26 research outputs found
Effective models of quantum gravity induced by Planck scale modifications in the covariant quantum algebra
In this paper we introduce a modified covariant quantum algebra based in the
so-called Quesne-Tkachuk algebra. By means of a deformation procedure we arrive
at a class of higher derivative models of gravity. The study of the particle
spectra of these models reveals an equivalence with the physical content of the
well-known renormalizable and super-renormalizable higher derivative gravities.
The particle spectrum exhibits the presence of spurious complex ghosts and, in
light of this problem, we suggest an interesting interpretation in the context
of minimal length theories. Also, a discussion regarding the non-relativistic
potential energy is proposed.Comment: Small corrections were made; improved figures; results unchanged;
published versio
Post-thaw viability of in vivo-produced canine blastocysts cryopreserved by slow freezing
The objectives were to evaluate the reexpansion blastocoele rate, post-thaw viability, and in vitro development of canine blastocysts cryopreserved by slow freezing in 1.0 m glycerol (GLY) or 1.5 m ethylene glycol (EG). Fifty-one in vivo-produced canine blastocysts were randomly allocated in two groups: GLY (n = 26) and EG (n = 25). After thawing, embryos from MO were immediately stained with the fluorescent probes propidium iodide and Hoechst 33 342 to evaluate cellular viability. Frozen-thawed embryos from M3 and M6 were cultured in SOFaa medium + 10% FCS at 38.5 degrees C under an atmosphere of 5% CO2 with maximum humidity, for 3 and 6 days, respectively, and similarly stained. The blastocoele reexpansion rate (24 h after in vitro culture) did not differ between GLY (76.5%) and EG (68.8%). Post-thaw viable cells rate were not significantly different between GLY and EG (66.5 +/- 4.8 and 57.3 +/- 4.8, respectively, mean +/- SEM), or among MO (62.3 +/- 5.7%), M3 (56.9 +/- 6.0%), and M6 (66.5 +/- 6.0%). In conclusion, canine blastocysts cryopreserved by slow freezing in 1.0 m glycerol or 1.5 m ethylene glycol, had satisfactory blastocoele reexpansion rates, similar post-thawing viability, and remained viable for up to 6 days of in vitro culture. (C) 2012 Elsevier Inc. All rights reserved.Fundacao de Amparo a Pesquisa do Espirito Santo (FAPES/MCT/CNPq/CTINFRA)CAPES/REUNIDuMilho Raçõe
Estudo da Integração de uma Célula a Combustível a Óxido Sólido com Uma Microturbina a Gás
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Previous issue date: 2015-11-30Neste trabalho foi estudado a produção de energia elétrica, através de reações químicas,
realizada por células a combustível, sendo que a Célula a Combustível a Óxido Sólido foi o
foco deste estudo. Estas células são produzidas em dois tipos de geometrias diferentes, podendo
ser tubular ou planar. Mas independente da geometria, elas podem ser alimentadas por gás
natural, o qual passará por um processo interno à célula chamado reforma, que possui o objetivo
de transformar compostos ricos em carbono em monóxido de carbono e hidrogênio, sendo este
o principal combustível para a produção energética. O produto desta célula, além da energia
elétrica, é gás carbônico e água, o que a torna sustentável, pois utiliza principalmente o gás
metano, um dos principais responsáveis pelo efeito estufa, para produção de hidrogênio e
devolve água e gás carbônico. Além disto, é uma fonte produtora de energia estacionária que
pode ficar mais próxima ao consumidor final, podendo levar energia elétrica em locais de difícil
acesso ou onde não é viável economicamente levar linhas de transmissão.
O objetivo deste trabalho foi o estudo do aumento da eficiência de um sistema composto por
uma célula a combustível a óxido sólido e uma microturbina a gás ligada na saída da célula e
utilizando seus gases para produzir energia elétrica.
Foi desenvolvido um modelo termoquímico e elétrico para obter o rendimento da célula
operando sozinha, mostrando a sua eficiência e posteriormente o modelo da microturbina a gás
e então o aumento da eficiência do sistema com as duas trabalhando juntas
Latent coeliac disease in a child with epilepsy, cerebral calcifications, drug-induced systemic lupus erythematosus and intestinal folic acid transport across the blood-brain barrier
A 15-year-old boy with epilepsy and cerebral calcifications, treated with valproic acid, ethyl phenylbarbiturate and ethosuximide, was referred for drug induced systemic lupus erythematosus. Anti-gliadin (AGA) and anti-endomysium (EMA) antibody tests were both positive (EMA titre 1:50). Endoscopic duodenal biopsy showed intense chronic inflammation without villous atrophy or crypt hyperplasia. The child was discharged with a gluten-containing diet. The follow-up showed an increase in EMA titre (1:200) and the persistence of AGA. After 15 months, a second endoscopic intestinal biopsy showed flat mucosa and villous atrophy. Three serum folic acid determinations showed 1.8, 2.4, 2.0 ng/ml (reference range 2.5-16.9 ng/ml) prior to the two intestinal biopsies, but returned to normal levels (11.8 ng/ml) after a gluten-free diet and oral supplementation together. Two years later, the frequency of epileptic seizures was unchanged despite ongoing anti-epileptic treatment and a gluten-free diet. As cerebral calcification and epilepsy are reminiscent of the findings in congenital folate malabsorption, oral loading tests with 5 mg folic acid were carried out and showed impaired intestinal absorption and a defect in the transport across the blood-brain barrier. Low CSF folate levels (13.9 and 12.6 ng/ml, reference range 15-40 ng/ml) and an alteration in the CSF/serum folate ratio (1.43 and 1.16, normal ratio 3:1) were also found as well as increased levels of cystathionine both in CSF (40 micromol/l, reference range 18-28 micromol/l) and in serum (32 micromol/l, reference value <0.10 micromol/l).
CONCLUSION:
Impairment of intestinal folic acid absorption with a defect in folic acid transport across the blood-brain barrier has been demonstrated in a case of epilepsy and cerebral calcifications associated with coeliac disease
Pre-impact detection algorithm to identify lack of balance due to tripping-like perturbations
This study investigates the performance of an updated version of our pre-impact detection algorithm while parsing out hip kinematics in order to identify unexpected tripping-like perturbations during walking. This approach grounds on the hypothesis that due to unexpected gait disturbances, the cyclic features of hip kinematics are suddenly altered thus promptly highlighting that the balance is challenged. To achieve our goal, hip angles of eight healthy young subjects were recorded while they were managing unexpected tripping trials delivered during the steady locomotion. Results showed that the updated version of our pre-impact detection algorithm allows for identifying a lack of balance due to tripping-like perturbations, after a suitable tuning of the algorithm parameters. The best performance is represented by a mean detection time ranging within 0.8-0.9 s with a low percentage of false alarms (i.e., lower than 10%). Accordingly, we can conclude that the proposed strategy is able to detect lack of balance due to different kinds of gait disturbances (e.g., slippages, tripping) and that it could be easily implemented in lower limb orthoses/prostheses since it only relies on joint angles
Pre-impact detection algorithm to identify lack of balance due to tripping-like perturbations
This study investigates the performance of an updated version of our pre-impact detection algorithm while parsing out hip kinematics in order to identify unexpected tripping-like perturbations during walking. This approach grounds on the hypothesis that due to unexpected gait disturbances, the cyclic features of hip kinematics are suddenly altered thus promptly highlighting that the balance is challenged. To achieve our goal, hip angles of eight healthy young subjects were recorded while they were managing unexpected tripping trials delivered during the steady locomotion. Results showed that the updated version of our pre-impact detection algorithm allows for identifying a lack of balance due to tripping-like perturbations, after a suitable tuning of the algorithm parameters. The best performance is represented by a mean detection time ranging within 0.8-0.9 s with a low percentage of false alarms (i.e., lower than 10%). Accordingly, we can conclude that the proposed strategy is able to detect lack of balance due to different kinds of gait disturbances (e.g., slippages, tripping) and that it could be easily implemented in lower limb orthoses/prostheses since it only relies on joint angles
Assessment of biomechanical response to fatigue through wearable sensors in semi-professional football referees
Quantifying muscle fatigue is a key aspect of everyday sport practice. A reliable and objective solution that can fulfil this task would be deeply important for two main reasons: (i) it would grant an objective indicator to adjust the daily training load for each player and (ii) it would provide an innovative tool to reduce the risk of fatigue-related injuries. Available solutions for objectively quantifying the fatigue level of fatigue can be invasive for the athlete; they could alter the performance or they are not compatible with daily practice on the playground. Building on previous findings that identified fatigue-related parameters in the kinematic of the counter-movement jump (CMJ), this study evaluates the physical response to a fatigue protocol (i.e., Yo-Yo Intermittent Recovery Test Level 1) in 16 football referees, by monitoring CMJ performance with wearable magneto-inertial measurement units (MIMU). Nineteen kinematic parameters were selected as suitable indicators for fatigue detection. The analysis of their variations allowed us to distinguish two opposites but coherent responses to the fatigue protocol. Indeed, eight out of sixteen athletes showed reduced performance (e.g., an effective fatigue condition), while the other eight athletes experienced an improvement of the execution likely due to the so-called Post-Activation Potentiation. In both cases, the above parameters were significantly influenced by the fatigue protocol (p < 0.05), confirming their validity for fatigue monitoring. Interesting correlations between several kinematic parameters and muscular mass were highlighted in the fatigued group. Finally, a “fatigue approximation index” was proposed and validated as fatigue quantifier