Your search keyword '"oxygenation"' showing total 3 results

1. The Role of Oxygenation on The Attachment of Escherichia Coli rpoS Mutant Under Aerobic Conditions.

Author

Paweli, Nurul Elfiani, Suryadarma, Prayoga, Mardhiati, Indana, and Mangunwidjaja, Djumali

Subjects

OXYGENATION (Chemistry), ESCHERICHIA coli, AEROBIC conditions (Biochemistry), CELL adhesion, ELECTRODES

Abstract

The role of oxygenation on the attachment of Escherichia coli rpoS mutant cells on electrode under aerobic conditions was investigated. The influence of oxygenation to the cell attachment of E. coli rpoS mutant was determined by variating shaker agitation rate of shaken culture at 80, 120, 150, 170, and 190 rpm. The inducing oxygenation through increasing shaker agitation rate escalated E. coli rpoS mutant cell attachment. The highest cell attachment on electrode was at 170 rpm. Further increasing shaker agitation rate of 190 rpm lowered the cell attachment. [ABSTRACT FROM AUTHOR]

Published

2018

2. Continuous Distending Pressure Effects on Variables Contributing to Oxygenation in Healthy and ARDS Model Pigs during HFOV.

Author

Laviola, Marianna, Hajny, Ondrej, and Roubik, Karel

Subjects

CONTINUOUS functions, MATHEMATICAL variables, ADULT respiratory distress syndrome, LABORATORY swine, ARTIFICIAL respiration, OXYGENATION (Chemistry)

Abstract

Introduction. High frequency oscillatory ventilation (HFOV) is an alternative mode of mechanical ventilation. HFOV has been shown to provide adequate ventilation and oxygenation in acute respiratory distress syndrome (ARDS) patients and may represent an effective lung-protective ventilation in patients where conventional ventilation is failing. The aim of this study is to evaluate effects of continuous distending pressure (CDP) on variables that contribute to the oxygenation in healthy and ARDS lung model pigs. Methods. In order to simulate a lung disease, lung injury was induced by lavage with normal saline with detergent in three pigs. HFOV ventilation was applied before and after the lung lavage. CDP was stepwise increased by 2 cmH2O, until the maximum CDP (before the lung lavage 32 cmH2O and after the lung lavage 42 cmH2O) and then it was stepwise decreased by 2 cmH2O to the initial value. In this paper we analyzed the following parameters acquired during our experiments: partial pressure of oxygen in arterial blood (PaO2), cardiac output (CO) and mixed venous blood oxygen saturation (SvO2). In order to find how both PaO2 and CO affected SvO2 during the increase of CDP before and after lavage, a nonlinear regression fitting of the response in SvO2 on the predictors (PaO2 and CO) was implemented. Results. Before the lavage, with increasing of CDP, PaO2 remained constant, CO strongly decreased and SvO2 slightly decreased. After the lavage, with increasing of CDP, PaO2 strongly increased, CO decreased and SvO2 increased. So, development of SvO2 followed the PaO2 and CO trends. Changes in PaO2 and CO occur at decisive CDP step and it was much higher after the lung lavage compared to the healthy lungs. The implemented nonlinear model gives a good goodness of fitting in all three pigs. The values of PaO2 and CO estimated coefficients changed at the same decisive step of CDP identified by the trends. Also the algorithm identified a CDP step much higher after the lung lavage. Conclusions. The novelty of this study consists of the implementing of a model that allows to predict how PaO2 and CO affect SvO2. It is possible to identify a certain level of CDP (higher in ARDS model pigs) at which the contribution of PaO2 and CO to SvO2 course changes their weights. Above this value, PaO2 plays a major role in SvO2 developments. This is in concordance with the clinical experience that HFOV is suitable for patient with more severe lung diseases when much higher CDP levels are required to assure an adequate oxygenation. [ABSTRACT FROM AUTHOR]

Published

2014

3. HIGH-PRESSURE OXYGENATION OF MT-YBCO: THE WAY TO REDUCE THE OXYGENATION TIME, TO PREVENT MACROCRACKING, AND TO OBTAIN MATERIALS WITH HIGH CRITICAL CURRENTS.

Author

Prikhna, T. A., Chaud, X., Gawalek, W., Joulain, A., Rabier, J., Moshchil, V. E., Savchuk, Ya. M., Sergienko, N. V., Dub, S. N., Melnikov, V. S., Habisreuther, T., Litzkendorf, D., and Bierlich, J.

Subjects

OXYGEN, MAGNETIC fields, PRESSURE, DENSITY, CERAMICS

Abstract

The oxygenation of MT-YBCO under isostatic oxygen pressure (up to 16 MPa) at 900-800 °C allowed reduced process time, lower macrocracking, and reduced microcracks. Additionally higher critical currents, trapped fields and mechanical characteristics can be attained. At 77 K thin-walled MT-YBCO had a jc in the ab plane of 85 kA/cm2 at 0 T and higher than 10 kA/cm2 in fields up to 5 T and the irreversibility field was 9.8 T. In the c-direction jc was 34 kA/cm2 in 0 T and higher than 2.5 kA/cm2 in a 10 T field. At 4.9 N-load the micohardness, Hv, was 8.7±0.3 GPa in the ab-plane and 7.6±0.3 GPa in the c-direction. The fracture toughness, K1C, was 2.5±0.1 MPa·m0.5 (ab-plane) and 2.8±0.24 MPa·m0.5 (c-direction). The samples with a higher twin density demonstrated a higher jc, especially in applied magnetic field. The twin density correlates with the sizes and distribution of Y211 grains in Y123. The thin-walled ceramics that demonstrated the highest jc contained about 22 twins in 1 μm and were practically free from dislocations and stacking faults. The maximal trapped field of the block of thin-walled ceramic oxygenated at 900-800 °C and 16 MPa was doubled as compared to that oxygenated at low temperature under ambient pressure. [ABSTRACT FROM AUTHOR]

Published

2008