaliação do crescimento e composição de micro-organismos fotossintetizantes para uso como matéria-prima em fotoprotetor / Evaluation of growth and composition of photosynthetic microorganisms for use as raw material in sunscreen.Fabíola Ornellas de Araújo 26 February 2016 (has links)
O cultivo dos micro-organismos fotossintetizantes depende de alguns fatores primordiais, como a intensidade luminosa a ser empregada, a temperatura e a quantidade de nitrogênio fornecida ao reator. Extratos de micro-organismos, devido à ampla possibilidade que estes possuem de produzir compostos orgânicos, podem conter substâncias possíveis de serem utilizadas em formulações cosméticas capazes de proteger a pele contra os eventuais efeitos danosos das radiações UVA e UVB, as quais estão crescentes devido ao aumento na depleção da camada de ozônio atmosférico. Assim, esta pesquisa teve como objetivo o estudo de dois micro-organismos fotossintetizantes, Arthrospira (Spirulina) platensis e Chlorella vulgaris, como fonte de moléculas com ação fotoprotetora. Incialmente foram avaliadas fontes de nitrogênio (sulfato de amônio, nitrato de sódio e ureia) e suas concentrações em cultivos de C. vulgaris, utilizando-se erlenmeyers, e para ambos os micro-organismos foram realizados experimentos em reatores tubulares. As condições correspondentes aos maiores crescimentos celulares foram utilizadas para produção de biomassas, estas avaliadas quanto à ação fotoprotetora. Nos cultivos, foram avaliados a concentração celular máxima (Xm), produtividade em células (Px), teor proteico da biomassa seca (Tprot) e teor lipídico da biomassa seca (Tlip). Foi avaliada a ação fotoprotetora dos extratos desses micro-organismos, obtidos com solventes de diferentes polaridades, e verificando-se o potencial destes na elaboração do fotoprotetor. Em cultivos em erlenmeyers, utilizando-se meio Bold modificado, a associação de sulfato de amônio e nitrato de sódio nas concentrações de 5 mM, para ambas as fontes de nitrogênio, direcionou-se para maiores resultados de crescimentos de C. vulgaris, obtendo-se: Xm= 538 mg.L-1; Px= 28,9 mg.L-1.d-1; Tprot= 40,9 %; Tlip= 18,8 %. Nos cultivos em reatores tubulares de C. vulgaris, utilizando-se condições otimizadas em frascos Erlenmeyers (meio Bold e 5 mM de (NH4)2SO4 e 5 mM de NaNO3), os resultados obtidos foram: Xm= 3011 mg.L-1; Px= 373 mg.L-1.d-1; Tprot= 42,2 %; Tlip= 19,5 %. Nos cultivos em reatores tubulares de A. (Spirulina) platensis (meio Schlösser enriquecido com 30 mM de NaNO3), obtiveram-se: Xm= 2925 mg.L-1; Px= 370,3 mg.L-1.d-1; Tprot= 40,1 %; Tlip= 19,4 %. Dentre os extratos desses micro-organismos fotossintetizantes, o de Chlorella vulgaris foi o que apresentou o melhor FPS, revelando ser esta a que possuiu o melhor desempenho de ação fotoprotetora, cujo fator de proteção solar (FPS) foi de 38, após a formulação ser irradiada com UV. / The cultivation of the photosynthetic microorganisms relies on some key factors, such as the light intensity to be employed, the temperature and the amount of nitrogen supplied to the reactor. The extracts of microorganisms, due to the large possibility that these have to produce organic compounds, may contain substances that can be used in cosmetic formulations that protect the skin from any harmful effects of UVA and UVB radiation, which are increasing due to the increase in depletion of atmospheric ozone. Thus, this research aimed to study two photosynthetic microorganisms, Arthrospira (Spirulina) platensis and Chlorella vulgaris, as a source of molecules with sunscreen action. Initially, were evaluated sources of nitrogen (ammonium sulfate, sodium nitrate and urea) and different concentrations theirs in C. vulgaris cultures, using Erlenmeyer flasks, and for both microorganisms were carried out experiments in tubular reactors. The corresponding conditions to the larger cell growths were used for the production of biomasses, which were evaluated for theirs photoprotective action. In the medium were evaluated: the maximum cell concentration (Xm), productivity in cells (Px), protein content of the dry biomass (Tprot) and lipid content of dry biomass (Tlip). It was evaluated the photoprotective action of extracts from these microorganisms, obtained using solvents of different polarity, and verifying the potential of these in the preparation of sunscreen. In cultures in Erlenmeyer flasks, using modified medium Bold, the combination of ammonium sulfate and sodium nitrate in concentration 5 mM for both nitrogen source led to a higher growth of the C. vulgaris, getting: Xm= 538 mg.L-1; Px= 28.9 mg.L-1.d-1; Tprot= 40.9 %; Tlip= 18.8 %. In cultivation in tubular reactors of C. vulgaris, using the optimized conditions in Erlenmeyer flasks (medium Bold and 5 mM of (NH4)2SO4nd 5 mM of NaNO3), the obtained results were: Xm= 3011 mg.L-1; Px= 373 mg.L-1.d-1; Tprot= 42.2 %; Tlip= 19.5 %. In cultivation in tubular reactors of A. (Spirulina) platensis (medium Schlösser supplemented with 30 mM of NaNO3), the results were: Xm= 2925 mg.L-1; Px= 370.3 mg.L-1.d-1; Tprot= 40.1 %; Tlip= 19.4 %. Among the extracts of these photosynthetic microorganisms, Chlorella vulgaris showed the best SPF, revealing that this is what possessed the best sunscreen action performance, whose sun protection factor (SPF) was 38, after the formulation irradiated with UV.
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Insulin-like growth factor-1 (IGF-1) impacts p53-regulated gene products in UVB-irradiated human keratinocytes and skin epidermisAlkawar, Abdulrhaman Mohammed Mohammed 21 May 2020 (has links)
No description available.
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Porcine skin explants as a new model to investigate microvesicle particle generationSingh, Shikshita 16 May 2023 (has links)
No description available.
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