Your search keyword '"S.L. Xia"' showing total 3 results

1. Comparative efficacy and safety of the left versus right radial approach for percutaneous coronary procedures: a meta-analysis including 6870 patients

Author

S.L. Xia, X.B. Zhang, J.S. Zhou, and X. Gao

Subjects

Radial approach, Percutaneous coronary, Meta-analysis, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

The radial approach is widely used in the treatment of patients with coronary artery disease. We conducted a meta-analysis of published results on the efficacy and safety of the left and right radial approaches in patients undergoing percutaneous coronary procedures. A systematic search of reference databases was conducted, and data from 14 randomized controlled trials involving 6870 participants were analyzed. The left radial approach was associated with significant reductions in fluoroscopy time [standardized mean difference (SMD)=-0.14, 95% confidence interval (CI)=-0.19 to -0.09; P

Published

2015

2. A Temperature Compensation Algorithm Based on Curve Fitting and Spline Interpolation

Author

S.L. Xia, J.L. Wang, R.G. Wang, and L. Zhao

Subjects

Chemical engineering, TP155-156, Computer engineering. Computer hardware, TK7885-7895

Abstract

The zero and sensitivity of piezo resistive pressure sensors will drift with temperature because of the temperature characteristics of the semiconductor, and it is the main factor causing the measurement error of pressure sensor. For high-precision pressure monitoring system, temperature drift has become an important obstacle to improve performance of the system, especially in the field of applications with large changes of ambient temperature. On the basis of analysing the advantages and disadvantages of a variety of temperature compensation methods, a temperature compensation method combined with polynomial curve fitting and three spline interpolations is proposed, and it can improve the performance of the system.

Published

2016

3. Hypoxia modulates the purine salvage pathway and decreases red blood cell and supernatant levels of hypoxanthine during refrigerated storage

Author

Nemkov, T. Sun, K. Reisz, J.A. Song, A. Yoshida, T. Dunham, A. Wither, M.J. Francis, R.O. Roach, R.C. Dzieciatkowska, M. Rogers, S.C. Doctor, A. Kriebardis, A. Antonelou, M. Papassideri, I. Young, C.T. Thomas, T.A. Hansen, K.C. Spitalnik, S.L. Xia, Y. Zimring, J.C. Hod, E.A. D’Alessandro, A.

Abstract

Hypoxanthine catabolism in vivo is potentially dangerous as it fuels production of urate and, most importantly, hydrogen peroxide. However, it is unclear whether accumulation of intracellular and supernatant hypoxanthine in stored red blood cell units is clinically relevant for transfused recipients. Leukoreduced red blood cells from glucose- 6-phosphate dehydrogenase-normal or-deficient human volunteers were stored in AS-3 under normoxic, hyperoxic, or hypoxic conditions (with oxygen saturation ranging from 95%). Red blood cells from healthy human volunteers were also collected at sea level or after 1-7 days at high altitude (>5000 m). Finally, C57BL/6J mouse red blood cells were incubated in vitro with 13 C 1 -aspartate or 13 C 5 -adenosine under normoxic or hypoxic conditions, with or without deoxycoformycin, a purine deaminase inhibitor. Metabolomics analyses were performed on human and mouse red blood cells stored for up to 42 or 14 days, respectively, and correlated with 24 h post-transfusion red blood cell recovery. Hypoxanthine increased in stored red blood cell units as a function of oxygen levels. Stored red blood cells from human glucose-6-phosphate dehydrogenase-deficient donors had higher levels of deaminated purines. Hypoxia in vitro and in vivo decreased purine oxidation and enhanced purine salvage reactions in human and mouse red blood cells, which was partly explained by decreased adenosine monophosphate deaminase activity. In addition, hypoxanthine levels negatively correlated with post-transfusion red blood cell recovery in mice and – preliminarily albeit significantly- in humans. In conclusion, hypoxanthine is an in vitro metabolic marker of the red blood cell storage lesion that negatively correlates with post-transfusion recovery in vivo. Storage-dependent hypoxanthine accumulation is ameliorated by hypoxia-induced decreases in purine deamination reaction rates. © 2018 Ferrata Storti Foundation.

Published

2018