Davi Fernandes | University of Sao Paulo (original) (raw)

Davi Fernandes

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Papers by Davi Fernandes

Research paper thumbnail of Geração de grid de partículas a partir de sólidos modelados com malha de triângulos

Proceedings of the XXXVI Iberian Latin American Congress on Computational Methods in Engineering, 2015

Research paper thumbnail of Implementação de framework computacional de paralelização híbrida do Moving Particle Semi-implicit Method para modelagem de fluidos incompressíveis

Gostaria de agradecer a todos aqueles que contribuíram de forma decisiva para a concretização des... more Gostaria de agradecer a todos aqueles que contribuíram de forma decisiva para a concretização deste trabalho. Ao Prof.Dr. Kazuo Nishimoto, pela oportunidade de realizar este trabalho, pelo incentivo, pelo apoio e por me indicar os caminhos mais seguros nesta longa jornada. Ao Prof. Dr. Cheng Liang-Yee, que coorientou este trabalho, acompanhando cada passo do seu desenvolvimento, contribuindo com críticas precisas e sugestões valiosas. Ao Prof. Dr. José Luis Drummond Alves, pelas valiosas críticas e sugestões apresentadas durante o exame de qualificação. A todos os amigos e colegas do TPN que muito contribuíram de forma decisiva para a realização deste trabalho. À FUSP-Fundação de Apoio à Universidade de São Paulo, pela concessão da bolsa de doutorado e pelo apoio financeiro para a realização desta pesquisa. Ao Tanque de Provas Numérico (TPN) da Universidade de São Paulo, por colocar à disposição o cluster de computadores. Por último, manifesto um profundo reconhecimento à minha esposa Tânia e a minha filha Amanda, pelo apoio incondicional ao longo destes anos e, principalmente, por lidarem pacientemente com as constantes oscilações do meu humor, que balançavam ao ritmo da evolução dos meus esforços.

Research paper thumbnail of A domain decomposition strategy for hybrid parallelization of moving particle semi-implicit (MPS) method for computer cluster

Cluster Computing, 2015

ABSTRACT

Research paper thumbnail of Proximal tubular HCO 3 − , H+ and fluid transport during maleate-induced acidification defect

Pflügers Archiv European Journal of Physiology, 1984

The mechanism of tubular acidification was studied in proximal tubular acidification defect induc... more The mechanism of tubular acidification was studied in proximal tubular acidification defect induced in rats by acute parenteral infusion of maleate (200 mg/kg), which causes diuresis and bicarbonaturia. Proximal tubular bicarbonate reabsorption and H+ ion secretion were determined by stopped-flow microperfusion and measurement of luminal pH by Sb microelectrodes. Stationary pH increased in proximal tubule from 6.78 to 7.25 and bicarbonate reabsorption decreased from 1.32 to 0.51 nmol/cm2 X s. In these segments, mean cell PD fell from -66.6 to -20.2 mV, while Jv as estimated by the Gertz technique fell to 15% of controls. A similar impairment of acidification was observed during luminal and capillary perfusion with phosphate Ringer's. Since H+-ion efflux from the lumen was not significantly increased and both acidification and alkalinization half-times (t/2) were increased, no evidence for an increase in passive permeability for H+/HCO3- was obtained. The increased t/2 found during luminal perfusion with acid phosphate indicates, according to an electrical analog model, a reduction in pump series conductance. These results show that maleate affects both proximal Na+ and H+ transport; this effect may be ascribed to impairment of sodium-dependent transport systems in the brush-border membrane.

Research paper thumbnail of Factors affecting proximal tubular acidification of non-bicarbonate buffer in the rat

The Journal of Physiology

The effect of peritubular PCO2 and pH changes within the physiological range on proximal tubular ... more The effect of peritubular PCO2 and pH changes within the physiological range on proximal tubular acidification of non-bicarbonate (phosphate) buffer was evaluated with and without carbonic anhydrase inhibition by stopped-flow microperfusion and Sb micro-electrode techniques. Luminal steady-state pH was reduced from 6.69 to 6.37 and H ion fluxes (JH+) increased from 0.63 to 1.57 nmol cm-2 s-1 by increasing capillary CO2 from 0 to 9.6% at pH 7.2. After acetazolamide a marked, although attenuated, effect of CO2 on acidification was still observed; JH+ increased from 0.088 nmol cm-2 s-1 at 0% CO2 to 0.78 at 9.6% CO2. Most of this effect can be explained by titration of luminal buffer by CO2, uncatalysed CO2 hydration and H2CO3 recirculation. An increase in capillary CO2 reduced acidification half-times (t/2), which, according to an analogue circuit model, may be due to increased H ion access to the pump. Peritubular pH changes at 0% CO2 also modified tubular acidification, increasing JH...

Research paper thumbnail of Geração de grid de partículas a partir de sólidos modelados com malha de triângulos

Proceedings of the XXXVI Iberian Latin American Congress on Computational Methods in Engineering, 2015

Research paper thumbnail of Implementação de framework computacional de paralelização híbrida do Moving Particle Semi-implicit Method para modelagem de fluidos incompressíveis

Gostaria de agradecer a todos aqueles que contribuíram de forma decisiva para a concretização des... more Gostaria de agradecer a todos aqueles que contribuíram de forma decisiva para a concretização deste trabalho. Ao Prof.Dr. Kazuo Nishimoto, pela oportunidade de realizar este trabalho, pelo incentivo, pelo apoio e por me indicar os caminhos mais seguros nesta longa jornada. Ao Prof. Dr. Cheng Liang-Yee, que coorientou este trabalho, acompanhando cada passo do seu desenvolvimento, contribuindo com críticas precisas e sugestões valiosas. Ao Prof. Dr. José Luis Drummond Alves, pelas valiosas críticas e sugestões apresentadas durante o exame de qualificação. A todos os amigos e colegas do TPN que muito contribuíram de forma decisiva para a realização deste trabalho. À FUSP-Fundação de Apoio à Universidade de São Paulo, pela concessão da bolsa de doutorado e pelo apoio financeiro para a realização desta pesquisa. Ao Tanque de Provas Numérico (TPN) da Universidade de São Paulo, por colocar à disposição o cluster de computadores. Por último, manifesto um profundo reconhecimento à minha esposa Tânia e a minha filha Amanda, pelo apoio incondicional ao longo destes anos e, principalmente, por lidarem pacientemente com as constantes oscilações do meu humor, que balançavam ao ritmo da evolução dos meus esforços.

Research paper thumbnail of A domain decomposition strategy for hybrid parallelization of moving particle semi-implicit (MPS) method for computer cluster

Cluster Computing, 2015

ABSTRACT

Research paper thumbnail of Proximal tubular HCO 3 − , H+ and fluid transport during maleate-induced acidification defect

Pflügers Archiv European Journal of Physiology, 1984

The mechanism of tubular acidification was studied in proximal tubular acidification defect induc... more The mechanism of tubular acidification was studied in proximal tubular acidification defect induced in rats by acute parenteral infusion of maleate (200 mg/kg), which causes diuresis and bicarbonaturia. Proximal tubular bicarbonate reabsorption and H+ ion secretion were determined by stopped-flow microperfusion and measurement of luminal pH by Sb microelectrodes. Stationary pH increased in proximal tubule from 6.78 to 7.25 and bicarbonate reabsorption decreased from 1.32 to 0.51 nmol/cm2 X s. In these segments, mean cell PD fell from -66.6 to -20.2 mV, while Jv as estimated by the Gertz technique fell to 15% of controls. A similar impairment of acidification was observed during luminal and capillary perfusion with phosphate Ringer's. Since H+-ion efflux from the lumen was not significantly increased and both acidification and alkalinization half-times (t/2) were increased, no evidence for an increase in passive permeability for H+/HCO3- was obtained. The increased t/2 found during luminal perfusion with acid phosphate indicates, according to an electrical analog model, a reduction in pump series conductance. These results show that maleate affects both proximal Na+ and H+ transport; this effect may be ascribed to impairment of sodium-dependent transport systems in the brush-border membrane.

Research paper thumbnail of Factors affecting proximal tubular acidification of non-bicarbonate buffer in the rat

The Journal of Physiology

The effect of peritubular PCO2 and pH changes within the physiological range on proximal tubular ... more The effect of peritubular PCO2 and pH changes within the physiological range on proximal tubular acidification of non-bicarbonate (phosphate) buffer was evaluated with and without carbonic anhydrase inhibition by stopped-flow microperfusion and Sb micro-electrode techniques. Luminal steady-state pH was reduced from 6.69 to 6.37 and H ion fluxes (JH+) increased from 0.63 to 1.57 nmol cm-2 s-1 by increasing capillary CO2 from 0 to 9.6% at pH 7.2. After acetazolamide a marked, although attenuated, effect of CO2 on acidification was still observed; JH+ increased from 0.088 nmol cm-2 s-1 at 0% CO2 to 0.78 at 9.6% CO2. Most of this effect can be explained by titration of luminal buffer by CO2, uncatalysed CO2 hydration and H2CO3 recirculation. An increase in capillary CO2 reduced acidification half-times (t/2), which, according to an analogue circuit model, may be due to increased H ion access to the pump. Peritubular pH changes at 0% CO2 also modified tubular acidification, increasing JH...

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