References
- Chang T. M. S. Blood Substitutes Based on Modified Hemoglobin Prepared by Encapsulation or Crosslinking: An Overview. Biomater. Artif. Cell Immobilization Biotechnol. 1991; 20: 159–82
- Winslow R. M. Blood Substitute: A Moving Target. Nature Med. 1995; 1: 1212–5
- Tsuchida E. Introduction: Overview and Perspective. Artificial Red Cells, E. E. Tsuchida. John Wiley and Sons, Chichester 1995; 1–20
- Looker D, Abbott-Brown D, Cozart P, Durfee S, Hoffman S, Mathews A J, Miller-Roehrich J, Shoemaker S, Trimble S, Fermi G, Komiyama N H, Nagai K, Stetler GL. A human recombinant hemoglobin designed for use as a blood substitutes. Nature 1992; 356: 258–60
- Kobayashi K, Tsuchida E, Nishide H. : Totally synthetic hemes: their characteristics and oxygen-carrying capacity in dogs:. Artificial Red Cells, E Tsuchida. John Wiley and Sons, Chichester 1995; 93–116
- Zheng S, Beissinger R, Sherwood R L, McCormic D L, Lasic D D, Martin FJ. Liposome-encapsulated hemoglobin: A red cell substitute. J Liposome Res 1993; 3: 575–88
- Tsuchida E, Takeoka S. : Stabilized hemoglobin vesicles:. Artificial Red Cells, E Tsuchida. John Wiley and Sons, Chichester 1995; 35–64
- Sakai H, Takeoka S, Hamada K. Physical properties of hemoglobin vesicles as red cell substitutes. Biotechnol Progress 1996; 12: 119–25
- Takeoka S, Ohgushi T, Ohmori T, Terase K, Nishide H, Tsuchida E. Layer controlled hemoglobin vesicles by interaction of hemoglobin with phospholipid assembly. Langmuir 1996; 12: 1775–9
- Takeoka S, Sakai H, Takisada M, Tsuchida E. Inhibition of intervesicular aggregation of phospholipid vesicles by incorporation of dialkyl oligosaccharide glycerol. Chem. Lett. 1992; 1877–80
- Woodle M C, Engbers C M, Zalipski S. New amphyphatic polymer-lipid conjugates forming long circulation reticuloendothelial system-evading liposomes. Bioconjugate Chem. 1994; 5: 493–6
- Usuba A, Miyazawa M, Motoki R, Sakaguchi K, Suzuki K, Kamitani T, Takahashi A. Oxygen transport capacity and hemodynamic effect of newly developed artificial blood “Neo Red Cells (NRC)”. Intern. J. Artif. Organs 1993; 16: 551–6
- Sakai H, Takeoka S, Park S I, Kose T, Hamada K, Izumi Y, Yoshizu A, Nishide H, Kobayashi K, Tsuchida E. Rheological behaviors of surface-modified hemoglobin vesicles. Bioconjugate Chem., in press
- Chung J E, Hamada K, Sakai H, Takeoka S, Tsuchida E. Ligand exchange reaction of carbonylhemoglobin to oxyhemoglobin in a hemoglobin liquid membrane. Nihonkagakukaishi 1995; 2: 123–7
- Nelimarkka O, Halkola L, Niinikoski J. Distribution of renal cortical and medullary tissue oxygenation in hemorrhagic shock. Acta Chir Scand 1982; 148: 213–219
- Gardiner S M, Compton A M, Bennett T, Hartley CJ. Can pulsed doppler technique measure changes in aortic blood flow in conscious rats. Am J Physiol 1990; 259: H448–56
- Sheldon C A, Cerra F B, Bohnhoff N, Belani K, Frieswyk D, Dhanalal K, Leonald AS. Peripheral postcapillary venous pressure: A new, more sensitive monitor of effective blood volume during hemorrhagic shock and resuscitation. Surgery 1983; 94: 399–406
- Kandel G, Aberman A. Mixed venous oxygen saturation. Its role in the assessment of the critically ill patient. Arch Intern Med 1993; 143: 1400–2
- Villar J, Slutsky A S, Hew E, Aberham A. Oxygen transport and oxygen consumption in critically ill patients. Chest 1990; 98: 687–92