Related Articles for PubMed (Select 18423033)

Survival time in severe hemorrhagic shock after perioperative hemodilution is longer with PEG-conjugated human serum albumin than with HES 130/0.4: a microvascular perspective.

Martini J, Cabrales P, K A, Acharya SA, Intaglietta M, Tsai AG.

Crit Care. 2008;12(2):R54. Epub 2008 Apr 18.

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Early difference in tissue pH and microvascular hemodynamics in hemorrhagic shock resuscitation using polyethylene glycol-albumin- and hydroxyethyl starch-based plasma expanders.

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Extreme hemodilution with PEG-hemoglobin vs. PEG-albumin.

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Resuscitation from hemorrhagic shock with hydroxyethyl starch and coagulation changes.

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Rapid restoration of microcirculatory blood flow with hyperviscous and hyperoncotic solutions lowers the transfusion trigger in resuscitation from hemorrhagic shock.

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Hydroxyethyl starch (HES) 130/0.4 provides larger and faster increases in tissue oxygen tension in comparison with prehemodilution values than HES 70/0.5 or HES 200/0.5 in volunteers undergoing acute normovolemic hemodilution.

Standl T, Burmeister MA, Schroeder F, Currlin E, Schulte am Esch J, Freitag M, Schulte am Esch J.

Anesth Analg. 2003 Apr;96(4):936-43, table of contents.

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Low molecular weight hydroxyethyl starch 6% compared to albumin 4% during intentional hemodilution.

Baron JF, De Kegel D, Prost AC, Mundler O, Arthaud M, Basset G, Maistre G, Masson F, Carayon A, Landault C, et al.

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Resuscitation with polyethylene glycol-modified human hemoglobin improves microcirculatory blood flow and tissue oxygenation after hemorrhagic shock in awake hamsters.

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Acute preoperative hemodilution in cardiac surgery: volume replacement with a hypertonic saline-hydroxyethyl starch solution.

Boldt J, Kling D, Weidler B, Zickmann B, Herold C, Dapper F, Hempelmann G.

J Cardiothorac Vasc Anesth. 1991 Feb;5(1):23-8.

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[The hemodynamic effects of various hydroxyethyl starch solutions in heart surgery patients]

Boldt J, Kling D, Zickmann B, Mühlhause M, Dapper F, Hempelmann G.

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Microvascular pressure and functional capillary density in extreme hemodilution with low- and high-viscosity dextran and a low-viscosity Hb-based O2 carrier.

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[Perfusion changes in hemodilution. The effect of extensive isovolemic hemodilution with gelatin and hydroxyethylstarch solutions on cerebral blood flow velocity and cutaneous microcirculation in humans]

Mühling J, Detsch O, Mühling A, Sablotzki A, Dehne MG, Dietrich G, Hempelmann G.

Anaesthesist. 1997 Nov;46(11):927-37. German.

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Transfusion restores blood viscosity and reinstates microvascular conditions from hemorrhagic shock independent of oxygen carrying capacity.

Cabrales P, Intaglietta M, Tsai AG.

Resuscitation. 2007 Oct;75(1):124-34. Epub 2007 May 3.

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Effects of resuscitation with hydroxyethyl starch (HES) on pulmonary hemodynamics and lung lymph balance in hemorrhagic sheep; comparative study of low and high molecular HES.

Kaneki T, Koizumi T, Yamamoto H, Fujimoto K, Kubo K, Shibamoto T.

Resuscitation. 2002 Jan;52(1):101-8.

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[Preoperative hypervolemic hemodilution with 6% hydroxyethyl starch 130/0,4 (HES 130/ 0.4) solution as a way of reducing needs for donor blood transfusion]

Winter V, Gille J, Richter A, Sablotzki A, Wiedemann B.

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Effects of colloid resuscitation on peripheral microcirculation, hemodynamics, and colloidal osmotic pressure during acute severe hemorrhage in rabbits.

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Hypertonic-hyperoncotic solutions improve cardiac function in children after open-heart surgery.

Schroth M, Plank C, Meissner U, Eberle KP, Weyand M, Cesnjevar R, Dötsch J, Rascher W.

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Influence of volume replacement with different HES-solutions on microcirculatory blood flow in cardiac surgery.

Boldt J, Zickmann B, Rapin J, Hammermann H, Dapper F, Hempelmann G.

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Volume expansion of albumin, gelatin, hydroxyethyl starch, saline and erythrocytes after haemorrhage in the rat.

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