Clinical Development of Human Polymerized Hemoglobin as a Blood Substitute

Although the efficacy of hemoglobin‐based oxygen carriers was established more than 60 years ago, all prior clinical trials have demonstrated significant toxicity characterized by renal dysfunction, gastrointestinal distress, and systemic vasoconstriction. The mechanisms of these toxicities now appe...

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Veröffentlicht in:	World journal of surgery 1996-11, Vol.20 (9), p.1200-1207
Hauptverfasser:	Gould, Steven A., Moss, Gerald S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Blood Substitute Blood Substitutes - therapeutic use Clinical Trials as Topic Exchange Transfusion, Whole Blood Hemoglobins - therapeutic use Humans Numerous Effort Oxygen Carrier Polymerize Form Pyridoxal Phosphate - analogs & derivatives Pyridoxal Phosphate - therapeutic use Relax Factor Vasoconstriction - physiology
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container_title	World journal of surgery
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creator	Gould, Steven A. Moss, Gerald S.
description	Although the efficacy of hemoglobin‐based oxygen carriers was established more than 60 years ago, all prior clinical trials have demonstrated significant toxicity characterized by renal dysfunction, gastrointestinal distress, and systemic vasoconstriction. The mechanisms of these toxicities now appear to be understood. Tetrameric forms of the hemoglobin molecule extravasate from the circulation and interact with endothelium‐derived relaxing factor, leading to unopposed vasoconstriction. Although numerous efforts are under way to chemically modify the native tetramer, it is likely that all tetrameric forms of the hemoglobin molecule will continue to extravasate. We have focused on developing a polymerized form of hemoglobin that is virtually free of unreacted tetramer. The development and characterization of this polymerized pyridoxylated hemoglobin solution (Poly SFH‐P) is described. Clinical trials have been completed successfully in volunteers and are now under way to assess the safety and efficacy of Poly SFH‐P as a clinically useful red blood cell substitute for treatment of acute blood loss in the setting of trauma and surgery.
doi_str_mv	10.1007/s002689900183
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The mechanisms of these toxicities now appear to be understood. Tetrameric forms of the hemoglobin molecule extravasate from the circulation and interact with endothelium‐derived relaxing factor, leading to unopposed vasoconstriction. Although numerous efforts are under way to chemically modify the native tetramer, it is likely that all tetrameric forms of the hemoglobin molecule will continue to extravasate. We have focused on developing a polymerized form of hemoglobin that is virtually free of unreacted tetramer. The development and characterization of this polymerized pyridoxylated hemoglobin solution (Poly SFH‐P) is described. 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The mechanisms of these toxicities now appear to be understood. Tetrameric forms of the hemoglobin molecule extravasate from the circulation and interact with endothelium‐derived relaxing factor, leading to unopposed vasoconstriction. Although numerous efforts are under way to chemically modify the native tetramer, it is likely that all tetrameric forms of the hemoglobin molecule will continue to extravasate. We have focused on developing a polymerized form of hemoglobin that is virtually free of unreacted tetramer. The development and characterization of this polymerized pyridoxylated hemoglobin solution (Poly SFH‐P) is described. 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The mechanisms of these toxicities now appear to be understood. Tetrameric forms of the hemoglobin molecule extravasate from the circulation and interact with endothelium‐derived relaxing factor, leading to unopposed vasoconstriction. Although numerous efforts are under way to chemically modify the native tetramer, it is likely that all tetrameric forms of the hemoglobin molecule will continue to extravasate. We have focused on developing a polymerized form of hemoglobin that is virtually free of unreacted tetramer. The development and characterization of this polymerized pyridoxylated hemoglobin solution (Poly SFH‐P) is described. Clinical trials have been completed successfully in volunteers and are now under way to assess the safety and efficacy of Poly SFH‐P as a clinically useful red blood cell substitute for treatment of acute blood loss in the setting of trauma and surgery.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer‐Verlag</pub><pmid>8864082</pmid><doi>10.1007/s002689900183</doi><tpages>8</tpages></addata></record>
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subjects	Animals Blood Substitute Blood Substitutes - therapeutic use Clinical Trials as Topic Exchange Transfusion, Whole Blood Hemoglobins - therapeutic use Humans Numerous Effort Oxygen Carrier Polymerize Form Pyridoxal Phosphate - analogs & derivatives Pyridoxal Phosphate - therapeutic use Relax Factor Vasoconstriction - physiology
title	Clinical Development of Human Polymerized Hemoglobin as a Blood Substitute
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