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The study of oxygen consumption rate under" in vivo" human cornea during contact lens wear has been technically a challenge and several attempts have been made in the last 20 years to model the physiology of the human cornea during contact lens wear. Unfortunately, some of these models, based on a constant corneal oxygen consumption rate, produce areas on the cornea where the oxygen tension is negative, which has no physical sense. In order to avoid such inconsistency, different researchers have developed alternative models of oxygen consumption, which predict the likely oxygen metrics available at the interface cornea/post lens tear film by determination of oxygen flux, oxygen consumption, and oxygen tension through the different layers (endothelium, stroma, and epithelium). Although oxygen deficiency produces corneal edema, corneal swelling, hypoxia, acidosis, and other abnormalities, the estimation of the oxygen distribution below the impact of a contact lens wear is interesting to know which lens transmissibility was adequate to maintain the cornea and avoid epithelial and stromal anoxia. The estimation of minimum transmissibility for a lens for extended wear applications will be very useful for both clinicians and manufacturers. The aim of this work is to present a complete discussion based on Monod kinetics model that permits give an estimation of oxygen partial pressure distribution, the profile distribution of corneal flux and oxygen consumption rate, and finally the estimation of the relaxation mechanism of the cornea depending on the oxygen tension at the interface cornea/post lens tear film. Relaxation time in this context can quantify the capability of the corneal tissue to adapt to increasing concentrations of oxygen. It is proposed this parameter as a biological meaningful indicator of the interaction between contact lens polymers and living tissues such as the corneal cellular layer.

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Los pacientes que reciben dosis sub-óptima de hemodiálisis tienen mayor morbimortalidad. El objetivo del trabajo fue identificar los factores predisponentes y las principales causas de diálisis inadecuada y diseñar un algoritmo para aplicar en estos casos. Se realizó un estudio de corte transversal. Se incluyeron 90 pacientes en hemodiálisis crónica, en el Hospital Privado Universitario de Córdoba, en septiembre 2015. Veintidós recibieron una dosis sub-óptima de hemodiálisis. Aquellos con un volumen de distribución de urea (V) mayor a 40 l (72 kg de peso corporal aproximadamente), tienen 11 veces mayores posibilidades (OR = 11.6; IC95% = 3.2-51.7, p < 0.0001) de recibir una dosis inadecuada de hemodiálisis que los que tienen un V menor a esa cifra; y los hombres 3 veces más probabilidad que las mujeres (OR = 3.5; IC95% 1.0-15.8; p = 0.0292). El V mayor a 40 l fue el único factor independiente predictor de sub-diálisis en el análisis multivariado (OR = 10.3; IC95% 2.8-37; p = 0.0004). La principal causa de diálisis sub-óptima fue recibir un flujo sanguíneo (Qb) menor al prescripto (336.4 ± 45.8 vs. 402.3 ± 28.8 ml/min, respectivamente, p < 0.0001) (n = 18). Otras causas fueron: menor duración de la sesión (n = 2), recirculación del acceso vascular (n = 1) y error en las muestras (n = 1). En conclusión, el único factor independiente predisponente de sub-diálisis fue el V mayor a 40 l. La principal causa de diálisis inadecuada fue recibir un Qb menor al prescripto. A partir de estos hallazgos, se desarrolla un algoritmo para aplicar en estos casos.

Patients receiving sub-optimal dose of hemodialysis have increased morbidity and mortality. The objectives of this study were to identify predisposing factors and causes of inadequate dialysis, and to design a practical algorithm for the management of these patients. A cross-sectional study was conducted. Ninety patients in chronic hemodialysis at Hospital Privado Universitario de Córdoba were included, during September 2015. Twenty two received sub-optimal dose of hemodialysis. Those with urea distribution volume (V) greater than 40 l (72 kg body weight approximately) are 11 times more likely (OR = 11.6; CI 95% = 3.2 to 51.7, p < 0.0001) to receive an inadequate dose of hemodialysis, than those with a smaller V. This situation is more frequent in men (OR = 3.5; 95% CI 1.01-15.8; p = 0.0292). V greater than 40 l was the only independent predictor of sub-dialysis in the multivariate analysis (OR = 10.3; 95% CI 2.8-37; p < 0.0004). The main cause of suboptimal dialysis was receiving a lower blood flow (Qb) than the prescribed (336.4 ± 45.8 ml/min vs. 402.3 ± 28.8 ml/min respectively, p < 0.0001) (n = 18). Other causes were identified: shorter duration of the session (n = 2), vascular access recirculation (n = 1), and error in the samples (n = 1). In conclusion, the only independent predisposing factor found in this study for sub-optimal dialysis is V greater than 40 l. The main cause was receiving a slower Qb than prescribed. From these findings, an algorithm for the management of these patients was developed.

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RESUMO Neste estudo foram realizadas as cinéticas e isotermas de adsorção dos íons Fe (III) presentes em afluentes sintéticos utilizando como adsorvente carvão ativado de casca de coco. O objetivo foi a obtenção dos parâmetros cinéticos e de equilíbrio do processo para assim simular diferentes condições operacionais em uma coluna de adsorção em leito fixo. Foram avaliadas a influência de três diferentes temperaturas na adsorção de Fe (III), sendo que o aumento da temperatura indicou adsorção exotérmica. A isoterma de Freundlich representou melhor os dados experimentais. Também foi realizado o estudo cinético e o modelo que apresentou melhor os dados experimentais foi o modelo de Pseudo-Primeira Ordem para as três concentrações estudadas. O método de Volumes Finitos foi utilizado na discretização das equações matemáticas e um algoritmo computacional foi implementado em linguagem FORTRAN. O código computacional foi validado com dados experimentais encontrados na literatura (erro máximo de 6,2%) podendo-se assim simular diferentes condições operacionais do sistema de adsorção com aplicação na indústria alimentícia.

ABSTRACT In this study were performed the kinetics and isotherms of adsorption of the ions Fe (III) from synthetic affluent using activated carbon from coconut shell as adsorbent. The objective was to obtain the equilibrium and kinetic parameters of the process and thereby simulating different operating conditions in a adsorption column fixed bed. It was evaluated the influence of three temperatures different on the adsorption of Fe (III), in which the temperature increase indicated adsorption exotherm. The Freundlich isotherm showed the best fit to the experimental data. At the kinetic study the model that best fit to the experimental data was the model Pseudo-First Order for the three concentrations studied. The finite volume method was used for discretization of the mathematical equations and a computational algorithm was implemented in FORTRAN. The computational code was validated with experimental data found in the literature (maximum error of 6.2%) can thus simulate different operating conditions of the system.

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PURPOSE: We present an analysis of the corneal oxygen consumption Qc from non-linear models, using data of oxygen partial pressure or tension (P(O2) ) obtained from in vivo estimation previously reported by other authors. (1) METHODS: Assuming that the cornea is a single homogeneous layer, the oxygen permeability through the cornea will be the same regardless of the type of lens that is available on it. The obtention of the real value of the maximum oxygen consumption rate Qc,max is very important because this parameter is directly related with the gradient pressure profile into the cornea and moreover, the real corneal oxygen consumption is influenced by both anterior and posterior oxygen fluxes. RESULTS: Our calculations give different values for the maximum oxygen consumption rate Qc,max, when different oxygen pressure values (high and low P(O2)) are considered at the interface cornea-tears film. CONCLUSION: Present results are relevant for the calculation on the partial pressure of oxygen, available at different depths into the corneal tissue behind contact lenses of different oxygen transmissibility.

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