923 resultados para Firm-University Collaboration
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The development of products from marine bioresources is gaining importance in the biotechnology sector. The global market for Marine Biotechnology products and processes was, in 2010, estimated at 2.8 billion with a cumulative annual growth rate of 510% (Børresen et al., Marine biotechnology: a new vision and strategy for Europe. Marine Board Position Paper 15. Beernem: Marine Board-ESF, 2010). Marine Biotechnology has the potential to make significant contributions towards the sustainable supply of food and energy, the solution of climate change and environmental degradation issues, and the human health. Besides the creation of jobs and wealth, it will contribute to the development of a greener economy. Thus, huge expectations anticipate the global development of marine biotechnology. The marine environment represents more than 70% of the Earths surface and includes the largest ranges of temperature, light and pressure encountered by life. These diverse marine environments still remain largely unexplored, in comparison with terrestrial habitats. Notwithstanding, efforts are being done by the scientific community to widespread the knowledge on oceans microbial life. For example, the J. Craig Venter Institute, in collaboration with the University of California, San Diego (UCSD), and Scripps Institution of Oceanography have built a state-of-the-art computational resource along with software tools to catalogue and interpret microbial life in the worlds oceans. The potential application of the marine biotechnology in the bioenergy sector is wide and, certainly, will evolve far beyond the current interest in marine algae. This chapter revises the current knowledge on marine anaerobic bacteria and archaea with a role in bio-hydrogen production, syngas fermentation and bio-electrochemical processes, three examples of bioenergy production routes.
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Dissertação de mestrado em Técnicas de Caraterização e Análise Química
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OBJECTIVE: To verify whether the guidelines for the treatment of heart failure have been adopted at a university hospital. The guidelines recommend the following: use of angiotensin-converting enzyme inhibitors for all patients with systolic ventricular dysfunction, use of digitalis and diuretics for symptomatic patients, use of beta-blockers for patients in functional classes II or III, use of spironolactone for patients in functional classes III or IV. METHODS: We analyzed the prescriptions of 199 patients. All these patients had ejection fraction (EF) <=0.50, their ages ranged from 25 to 86 years, and 142 were males. Cardiomyopathy was the most frequent diagnosis: 67 (33.6%) patients had dilated cardiomyopathy, 65 (32.6%) had ischemic cardiomyopathy. RESULTS: Angiotensin-converting enzyme inhibitors were prescribed for 93% of the patients. 71.8% also had a prescription for digitalis, 86.9% for diuretics, 27.6% for spironolactone, 12% for beta-blockers, 37.2% for acetylsalicylic acid, 6.5% for calcium channel antagonists, and 12.5% for anticoagulants. In regard to vasodilators, 71% of the patients were using captopril (85.2mg/day), 20% enalapril (21.4mg/day), 3% hydralazine and nitrates. In 71.8% of the cases, the dosages prescribed were in accordance with those recommended in the large studies. CONCLUSION: Most patients were prescribed the same doses as those recommended in the large studies. Brazilian patients tolerate well the doses recommended in the studies, and that not using these doses may be a consequence of the physician's fear of prescribing them and not of the patient's intolerance.
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The increase in heavy metal contamination in freshwater systems causes serious environmental problems in most industrialized countries, and the effort to find ecofriendly techniques for reducing water and sediment contamination is fundamental for environmental protection. Permeable barriers made of natural clays can be used as low-cost and eco-friendly materials for adsorbing heavy metals from water solution and thus reducing the sediment contamination. This study discusses the application of permeable barriers made of vermiculite clay for heavy metals remediation at the interface between water and sediments and investigates the possibility to increase their efficiency by loading the vermiculite surface with a microbial biofilm of Pseudomonas putida, which is well known to be a heavy metal accumulator. Some batch assays were performed to verify the uptake capacity of two systems and their adsorption kinetics, and the results indicated that the vermiculite bio-barrier system had a higher removal capacity than the vermiculite barrier (?34.4 and 22.8 % for Cu and Zn, respectively). Moreover, the presence of P. putida biofilm strongly contributed to fasten the kinetics of metals adsorption onto vermiculite sheets. In open-system conditions, the presence of a vermiculite barrier at the interface between water and sediment could reduce the sediment contamination up to 20 and 23 % for Cu and Zn, respectively, highlighting the efficiency of these eco-friendly materials for environmental applications. Nevertheless, the contribution of microbial biofilm in open-system setup should be optimized, and some important considerations about biofilm attachment in a continuous-flow system have been discussed.
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Dissertação de mestrado em Ciências da Educação (área de especialização em Tecnologia Educativa)
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Doctoral thesis in Marketing and Strategy.
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Dissertação de mestrado em Ciências da Comunicação (área de especialização em Informação e Jornalismo)
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1916 v.2
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1917 v.3
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1913 v.1
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2
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3
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10, pt. 1
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1916:Feb.-Mar.
