Search Results - "Kameneva, M.V."

Development of Miniature, Implantable Pediatric Ventricular Assist Device by Wearden, P.D, Snyder, T.A, Stanfield, J.R, Coghill, P, Crompton, D, Olia, S.E, Ye, S, Kameneva, M.V, Wagner, W.R, Long, J.W

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650 The PediaFlow™ Pediatric Ventricular Assist Device by Wearden, P.D, Maul, T.M, Wu, J, Verkaik, J, Snyder, S, Ricci, M, Woodard, J, Kameneva, M.V, Wagner, W.R, Antaki, J.F, Borovetz, H.S

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Drag-Reducing Polymers Improve Vascular Hemodynamics and Tissue Oxygen Supply in Mouse Model of Diabetes Mellitus by Bragin, Denis E, Bragina, O A, Monickaraj, F, Noghero, A, Trofimov, A O, Nemoto, E M, Kameneva, M V

“…Diabetes mellitus (DM) is a chronic metabolic disease characterised by hyperglycaemia and glucose intolerance caused by impaired insulin action and/or…”
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Frequently asked questions on evaluation of blood trauma by Kameneva, M.V.

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Resuscitation Fluid with Drag Reducing Polymer Enhances Cerebral Microcirculation and Tissue Oxygenation After Traumatic Brain Injury Complicated by Hemorrhagic Shock by Bragin, D E, Lara, D A, Bragina, O A, Kameneva, M V, Nemoto, E M

“…Traumatic brain injury (TBI) is frequently accompanied by hemorrhagic shock (HS) which significantly worsens morbidity and mortality. Existing resuscitation…”
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Improvement of Impaired Cerebral Microcirculation Using Rheological Modulation by Drag-Reducing Polymers by Bragin, D E, Peng, Z, Bragina, O A, Statom, G L, Kameneva, M V, Nemoto, E M

“…Nanomolar intravascular concentrations of drag-reducing polymers (DRP) have been shown to improve hemodynamics and survival in animal models of ischemic…”
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Drag-reducing polymers diminish near-wall concentration of platelets in microchannel blood flow by Zhao, R, Marhefka, J N, Antaki, J F, Kameneva, M V

“…The accumulation of platelets near the blood vessel wall or artificial surface is an important factor in the cascade of events responsible for coagulation…”
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Drag reducing polymers improve tissue perfusion via modification of the RBC traffic in microvessels by Marhefka, J N, Zhao, R, Wu, Z J, Velankar, S S, Antaki, J F, Kameneva, M V

“…This paper reports a novel, physiologically significant, microfluidic phenomenon generated by nanomolar concentrations of drag-reducing polymers (DRP)…”
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I.V. infusion of a drag-reducing polymer extracted from aloe vera prolonged survival time in a rat model of acute myocardial ischaemia by Sakai, T., Repko, B.M., Griffith, B.P., Waters, J.H., Kameneva, M.V.

“…I.V. infusion of drag-reducing polymers (DRPs) has been shown to improve survival time in animals subjected to haemorrhagic shock. We hypothesized that DRPs…”
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The flow of blood in tubes: theory and experiment by Yeleswarapu, K.K., Kameneva, M.V., Rajagopal, K.R., Antaki, J.F.

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Investigation of fluid dynamics within a miniature mixed flow blood pump by WU, Z. J, GOTTLIEB, R. K, BURGREEN, G. W, HOLMES, J. A, BORZELLECA, D. C, KAMENEVA, M. V, GRIFFITH, B. P, ANTAKI, J. F

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Red blood cell aging and risk of cardiovascular diseases by Kameneva, M V, Garrett, K O, Watach, M J, Borovetz, H S

“…We hypothesized that due to monthly bloodloss, the mechanical properties of blood of premenopausal women are superior to men, and place them at less risk for…”
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Heparin effect on red blood cell aggregation by Kameneva, M V, Antaki, J F, Watach, M J, Borovetz, H S, Kormos, R L

“…We studied the effect of relatively high dosages of heparin (25-150 U/ml) on some rheological parameters of donor blood. It was found that heparin increased…”
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Gender difference in rheological properties of blood and risk of cardiovascular diseases. Mathematical modeling and experimental study by Kameneva, M.V.

“…We hypothesized that due to monthly bloodloss, the mechanical properties of blood of premenopausal women are superior to men, and place them at less risk for…”
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On the mechanical blood trauma: effect of turbulence by Kameneva, M.V., Burgreen, G.W., Kono, K., Antaki, J.F., Repko, B.M., Umezu, M.

“…Mechanical blood trauma is still one of the major obstacles in the development of cardiovascular devices. The mechanisms of this blood damage are heterogeneous…”
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