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Marina Kameneva

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Bragin, D.E., Bragina, O.A., Berliba, L., Kameneva, M.V., & Nemoto, E.M. (2021). Addition of Drag-Reducing Polymers to Colloid Resuscitation Fluid Enhances Cerebral Microcirculation and Tissue Oxygenation After Traumatic Brain Injury Complicated by Hemorrhagic Shock. Adv Exp Med Biol, 1269, 283-288.Springer International Publishing. doi: 10.1007/978-3-030-48238-1_45.

Bragin, D.E., Bragina, O.A., Trofimov, A., Berliba, L., Kameneva, M.V., & Nemoto, E.M. (2021). Improved Cerebral Perfusion Pressure and Microcirculation by Drag Reducing Polymer-Enforced Resuscitation Fluid After Traumatic Brain Injury and Hemorrhagic Shock. Acta Neurochir Suppl, 131, 289-293.Springer International Publishing. doi: 10.1007/978-3-030-59436-7_54.

Bragin, D.E., Bragina, O.A., Kameneva, M.V., & Nemoto, E.M. (2020). Resuscitation with Drag Reducing Polymers after Traumatic Brain Injury with Hemorrhagic Shock Reduces Microthrombosis and Oxidative Stress. OXYGEN TRANSPORT TO TISSUE XLI, 1232, 39-45.Springer International Publishing. doi: 10.1007/978-3-030-34461-0_6.

Crompton, D., Vats, R., Pradhan-Sundd, T., Sundd, P., & Kameneva, M.V. (2020). Drag-reducing polymers improve hepatic vaso-occlusion in SCD mice. BLOOD ADVANCES, 4(18), 4333-4336.American Society of Hematology. doi: 10.1182/bloodadvances.2020002779.

Bragin, D.E., Lara, D.A., Bragina, O.A., Kameneva, M.V., & Nemoto, E.M. (2018). Resuscitation Fluid with Drag Reducing Polymer Enhances Cerebral Microcirculation and Tissue Oxygenation After Traumatic Brain Injury Complicated by Hemorrhagic Shock. OXYGEN TRANSPORT TO TISSUE XL, 1072, 39-43.Springer International Publishing. doi: 10.1007/978-3-319-91287-5_7.

D'Amore, A., Luketich, S.K., Raffa, G.M., Olia, S., Menallo, G., Mazzola, A., D'Accardi, F., Grunberg, T., Gu, X., Pilato, M., Kameneva, M.V., Badhwar, V., & Wagner, W.R. (2018). Heart valve scaffold fabrication: Bioinspired control of macro-scale morphology, mechanics and micro-structure. BIOMATERIALS, 150, 25-37.Elsevier BV. doi: 10.1016/j.biomaterials.2017.10.011.

Olia, S.E., Wearden, P.D., Maul, T.M., Shankarraman, V., Kocyildirim, E., Snyder, S.T., Callahan, P.M., Kameneva, M.V., Wagner, W.R., Borovetz, H.S., & Antaki, J.F. (2018). Preclinical performance of a pediatric mechanical circulatory support device: The PediaFlow ventricular assist device. JOURNAL OF THORACIC AND CARDIOVASCULAR SURGERY, 156(4), 1643-+.Elsevier BV. doi: 10.1016/j.jtcvs.2018.04.062.

Bragin, D.E., Kameneva, M.V., Bragina, O.A., Thomson, S., Statom, G.L., Lara, D.A., Yang, Y., & Nemoto, E.M. (2017). Rheological effects of drag-reducing polymers improve cerebral blood flow and oxygenation after traumatic brain injury in rats. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM, 37(3), 762-775.SAGE Publications. doi: 10.1177/0271678X16684153.

Ding, Z., Joy, M., Kameneva, M.V., & Roy, P. (2017). Nanomolar concentration of blood-soluble drag-reducing polymer inhibits experimental metastasis of human breast cancer cells. Breast Cancer (Dove Med Press), 9, 61-65.Informa UK Limited. doi: 10.2147/BCTT.S128777.

Hund, S., Kameneva, M., & Antaki, J. (2017). A Quasi-Mechanistic Mathematical Representation for Blood Viscosity. Fluids, 2(1), 10.MDPI AG. doi: 10.3390/fluids2010010.

Martin, A.B., Wu, W.T., Kameneva, M.V., & Antaki, J.F. (2017). Development of a High-Throughput Magnetic Separation Device for Malaria-Infected Erythrocytes. ANNALS OF BIOMEDICAL ENGINEERING, 45(12), 2888-2898.Springer Science and Business Media LLC. doi: 10.1007/s10439-017-1925-2.

Olia, S.E., Herbertson, L.H., Malinauskas, R.A., & Kameneva, M.V. (2017). A Reusable, Compliant, Small Volume Blood Reservoir for In Vitro Hemolysis Testing. ARTIFICIAL ORGANS, 41(2), 175-178.Wiley. doi: 10.1111/aor.12724.

Tohme, S., Kameneva, M.V., Yazdani, H.O., Sud, V., Goswami, J., Loughran, P., Huang, H., Simmons, R.L., & Tsung, A. (2017). Drag reducing polymers decrease hepatic injury and metastases after liver ischemia-reperfusion. ONCOTARGET, 8(35), 59854-59866.Impact Journals, LLC. doi: 10.18632/oncotarget.18322.

Ziegler, L.A., Olia, S.E., & Kameneva, M.V. (2017). Red Blood Cell Mechanical Fragility Test for Clinical Research Applications. ARTIFICIAL ORGANS, 41(7), 678-682.Wiley. doi: 10.1111/aor.12826.

Bragin, D.E., Peng, Z., Bragina, O.A., Statom, G.L., Kameneva, M.V., & Nemoto, E.M. (2016). Improvement of Impaired Cerebral Microcirculation Using Rheological Modulation by Drag-Reducing Polymers. Adv Exp Med Biol, 923, 239-244.Springer International Publishing. doi: 10.1007/978-3-319-38810-6_32.

Bragin, D.E., Thomson, S., Bragina, O., Statom, G., Kameneva, M.V., & Nemoto, E.M. (2016). Drag-Reducing Polymer Enhances Microvascular Perfusion in the Traumatized Brain with Intracranial Hypertension. Acta Neurochir Suppl, 122, 25-29.Springer International Publishing. doi: 10.1007/978-3-319-22533-3_5.

Griffin, M.T., Grzywinski, M.F., Voorhees, H.J., Kameneva, M.V., & Olia, S.E. (2016). Ex Vivo Assessment of a Parabolic-Tip Inflow Cannula for Pediatric Continuous-Flow VADs. ASAIO JOURNAL, 62(5), 600-606.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/MAT.0000000000000411.

Marhefka, J., & Kameneva, M. (2016). Natural Drag-Reducing Polymers: Discovery, Characterization and Potential Clinical Applications. Fluids, 1(2), 6.MDPI AG. doi: 10.3390/fluids1020006.

Olia, S.E., Maul, T.M., Antaki, J.F., & Kameneva, M.V. (2016). Mechanical blood trauma in assisted circulation: sublethal RBC damage preceding hemolysis. INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS, 39(4), 150-159.SAGE Publications. doi: 10.5301/ijao.5000478.

Herbertson, L.H., Olia, S.E., Daly, A., Noatch, C.P., Smith, W.A., Kameneva, M.V., & Malinauskas, R.A. (2015). Multilaboratory Study of Flow-Induced Hemolysis Using the FDA Benchmark Nozzle Model. ARTIFICIAL ORGANS, 39(3), 237-U148.Wiley. doi: 10.1111/aor.12368.

Jamiolkowski, M.A., Woolley, J.R., Kameneva, M.V., Antaki, J.F., & Wagner, W.R. (2015). Real time visualization and characterization of platelet deposition under flow onto clinically relevant opaque surfaces. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 103(4), 1303-1311.Wiley. doi: 10.1002/jbm.a.35202.

Daly, A., Raval, J.S., Waters, J.H., Yazer, M.H., & Kameneva, M.V. (2014). Effect of blood bank storage on the rheological properties of male and female donor red blood cells. CLINICAL HEMORHEOLOGY AND MICROCIRCULATION, 56(4), 337-345.IOS Press. doi: 10.3233/CH-131754.

Marhefka, J.N., Moon-Massat, P.F., Dube, G.P., Light, W.R., Freilich, D.A., Russell, A.J., & Kameneva, M.V. (2014). Blood soluble polymers for enhancing near-vessel-wall RBC traffic in presence of hemoglobin based oxygen carrier. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE, 83, 138-145.Elsevier BV. doi: 10.1016/j.ijengsci.2014.04.012.

Shankarraman, V., Kocyildirim, E., Olia, S.E., Kameneva, M.V., Dzadony, R.J., Maul, T.M., Simon, M.A., Champion, H.C., Wagner, W.R., & Bermudez, C.A. (2014). Biocompatibility Assessment of the CentriMag-Novalung Adult ECMO Circuit in a Model of Acute Pulmonary Hypertension. ASAIO JOURNAL, 60(4), 429-435.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/MAT.0000000000000079.

Brands, J., Kliner, D., Lipowsky, H.H., Kameneva, M.V., Villanueva, F.S., & Pacella, J.J. (2013). New Insights into the Microvascular Mechanisms of Drag Reducing Polymers: Effect on the Cell-Free Layer. PLOS ONE, 8(10), e77252.Public Library of Science (PLoS). doi: 10.1371/journal.pone.0077252.

Jin, X., Abbot, S., Zhang, X., Kang, L., Voskinarian-Berse, V., Zhao, R., Kameneva, M.V., Moore, L.R., Chalmers, J.J., & Zborowski, M. (2012). Erythrocyte Enrichment in Hematopoietic Progenitor Cell Cultures Based on Magnetic Susceptibility of the Hemoglobin. In Georgakoudi, I. (Ed.). PLOS ONE, 7(8), e39491.Public Library of Science (PLoS). doi: 10.1371/journal.pone.0039491.

Kameneva, M.V. (2012). Microrheological effects of drag-reducing polymers in vitro and in vivo. INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE, 59, 168-183.Elsevier BV. doi: 10.1016/j.ijengsci.2012.03.014.

Pacella, J.J., Kameneva, M.V., Brands, J., Lipowsky, H.H., Vink, H., Lavery, L.L., & Villanueva, F.S. (2012). Modulation of Pre-Capillary Arteriolar Pressure with Drag-Reducing Polymers: A Novel Method for Enhancing Microvascular Perfusion. MICROCIRCULATION, 19(7), 580-585.Wiley. doi: 10.1111/j.1549-8719.2012.00190.x.

Jr, J.C.A., Vandenberghe, S., Daly, A.R., Woolley, J.R., Snyder, S.T., Verkaik, J.E., Ye, S.H., Borovetz, H.S., Antaki, J.F., Wearden, P.D., Kameneva, M.V., & Wagner, W.R. (2011). Biocompatibility Assessment of the First Generation PediaFlow Pediatric Ventricular Assist Device. ARTIFICIAL ORGANS, 35(1), 9-21.Wiley. doi: 10.1111/j.1525-1594.2010.01023.x.

Maul, T.M., Kocyildirim, E., Johnson, C.A., Daly, A.R., Olia, S.E., Woolley, J.R., Snyder, S., Bengston, S.G., Kameneva, M.V., Antaki, J.F., Wagner, W.R., Borovetz, H.S., Wearden, P.D., & The Pediaflow Consortium. (2011). In Vitro and In Vivo Performance Evaluation of the Second Developmental Version of the PediaFlow Pediatric Ventricular Assist Device. Cardiovasc Eng Technol, 2(4), 253-262.Springer Science and Business Media LLC. doi: 10.1007/s13239-011-0061-7.

Maul, T.M., Kocyildirim, E., Marks, J.D., Bengston, S.G., Olia, S.E., Callahan, P.M., Kameneva, M.V., Franklin, S., Borovetz, H.S., Dasse, K.A., & Wearden, P.D. (2011). Pre-clinical Implants of the Levitronix PediVAS® Pediatric Ventricular Assist Device - Strategy for Regulatory Approval. Cardiovasc Eng Technol, 2(4), 263-275.Springer Science and Business Media LLC. doi: 10.1007/s13239-011-0063-5.

Raval, J.S., Waters, J.H., Seltsam, A., Scharberg, E.A., Richter, E., Kameneva, M.V., & Yazer, M.H. (2011). Menopausal status affects the susceptibility of stored RBCs to mechanical stress. VOX SANGUINIS, 100(4), 418-421.Wiley. doi: 10.1111/j.1423-0410.2010.01439.x.

Antaki, J.F., Ricci, M.R., Verkaik, J.E., Snyder, S.T., Maul, T.M., Kim, J., Paden, D.B., Kameneva, M.V., Paden, B.E., Wearden, P.D., & Borovetz, H.S. (2010). PediaFlow™ Maglev Ventricular Assist Device: A Prescriptive Design Approach. Cardiovasc Eng, 1(1), 104-121.Springer Science and Business Media LLC. doi: 10.1007/s13239-010-0011-9.

Daly, A.R., Sobajima, H., Olia, S.E., Takatani, S., & Kameneva, M.V. (2010). Application of Drag-Reducing Polymer Solutions as Test Fluids for In Vitro Evaluation of Potential Blood Damage in Blood Pumps. ASAIO JOURNAL, 56(1), 6-11.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/MAT.0b013e3181c8e281.

Raval, J.S., Waters, J.H., Seltsam, A., Scharberg, E.A., Richter, E., Daly, A.R., Kameneva, M.V., & Yazer, M.H. (2010). The use of the mechanical fragility test in evaluating sublethal RBC injury during storage. VOX SANGUINIS, 99(4), 325-331.Wiley. doi: 10.1111/j.1423-0410.2010.01365.x.

Zhao, R., Marhefka, J.N., Antaki, J.F., & Kameneva, M.V. (2010). Drag-reducing polymers diminish near-wall concentration of platelets in microchannel blood flow. BIORHEOLOGY, 47(3-4), 193-203.IOS Press. doi: 10.3233/BIR-2010-0570.

Cotoia, A., Kameneva, M.V., Marascalco, P.J., Fink, M.P., & Delude, R.L. (2009). DRAG-REDUCING HYALURONIC ACID INCREASES SURVIVAL IN PROFOUNDLY HEMORRHAGED RATS. SHOCK, 31(3), 258-261.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/SHK.0b013e31817fc434.

Gottlieb, R.K., Shu, F., Kameneva, M.V., Antaki, J.F., Wu, Z.J., & Burgreen, G.W. (2009). LIQUID CRYSTAL SHEAR STRESS SENSOR FOR BLOOD AND OTHER OPAQUE VISCOUS FLUIDS. Journal of Flow Visualization and Image Processing, 16(1), 51-71.Begell House. doi: 10.1615/jflowvisimageproc.v16.i1.40.

Kim, N.J., Diao, C., Ahn, K.H., Lee, S.J., Kameneva, M.V., & Antaki, J.F. (2009). Parametric Study of Blade Tip Clearance, Flow Rate, and Impeller Speed on Blood Damage in Rotary Blood Pump. ARTIFICIAL ORGANS, 33(6), 468-474.Wiley. doi: 10.1111/j.1525-1594.2009.00754.x.

Marascalco, P.J., Blair, H.C., Nieponice, A., Robinson, L.J., & Kameneva, M.V. (2009). Intravenous Injections of Soluble Drag-Reducing Polymers Reduce Foreign Body Reaction to Implants. ASAIO JOURNAL, 55(5), 503-508.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/MAT.0b013e3181b1840f.

Marhefka, J.N., Zhao, R., Wu, Z.J., Velankar, S.S., Antaki, J.F., & Kameneva, M.V. (2009). Drag reducing polymers improve tissue perfusion via modification of the RBC traffic in microvessels. BIORHEOLOGY, 46(4), 281-292.IOS Press. doi: 10.3233/BIR-2009-0543.

Pacella, J.J., Kameneva, M.V., & Villanueva, F.S. (2009). Drag reducing polymers improve coronary flow reserve through modulation of capillary resistance. BIORHEOLOGY, 46(5), 365-378.IOS Press. doi: 10.3233/BIR-2009-0548.

Pacella, J.J., Kameneva, M.V., Lavery, L.L., Bowry, S., Schwartz, A., Fischer, A., & Villanueva, F.S. (2009). A novel hydrodynamic method for microvascular flow enhancement. BIORHEOLOGY, 46(4), 293-308.IOS Press. doi: 10.3233/BIR-2009-0547.

Antaki, J.F., Diao, C.G., Shu, F.J., Wu, J.C., Zhao, R., & Kameneva, M.V. (2008). Microhaemodynamics within the blade tip clearance of a centrifugal turbodynamic blood pump. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE, 222(H4), 573-581.SAGE Publications. doi: 10.1243/09544119JEIM352.

Marhefka, J.N., Velankar, S.S., Chapman, T.M., & Kameneva, M.V. (2008). Mechanical degradation of drag reducing polymers in suspensions of blood cells and rigid particles. BIORHEOLOGY, 45(5), 599-609.IOS Press. doi: 10.3233/BIR-2008-0511.

Yazer, M.H., Waters, J.H., Elkin, K.R., Rohrbaugh, M.E., & Kameneva, M.V. (2008). A comparison of hemolysis and red cell mechanical fragility in blood collected with different cell salvage suction devices. TRANSFUSION, 48(6), 1188-1191.Wiley. doi: 10.1111/j.1537-2995.2008.01670.x.

Zhao, R., Marhefka, J.N., Shu, F., Hund, S.J., Kameneva, M.V., & Antaki, J.F. (2008). Micro-flow visualization of red blood cell-enhanced platelet concentration at sudden expansion. ANNALS OF BIOMEDICAL ENGINEERING, 36(7), 1130-1141.Springer Science and Business Media LLC. doi: 10.1007/s10439-008-9494-z.

Dasse, K.A., Gellman, B., Kameneva, M.V., Woolley, J.R., Johnson, C.A., Gempp, T., Marks, J.D., Kent, S., Koert, A., Richardson, J.S., Franklin, S., Snyder, T.A., Wearden, P., Wagner, W.R., Gilbert, R.J., & Borovetz, H.S. (2007). Assessment of hydraulic performance and biocompatibility of a MagLev centrifugal pump system designed for pediatric cardiac or cardiopulmonary support. ASAIO JOURNAL, 53(6), 771-777.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/MAT.0b013e31815dbf66.

Lee, S.S., Antaki, J.F., Kameneva, M.V., Dobbe, J.G., Hardeman, M.R., Ahn, K.H., & Lee, S.J. (2007). Strain hardening of red blood cells by accumulated cyclic supraphysiological stress. ARTIFICIAL ORGANS, 31(1), 80-86.Wiley. doi: 10.1111/j.1525-1594.2007.00344.x.

Sakai, T., Repko, B.M., Griffith, B.P., Waters, J.H., & Kameneva, M.V. (2007). IV infusion of a drag-reducing polymer extracted from aloe vera prolonged survival time in a rat model of acute myocardial ischaemia. BRITISH JOURNAL OF ANAESTHESIA, 98(1), 23-28.Elsevier BV. doi: 10.1093/bja/ael307.

Snyder, T.A., Tsukui, H., Kihara, S., Akimoto, T., Litwak, K.N., Kameneva, M.V., Yamazaki, K., & Wagner, W.R. (2007). Preclinical biocompatibility assessment of the EVAHEART ventricular assist device: Coating comparison and platelet activation. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 81A(1), 85-92.Wiley. doi: 10.1002/jbm.a.31006.

Waters, J.H., Williams, B., Yazer, M.H., & Kameneva, M.V. (2007). Modification of suction-induced hemolysis during cell salvage. ANESTHESIA AND ANALGESIA, 104(3), 684-687.Ovid Technologies (Wolters Kluwer Health). doi: 10.1213/01.ane.0000255208.96685.2e.

Zhao, R., Kameneva, M.V., & Antaki, J.F. (2007). Investigation of platelet margination phenomena at elevated shear stress. BIORHEOLOGY, 44(3), 161-177.

Borovetz, H.S., Badylak, S., Boston, J.R., Johnson, C., Kormos, R., Kameneva, M.V., Simaan, M., Snyder, T.A., Tsukui, H., Wagner, W.R., Woolley, J., Antaki, J., Diao, C.G., Vandenberghe, S., Keller, B., Morell, V., Wearden, P., Webber, S., Gardiner, J., Li, C.M., Paden, D., Paden, B., Snyder, S., Wu, J.C., Bearnson, G., Hawkins, J.A., Jacobs, G., Kirk, J., Khanwilkar, P., Kouretas, P.C., Long, J., & Shaddy, R.E. (2006). Towards the development of a pediatric ventricular assist device. CELL TRANSPLANTATION, 15(1_suppl), S69-S74.SAGE Publications. doi: 10.3727/000000006783982304.

Li, Q., Zhang, G.S., Marhefka, J., Kameneva, M.V., & Liu, D.X. (2006). Synthesis of lipopolyhydroxylalkyleneamines for gene delivery. BIOORGANIC & MEDICINAL CHEMISTRY LETTERS, 16(9), 2428-2432.Elsevier BV. doi: 10.1016/j.bmcl.2006.01.120.

Marascalco, P.J., Ritchie, S.P., Snyder, T.A., & Kameneva, M.V. (2006). Development of standard tests to examine viscoelastic properties of blood of experimental animals for pediatric mechanical support device evaluation. ASAIO JOURNAL, 52(5), 567-574. doi: 10.1097/01.mat.0000242248.66083.48.

Marhefka, J.N., Marascalco, P.J., Chapman, T.M., Russell, A.J., & Kameneva, M.V. (2006). Poly(N-vinylformamide) - A drag-reducing polymer for biomedical applications. BIOMACROMOLECULES, 7(5), 1597-1603.American Chemical Society (ACS). doi: 10.1021/bm060014i.

Pacella, J.J., Kameneva, M.V., Csikari, M., Lu, E., & Villanueva, F.S. (2006). A novel hydrodynamic approach to the treatment of coronary artery disease. EUROPEAN HEART JOURNAL, 27(19), 2362-2369.Oxford University Press (OUP). doi: 10.1093/eurheartj/ehl165.

Wearden, P.D., Morell, V.O., Keller, B.B., Webber, S.A., Borovetz, H.S., Badylak, S.F., Boston, J.R., Kormos, R.L., Kameneva, M.V., Simaan, M., Snyder, T.A., Tsukui, H., Wagner, W.R., Antaki, J.F., Diao, C., Vandenberghe, S., Gardiner, J., Li, C.M., Noh, D., Paden, D., Paden, B., Wu, J., Bearnson, G.B., Jacobs, G., Kirk, J., Khanwilkar, P., Long, J.W., Miles, S., Hawkins, J.A., Kouretas, P.C., & Shaddy, R.E. (2006). The PediaFlow pediatric ventricular assist device. Semin Thorac Cardiovasc Surg Pediatr Card Surg Annu, 9(1), 92-98. doi: 10.1053/j.pcsu.2006.02.001.

Wearden, P.D., Morell, V.O., Keller, B.B., Webber, S.A., Borovetz, H.S., Badylak, S.F., Boston, J.R., Kormos, R.L., Kameneva, M.V., Simaan, M., Snyder, T.A., Tsukui, H., Wagner, W.R., Antaki, J.F., Diao, C., Vandenberghe, S., Gardiner, J., Li, C.M., Noh, D., Paden, D., Paden, B., Wu, J., Bearnson, G.B., Jacobs, G., Kirk, J., Khanwilkar, P., Long, J.W., Miles, S., Hawkins, J.A., Kouretas, P.C., & Shaddy, R.E. (2006). The PediaFlow™ Pediatric Ventricular Assist Device. Seminars in Thoracic and Cardiovascular Surgery: Pediatric Cardiac Surgery Annual, 9(1), 92-98.Elsevier BV. doi: 10.1053/j.pcsu.2006.02.001.

Zhao, R., Antaki, J.F., Naik, T., Bachman, T.N., Kameneva, M.V., & Wu, Z.J. (2006). Microscopic investigation of erythrocyte deformation dynamics. BIORHEOLOGY, 43(6), 747-765.

Kameneva, M.V., & Fink, M.P. (2005). Hemorrhagic shock, drag-reducing polymers and 'spherical cows'. CRITICAL CARE, 9(3), 304.Springer Science and Business Media LLC. doi: 10.1186/cc3490.

Kameneva, M.V., Burgreen, G.W., Kono, K., Repko, B., Antaki, J.F., & Umezu, M. (2004). Effects of turbulent stresses upon mechanical hemolysis: Experimental and computational analysis. ASAIO JOURNAL, 50(5), 418-423.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/01.MAT.0000136512.36370.B5.

Kameneva, M.V., Wu, Z.J.J., Uraysh, A., Repko, B., Litwak, K.N., Billiar, T.R., Fink, M.P., Simmons, R.L., Griffith, B.P., & Borovetz, H.S. (2004). Blood soluble drag-reducing polymers prevent lethality from hemorrhagic shock in acute animal experiments. BIORHEOLOGY, 41(1), 53-64.

Macias, C.A., Kameneva, M.V., Tenhunen, J.J., Puyana, J.C., & Fink, M.P. (2004). Survival in a rat model of lethal hemorrhagic shock is prolonged following resuscitation with a small volume of a solution containing a drag-reducing polymer derived from aloe vera. SHOCK, 22(2), 151-156.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/01.shk.0000131489.83194.1a.

McCloskey, C.A., Kameneva, M.V., Uryash, A., Gallo, D.J., & Billiar, T.R. (2004). Tissue hypoxia activates JNK in the liver during hemorrhagic shock. SHOCK, 22(4), 380-386.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/01.shk.0000140660.78744.bf.

Kameneva, M.V., Repko, B.M., Krasik, E.F., Perricelli, B.C., & Borovetz, H.S. (2003). Polyethylene glycol additives reduce hemolysis in red blood cell suspensions exposed to mechanical stress. ASAIO JOURNAL, 49(5), 537-542.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/01.MAT.0000084176.30221.CF.

Kameneva, M.V., Watach, M.J., & Borovetz, H.S. (2003). Rheologic dissimilarities in female and male blood: Potential link to development of cardiovascular diseases. OXYGEN TRANSPORT TO TISSUE XXIV, 530, 689-696.Springer US. doi: 10.1007/978-1-4615-0075-9_69.

Kihara, S., Litwak, K.N., Nichols, L., Litwak, P., Kameneva, M.V., Wu, Z.J., Kormos, R.L., & Griffith, B.P. (2003). Smooth muscle cell hypertrophy of renal cortex arteries with chronic continuous flow left ventricular assist. ANNALS OF THORACIC SURGERY, 75(1), 178-183.Elsevier BV. doi: 10.1016/S0003-4975(02)04087-0.

Kihara, S., Yamazaki, K., Litwak, K.N., Litwak, P., Kameneva, M.V., Akimoto, T., Griffith, B.P., & Kormos, R.L. (2003). Distal thoracic aorta hemodynamics during exercise with continuous flow left ventricular assist system. EUROPEAN JOURNAL OF CARDIO-THORACIC SURGERY, 24(6), 926-931.Oxford University Press (OUP). doi: 10.1016/S1010-7940(03)00570-0.

Kihara, S., Yamazaki, K., Litwak, K.N., Litwak, P., Kameneva, M.V., Ushiyama, H., Tokuno, T., Borzelleca, D.C., Umezu, M., Tomioka, J., Tagusari, O., Akimoto, T., Koyanagi, H., Kurosawa, H., Kormos, R.L., & Griffith, B.P. (2003). In vivo evaluation of a MPC polymer coated continuous flow left ventricular assist system. ARTIFICIAL ORGANS, 27(2), 188-192.Wiley. doi: 10.1046/j.1525-1594.2003.t01-2-06993.x.

Litwak, K.N., Kihara, S., Kameneva, M.V., Litwak, P., Uryash, A., Wu, Z., & Griffith, B.P. (2003). Effects of continuous flow left ventricular assist device support on skin tissue microcirculation and aortic hemodynamics. ASAIO J, 49(1), 103-107.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200301000-00016.

Kameneva, M.V., Marad, P.F., Brugger, J.M., Repko, B.M., Wang, J.H., Moran, J., & Borovetz, H.S. (2002). In vitro evaluation of hemolysis and sublethal blood trauma in a novel subcutaneous vascular access system for hemodialysis. ASAIO JOURNAL, 48(1), 34-38.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200201000-00008.

Akimoto, T., Litwak, K.N., Yamazaki, K., Litwak, P., Kihara, S., Tagusari, J., Yamazaki, S., Kameneva, M.V., Watach, M.J., Umezu, M., Tomioka, J., Kormos, R.L., Koyanagi, T., & Griffith, B.P. (2001). The role of diastolic pump flow in centrifugal blood pump hemodynamics. ARTIFICIAL ORGANS, 25(9), 724-727.Wiley. doi: 10.1046/j.1525-1594.2001.06864.x.

Loree, H.M., Bourque, K., Gernes, D.B., Richardson, J.S., Poirier, V.L., Barletta, N., Fleischli, A., Foiera, G., Gempp, T.M., Schoeb, R., Litwak, K.N., Akimoto, T., Kameneva, M., Watach, M.J., & Litwak, P. (2001). The HeartMate III: Design and in vivo studies of a Maglev centrifugal left ventricular assist device. ARTIFICIAL ORGANS, 25(5), 386-391.Wiley. doi: 10.1046/j.1525-1594.2001.025005386.x.

Wu, Z.J., Gottlieb, R.K., Burgreen, G.W., Holmes, J.A., Borzelleca, D.C., Kameneva, M.V., Griffith, B.P., & Antaki, J.F. (2001). Investigation of fluid dynamics within a miniature mixed flow blood pump. EXPERIMENTS IN FLUIDS, 31(6), 615-629.Springer Science and Business Media LLC. doi: 10.1007/s003480100308.

Akimoto, T., Yamazaki, K., Litwak, P., Litwak, K.N., Tagusari, O., Mori, T., Antaki, J.F., Kameneva, M.V., Watach, M.J., Umezu, M., Tomioka, J., Kormos, R.L., Koyanagi, H., & Griffith, B.P. (2000). Relationship of blood pressure and pump flow in an implantable centrifugal blood pump during hypertension. ASAIO JOURNAL, 46(5), 596-599.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200009000-00018.

Akimoto, T., Yamazaki, K., Litwak, P., Litwak, K.N., Tagusari, O., Mori, T., Antaki, J.F., Kameneva, M.V., Watach, M.J., Umezu, M., Tomioka, J., Kormos, R.L., Koyanagi, H., & Griffith, B.P. (2000). Continuously maintaining positive flow avoids endocardial suction of a rotary blood pump with left ventricular bypass. ARTIFICIAL ORGANS, 24(8), 606-610.Wiley. doi: 10.1046/j.1525-1594.2000.06581.x.

Antaki, J.F., Burgreen, G.W., Wu, Z.J., Borzelleca, D., Kameneva, M.V., Holmes, J.A., Litwak, P., Litwak, K., Watach, M., Paden, B.E., Dragnes, T., Groom, N.J., & Griffith, B.P. (2000). Development Progress of the University of Pittsburgh Streamliner. ASAIO Journal, 46(2), 194.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200003000-00174.

Butler, K., Thomas, D., Taylor, L., Petersen, T., Poirier, V., Parsaie, F., Kormos, R., Borovetz, H., Litwak, P., Litwak, K., Kameneva, M., Wu, J., Antaki, J., & Watach, M. (2000). THE HEARTMATE II AXIAL FLOW LVAS. ASAIO Journal, 46(2), 195.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200003000-00180.

Kameneva, M.V., Antaki, J.F., Schaub, R.D., Watach, M.J., Wagner, W.R., Litwak, P., Borovetz, H.S., & Griffith, B.P. (2000). DEVELOPMENT AND EVALUATION OF A NEW METHOD OF VASCULAR GRAFT DENUCLEATION. ASAIO Journal, 46(2), 180.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200003000-00117.

Kameneva, M.V., Watach, M.J., & Borovetz, H.S. (2000). Gender difference in oxygen delivery index: Potential link to development of cardiovascular diseases. Applied Cardiopulmonary Pathophysiology, 9(4), 382-387.

Moran, J., Kameneva, M.V., Repko, B.M., Borovetz, H.S., & Marad, P.F. (2000). IN-VITRO EVALUATION OF HEMOLYSIS IN A NOVEL SUBCUTANEOUS ACCESS SYSTEM. ASAIO Journal, 46(2), 207.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-200003000-00228.

Schaub, R.D., Kameneva, M.V., Borovetz, H.S., & Wagner, W.R. (2000). Assessing acute platelet adhesion on opaque metallic and polymeric biomaterials with fiber optic microscopy. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH, 49(4), 460-468.Wiley. doi: 10.1002/(SICI)1097-4636(20000315)49:4<460::AID-JBM4>3.0.CO;2-3.

Akimoto, T., Yamazaki, K., Litwak, P., Litwak, K.N., Tagusari, O., Mori, T., Antaki, J.F., Kameneva, M.V., Watach, M.J., Umezu, M., Tomioka, J., Kormos, R.L., Koyanagi, H., & Griffith, B.P. (1999). Rotary blood pump flow spontaneously increases during exercise under constant pump speed: Results of a chronic study. ARTIFICIAL ORGANS, 23(8), 797-801.Wiley. doi: 10.1046/j.1525-1594.1999.06426.x.

Kameneva, M.V., Undar, A., Antaki, J.F., Watach, M.J., Calhoon, J.H., & Borovetz, H.S. (1999). Decrease in red blood cell deformability caused by hypothermia, hemodilution, and mechanical stress: Factors related to cardiopulmonary bypass. ASAIO JOURNAL, 45(4), 307-310.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199907000-00010.

Kameneva, M.V., Watach, M.J., & Borovetz, H.S. (1999). Gender difference in theologic properties of blood and risk of cardiovascular diseases. CLINICAL HEMORHEOLOGY AND MICROCIRCULATION, 21(3-4), 357-363.

Kameneva, M.V., Watach, M.J., Litwak, P., Antaki, J.F., Butler, K.C., Thomas, D.C., Taylor, L.P., Borovetz, H.S., Kormos, R.L., & Griffith, B.P. (1999). Chronic animal health assessment during axial ventricular assistance: Importance of hemorheologic parameters. ASAIO JOURNAL, 45(3), 183-188.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199905000-00015.

Baker, L.C., Kameneva, M.V., Watach, M.J., Litwak, P., & Wagner, W.R. (1998). Assessment of bovine platelet life span with biotinylation and flow cytometry. ARTIFICIAL ORGANS, 22(9), 799-803.Wiley. doi: 10.1046/j.1525-1594.1998.06108.x.

Kameneva, M.V., Garrett, K.O., Watach, M.J., & Borovetz, H.S. (1998). Red blood cell aging and risk of cardiovascular diseases. CLINICAL HEMORHEOLOGY AND MICROCIRCULATION, 18(1), 67-74.

Patterson, S.M., Marsland, A.L., Manuck, S.B., Kameneva, M., & Muldoon, M.F. (1998). Acute hemoconcentration during psychological stress: Assessment of hemorheologic factors. INTERNATIONAL JOURNAL OF BEHAVIORAL MEDICINE, 5(3), 204-212.Springer Science and Business Media LLC. doi: 10.1207/s15327558ijbm0503_2.

Thomas, D.C., Butler, K.C., Taylor, L.P., le Blanc, P., Rintoul, T.C., Petersen, T.V., Griffith, B.P., Kormos, R.L., Borovetz, H.S., Litwak, P., Kameneva, M.V., Choi, S.J., Burgreen, G.W., Wu, Z.J., & Antaki, J.F. (1998). Progress on development of the Nimbus-University of Pittsburgh axial flow left ventricular assist system. ASAIO JOURNAL, 44(5), M521-M524.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199809000-00040.

Yamazaki, K., Litwak, P., Tagusari, O., Mori, T., Kono, K., Kameneva, M., Watach, M., Gordon, L., Miyagishima, M., Tomioka, J., Umezu, M., Outa, E., Antaki, J.F., Kormos, R.L., Koyanagi, H., & Griffith, B.P. (1998). An implantable centrifugal blood pump with a recirculating purge system (Cool-Seal system). ARTIFICIAL ORGANS, 22(6), 466-474.Wiley. doi: 10.1046/j.1525-1594.1998.06156.x.

Yeleswarapu, K.K., Kameneva, M.V., Rajagopal, K.R., & Antaki, J.F. (1998). The flow of blood in tubes: Theory and experiment. MECHANICS RESEARCH COMMUNICATIONS, 25(3), 257-262.Elsevier BV. doi: 10.1016/S0093-6413(98)00036-6.

Adolph, R., Vorp, D.A., Steed, D.L., Webster, M.W., Kameneva, M.V., & Watkins, S.C. (1997). Cellular content and permeability of intraluminal thrombus in abdominal aortic aneurysm. JOURNAL OF VASCULAR SURGERY, 25(5), 916-926.Elsevier BV. doi: 10.1016/S0741-5214(97)70223-4.

Butler, K., Thomas, D., Antaki, J., Borovetz, H., Griffith, B., Kameneva, M., Kormos, R., & Litwak, P. (1997). Development of the Nimbus/Pittsburgh axial flow left ventricular assist system. ARTIFICIAL ORGANS, 21(7), 602-610.Wiley. doi: 10.1111/j.1525-1594.1997.tb03708.x.

Kameneva, M.V., Antaki, J.F., Yeleswarapu, K.K., Watach, M.J., Griffith, B.P., & Borovetz, H.S. (1997). Plasma protective effect on red blood cells exposed to mechanical stress. ASAIO JOURNAL, 43(5), M571-M575.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199709000-00047.

Kameneva, M.V., Borovetz, H.S., Antaki, J.F., Litwak, P., Federspiel, W.J., Kormos, R.L., & Griffith, B.P. (1997). Effect of perfluorochemical emulsion on hemorheology and shear induced blood trauma - Possible mechanisms and future applications. OXYGEN TRANSPORT TO TISSUE XVIII, 411, 383-390.Springer US. doi: 10.1007/978-1-4615-5865-1_49.

Macha, M., Litwak, P., Yamazaki, K., Kameneva, M., Butler, K.C., Thomas, D.C., Taylor, L.P., Griffith, B.P., & Borovetz, P.S. (1997). In vivo evaluation of an extracorporeal pediatric centrifugal blood pump. ASAIO JOURNAL, 43(4), 284-288.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199707000-00005.

Macha, M., Litwak, P., Yamazaki, K., Kameneva, M., Kerrigan, J.P., Antaki, J.F., Butler, K.C., Thomas, D.C., Taylor, L.P., Kormos, R.L., Griffith, B.P., & Borovetz, H.S. (1997). Survival for up to six months in calves supported with an implantable axial flow ventricular assist device. ASAIO JOURNAL, 43(4), 311-315.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199707000-00009.

Thomas, D.C., Butler, K.C., Taylor, L.P., LeBlanc, P., Griffith, B.P., Kormos, R.L., Borovetz, H.S., Litwak, P., Kameneva, M.V., Choi, S., Burgreen, G.W., Wagner, W.R., Wu, Z.J., & Antaki, J.F. (1997). Continued development of the Nimbus University of Pittsburgh (UOP) axial flow left ventricular assist system. ASAIO JOURNAL, 43(5), M564-M566.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199709000-00045.

Yamazaki, K., Kormos, R.L., Litwak, P., Tagusari, O., Mori, T., Antaki, J.F., Kameneva, M., Watach, M., Gordon, L., Mukuo, H., Umezu, M., Tomioka, J., Outa, E., Griffith, B.P., & Koyanagai, H. (1997). Long term animal experiments with an intraventricular axial flow blood pump. ASAIO JOURNAL, 43(5), M696-M700.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199709000-00074.

Yamazaki, K., Litwak, P., Kormos, R.L., Mori, T., Tagusari, O., Antaki, J.F., Kameneva, M., Watach, M., Gordon, L., Umezu, M., Tomioka, J., Koyanagi, H., & Griffith, B.P. (1997). An implantable centrifugal blood pump for long term circulatory support. ASAIO JOURNAL, 43(5), M686-M691.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199709000-00072.

Konishi, H., Antaki, J.F., Litwak, P., Kameneva, M., Yamazaki, K., Macha, M., Kerrigan, T.P., Mandarino, W.A., Butler, K.C., Borovetz, T.S., & Kormos, R.L. (1996). Long-term animal survival with an implantable axial flow pump as a left ventricular assist device. ARTIFICIAL ORGANS, 20(2), 124-127.Wiley. doi: 10.1111/j.1525-1594.1996.tb00713.x.

Stingele, R., Wagner, B., Kameneva, M.V., Williams, M.A., Wilson, D.A., Thakor, N.V., Traystman, R.J., & Hanley, D.F. (1996). Reduction of cytochrome-c oxidase copper precedes failing cerebral O2 utilization in fluorocarbon-perfused cats. Am J Physiol, 271(2 Pt 2), H579-H587.American Physiological Society. doi: 10.1152/ajpheart.1996.271.2.H579.

Stingele, R., Wagner, B., Kameneva, M.V., Williams, M.A., Wilson, D.A., Thakor, N.V., Traystman, R.J., & Hanley, D.F. (1996). Reduction of cytochrome-c oxidase copper precedes failing cerebral O2 utilization in fluorocarbon-perfused cats. American Journal of Physiology - Heart and Circulatory Physiology, 40(2).

Kameneva, M.V., Antaki, J.F., Borovetz, H.S., Griffith, B.P., Butler, K.C., Yeleswarapu, K.K., Watach, M.J., & Kormos, R.L. (1995). Mechanisms of red blood cell trauma in assisted circulation. Rheologic similarities of red blood cell transformations due to natural aging and mechanical stress. ASAIO J, 41(3), M457-M460.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199507000-00051.

KAMENEVA, M.V., PARFENOV, A.S., CHIRKOVA, L.D., & BASKOVA, I.P. (1995). PIYAVIT - A COMPLEX PREPARATION FROM THE MEDICINAL LEECH IMPROVES BLOOD RHEOLOGY AND DECREASES PLATELET-AGGREGATION. CLINICAL HEMORHEOLOGY, 15(4), 633-640.

Muldoon, M.F., Herbert, T.B., Patterson, S.M., Kameneva, M., Raible, R., & Manuck, S.B. (1995). Effects of acute psychological stress on serum lipid levels, hemoconcentration, and blood viscosity. Arch Intern Med, 155(6), 615-620.American Medical Association (AMA). doi: 10.1001/archinte.1995.00430060077009.

Yamazaki, K., Kormos, R., Mori, T., Umezu, M., Kameneva, M., Antaki, J., Outa, E., Litwak, P., Kerrigan, J., & Tomczak, J. (1995). An intraventricular axial flow blood pump integrated with a bearing purge system. ASAIO J, 41(3), M327-M332.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199507000-00024.

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Kameneva, M.V., Antaki, J.F., Butler, K.C., Watach, M.J., Kormos, R.L., Griffith, B.P., & Borovetz, H.S. (1994). A sheep model for the study of hemorheology with assisted circulation. Effect of an axial flow blood pump. ASAIO J, 40(4), 959-963.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199410000-00009.

Kameneva, M.V., Antaki, J.F., Konishi, H., Whalen, J.J., Kerrigan, J.P., Watach, M.J., Kormos, R.L., Griffith, B.P., & Borovetz, H.S. (1994). Effect of perfluorochemical emulsion on blood trauma and hemorheology. ASAIO J, 40(3), M576-M579.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199407000-00064.

KAMENEVA, M.V., ANTAKI, J.F., WATACH, M.J., BOROVETZ, H.S., & KORMOS, R.L. (1994). HEPARIN EFFECT ON RED-BLOOD-CELL AGGREGATION. BIORHEOLOGY, 31(3), 297-304.IOS Press. doi: 10.3233/bir-1994-31307.

POPEL, A.S., JOHNSON, P.C., KAMENEVA, M.V., & WILD, M.A. (1994). CAPACITY FOR RED-BLOOD-CELL AGGREGATION IS HIGHER IN ATHLETIC MAMMALIAN-SPECIES THAN IN SEDENTARY SPECIES. JOURNAL OF APPLIED PHYSIOLOGY, 77(4), 1790-1794.American Physiological Society. doi: 10.1152/jappl.1994.77.4.1790.

Antaki, J.F., Butler, K.C., Kormos, R.L., Kawai, A., Konishi, H., Kerrigan, J.P., Borovetz, H.S., Maher, T.R., Kameneva, M.V., & Griffith, B.P. (1993). In vivo evaluation of the Nimbus axial flow ventricular assist system. Criteria and methods. ASAIO J, 39(3), M231-M236.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199307000-00015.

Butler, K.C., Maher, T.R., Borovetz, H.S., Kormos, R.L., Antaki, J.F., Kameneva, M., Griffith, B.P., Zerbe, T., & Schaffer, F.D. (1992). Development of an axial flow blood pump LVAS. ASAIO J, 38(3), M296-M300.Ovid Technologies (Wolters Kluwer Health). doi: 10.1097/00002480-199207000-00041.

Kameneva, M.V., Polyakova, M.S., & Fedoseeva, E.V. (1991). Effect of drag-reducing polymers on the structure of the stagnant zones and eddies in models of constricted and branching blood vessels. Fluid Dynamics, 25(6), 956-959.Springer Science and Business Media LLC. doi: 10.1007/bf01049712.

Gannushkina, I.V., Kameneva, M.V., & Antelava, A.L. (1988). [Effect on the systemic hemodynamics of polymers that decrease hydrodynamic resistance]. Biull Eksp Biol Med, 106(11), 533-536.

GANNUSHKINA, I.V., KAMENEVA, M.V., & ANTELAVA, A.L. (1988). EFFECT OF POLYMERS REDUCING HYDRODYNAMIC RESISTANCE ON SYSTEMIC HEMODYNAMICS. BULLETIN OF EXPERIMENTAL BIOLOGY AND MEDICINE, 106(11), 1533-1535.Springer Science and Business Media LLC. doi: 10.1007/BF00840832.

Kameneva, M.V., Poliakova, M.S., & Gvozdkova, I.A. (1988). [The nature of the effect of polymers reducing hydrodynamic resistance on blood circulation]. Dokl Akad Nauk SSSR, 298(5), 1253-1256.

Kameneva, M.V., Polyakova, M.S., & Gvozdkova, I.A. (1988). Nature of the influence of polymers that lower hydrodynamic resistance on blood circulation. Doklady Biophysics, 298-300, 22-24.

Ganushkina, I.V., & Kameneva, M.V. (1987). [Various hydrodynamic characteristics of cerebral circulation regulation]. Dokl Akad Nauk SSSR, 292(2), 494-496.

Grigorian, S.S., Gannushkina, I.V., Kameneva, M.V., Smirnov, V.V., & Shanoian, S.A. (1987). [Combined effect of blood factor C-26 and polyethylene oxide on hemodynamics]. Anesteziol Reanimatol, (4), 64-66.

Grigorian, S.S., Kameneva, M.V., Smirnov, V.V., Shanoian, S.A., & Shakhnazarov, A.A. (1987). [A drag-reducing high-molecular weight component of erythrocytes]. Dokl Akad Nauk SSSR, 296(3), 740-742.

Grigoryan, S.S., Kameneva, M.V., Smirnov, V.V., Shanoyan, S.A., & Shakhnazarov, A.A. (1987). Falling hydrodynamic resistance of the high-molecular-weight component of erythrocytes. Doklady Biophysics, 295-297, 178-179.

Kameneva, M.V., & Timofeev, V.F. (1986). [Raised hematocrit as a risk factor of arterial hypertension]. Kardiologiia, 26(10), 100-101.

Gannushkina, I.V., Grigorian, S.S., Kameneva, M.V., & Shakhnazarov, A.A. (1982). [Possibility of restoring the cerebral blood flow in cerebral ischemia by injecting special polymers into the blood]. Patol Fiziol Eksp Ter, 26(3), 58-59.

Agranenko, V.A., Grigoryan, S.S., Kameneva, M.V., Komarov, L.S., Rudchenko, A.V., & Shakhnazarov, A.A. (1977). Certain characteristic features of the preservation of blood cells at low temperatures. Polymer Mechanics, 12(6), 983-984.Springer Science and Business Media LLC. doi: 10.1007/bf00856508.

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Grigoryan, S.S., Korabel'nikov, M.I., Kameneva, M.V., & Shakhnazarov, A.A. (1975). Elimination of Seizing of the Drilling Tool by Impact Vibration Devices. Oil Industry, (12), 14-16.

Maul, T.M., Antaki, J.F., Wu, J., Kim, J., Kameneva, M.V., Olia, S.E., Wearden, P.D., Kocylidirim, E., & Borovetz, H.S. (2011). In Silico Design and In-Vivo Analysis of the Pediaflow™ Pediatric Ventricular Assist Device. In ASME 2011 Summer Bioengineering Conference, Parts A and B, (PARTS A AND B), (pp. 297-298).American Society of Mechanical Engineers. doi: 10.1115/sbc2011-53241.

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Rui, Z., Marhefka, J., Kameneva, M., & Antaki, J. (2007). The effect of red cell dynamics on platelet spatial distribution in sudden expansion. In Proceedings of the ASME Summer Bioengineering Conference 2007, SBC 2007, (pp. 695-696).

Martin, P.M., Snyder, T.A., Kameneva, M.V., Monzyk, B., Burckle, E.C., Vollmer, A., Thorsen, T.A., Gilbert, R.J., Dasse, K.A., Borovetz, H.S., & Wagner, W.R. (2005). Oxygen generation and biocompatibility aspects of a photolytic artifical lung device. In Proceedings, Annual Technical Conference - Society of Vacuum Coaters, (pp. 670-672).

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