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Biomaterials, Artificial Cells and Artificial Organs Volume 16, 1988 - Issue 1-3
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Original Article

A New Resuscitation Fluid “Stabiilized Hemoglobin” Preparation and Characteristics

Y. Iwashita Ajinomoto Co., Inc., Kawasaki, Japan
,
A. Yabuki Ajinomoto Co., Inc., Kawasaki, Japan
,
K. Yamaji Ajinomoto Co., Inc., Kawasaki, Japan
,
K. Iwasaki Ajinomoto Co., Inc., Kawasaki, Japan
,
T. Okami Ajinomoto Co., Inc., Kawasaki, Japan
,
C. Hirata Ajinomoto Co., Inc., Kawasaki, Japan
&
K. Kosaka Fujirebio Inc., Tokyo, Japan
 show all
Pages 271-280 | Published online: 11 Jul 2009

Citations (41)

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Read on this site (3)

Thomas Ming Swi Chang. (2006) Evolution of Artificial Cells Using Nanobiotechnology of Hemoglobin Based RBC Blood Substitute as an Example. Artificial Cells, Blood Substitutes, and Biotechnology 34:6, pages 551-566.
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Paul J. Miles, Kate V. Langley, Cyrus J. Stacey & Todd L. Talarico. (1997) Detection of Residual Polyethylene Glycol Derivatives in Pyridoxylated-Hemoglobin-Polyoxyethylene Conjugate. Artificial Cells, Blood Substitutes, and Biotechnology 25:3, pages 315-326.
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Thomas M. S. Chang. (1992) Blood Substitutes Based on Modified Hemoglobin Prepared by Encapsulation or Crosslinking: an Overview. Biomaterials, Artificial Cells and Immobilization Biotechnology 20:2-4, pages 159-179.
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Articles from other publishers (38)

Takashi Matsuhira & Hiromi Sakai. (2022) Artificial oxygen carriers, from nanometer- to micrometer-sized particles, made of hemoglobin composites substituting for red blood cells. Particuology 64, pages 43-55.
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Hiromi Sakai, Naoko Kobayashi, Tomoko Kure & Chie Okuda. (2022) Translational Research of Hemoglobin Vesicles as a Transfusion Alternative. Current Medicinal Chemistry 29:3, pages 591-606.
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Yusuke Naito, Hiromi Sakai, Satoki Inoue & Masahiko Kawaguchi. (2017) Hemoglobin Vesicles prolong the time to circulatory collapse in rats during apnea. BMC Anesthesiology 17:1.
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Li Duan, Xuehai Yan, Anhe Wang, Yi Jia & Junbai Li. (2012) Highly Loaded Hemoglobin Spheres as Promising Artificial Oxygen Carriers. ACS Nano 6:8, pages 6897-6904.
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Dario Caccia, Luca Ronda, Raffaella Frassi, Michele Perrella, Elena Del Favero, Stefano Bruno, Barbara Pioselli, Stefania Abbruzzetti, Cristiano Viappiani & Andrea Mozzarelli. (2009) PEGylation Promotes Hemoglobin Tetramer Dissociation. Bioconjugate Chemistry 20:7, pages 1356-1366.
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Y. Smani, P. Labrude, C. Vigneron & B. Faivre. (2007) Les transporteurs d’oxygène à base d’hémoglobine et les tentatives de substituer les globules rouges. Transfusion Clinique et Biologique 14:5, pages 464-473.
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Sarit Sivan & Noah Lotan. 2006. Wiley Encyclopedia of Biomedical Engineering. Wiley Encyclopedia of Biomedical Engineering.
Seetharama A. Acharya & Belur N. Manjula. 2006. Blood Substitutes. Blood Substitutes 460 469 .
M. Zouhair Atassi & Catherine Childress. (2005) Immunogenicity of Heme Complexes of Peptides Designed to Mimic the Heme Environment of Myoglobin and Hemoglobin. The Protein Journal 24:1, pages 51-56.
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M. Zouhair Atassi & Catherine Childress. (2005) Oxygen-binding Heme Complexes of Peptides Designed to Mimic the Heme Environment of Myoglobin and Hemoglobin. The Protein Journal 24:1, pages 37-49.
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Thomas Ming Swi Chang. 2005. Artificial Oxygen Carrier. Artificial Oxygen Carrier 22 33 .
Thomas Ming Swi Chang. (2004) Hemoglobin-based Red Blood Cell Substitutes. Artificial Organs 28:9, pages 789-794.
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Oh-Seung Kwon, Uoo Tae Chung & Youn Bok Chung. (2004) Pharmacokinetics of PEG-Hemoglobin SB1, a hemoglobin-based oxygen carrier, after its intravenous administration in beagle dogs. Archives of Pharmacal Research 27:2, pages 259-264.
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T. M. S. Chang. (2003) Future generations of red blood cell substitutes. Journal of Internal Medicine 253:5, pages 527-535.
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Donald J. AbrahamBarbara Campanini, Stefano Bruno, Samanta Raboni & Andrea Mozzarelli. 2003. Burger's Medicinal Chemistry and Drug Discovery. Burger's Medicinal Chemistry and Drug Discovery 385 441 .
Christopher P. Stowell. (2002) Hemoglobin-based oxygen carriers. Current Opinion in Hematology 9:6, pages 537-543.
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Jean G. Riess. (2001) Oxygen Carriers (“Blood Substitutes”)Raison d'Etre, Chemistry, and Some Physiology Blut ist ein ganz besondrer Saft . Chemical Reviews 101:9, pages 2797-2920.
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Christopher P. Stowell, Jack Levin, Bruce D. Spiess & Robert M. Winslow. (2002) Progress in the development of RBC substitutes. Transfusion 41:2, pages 287-299.
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Gus J. Vlahakes. 2001. Surgical Research. Surgical Research 1037 1046 .
Thomas Ming Swi Chang. (2000) Red blood cell substitutes. Best Practice & Research Clinical Haematology 13:4, pages 651-667.
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Christopher Privalle, Todd Talarico, Teresa Keng & Joseph DeAngelo. (2000) Pyridoxalated hemoglobin polyoxyethylene: a nitric oxide scavenger with antioxidant activity for the treatment of nitric oxide-induced shock. Free Radical Biology and Medicine 28:10, pages 1507-1517.
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Todd L Talarico, Katherine J Guise & Cyrus J Stacey. (2000) Chemical characterization of pyridoxalated hemoglobin polyoxyethylene conjugate. Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology 1476:1, pages 53-65.
Crossref
Thomas Ming Swi Chang. 2000. Principles of Tissue Engineering. Principles of Tissue Engineering 601 610 .
Thomas Ming Swi Chang. (2002) Artificial Cells with Emphasis on Cell Encapsulation of Genetically Engineered Cells. Artificial Organs 22:11, pages 958-965.
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Thomas Ming Swi Chang. (1998) Red blood cell substitutes. Seminars in Anesthesia, Perioperative Medicine and Pain 17:3, pages 208-215.
Crossref
Todd Talarico, Adam Swank & Chris Privalle. (1998) Autoxidation of Pyridoxalated Hemoglobin Polyoxyethylene Conjugate. Biochemical and Biophysical Research Communications 250:2, pages 354-358.
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T.M.S. Chang. (2011) Modified Hemoglobin‐based Blood Substitutes: Crosslinked, Recombinant and Encapsulated Hemoglobin. Vox Sanguinis 74:S2, pages 233-241.
Crossref
Harvey S. Borovetz, John F. Burke, Thomas Ming Swi Chang, André Colas, A. Norman Cranin, Jim Curtis, Cynthia H. Gemmell, Bartley P. Griffith, Nadim James Hallab, Jorge Heller, Allan S. Hoffman, Joshua J. Jacobs, Ray Ideker, J. Lawrence Katz, Jack Kennedy, Jack E. Lemons, Paul S. Malchesky, Jeffery R. Morgan, Robert E. PaderaJr.Jr., Anil S. Patel, Miguel F. Reffojo, Mark S. Roby, Thomas E. Rohr, Frederick J. Schoen, Michael V. Sefton, Robert T. Sheridan, Dennis C. Smith, Francis A. Spelman, Peter J. Tarcha, Ronald G. Tomapkins, Ramakrishna Venugopalan, William R. Wagner, Paul Yager & Martin L. Yarmush. 1996. Biomaterials Science. Biomaterials Science 455 XVI .
A. Grünert. 1996. Transfusionsmedizin. Transfusionsmedizin 511 521 .
Yoshitoshi Kida, Midori Maeda, Seinosuke Iwata, Yuji Iwashita, Keiji Goto & Katsuhide Nishi. (2008) Effects of Pyridoxalated Hemoglobin Polyoxyethylene Conjugate and Other Hemoglobin‐Related Substances on Arterial Blood Pressure in Anesthetized and Conscious Rats. Artificial Organs 19:2, pages 117-128.
Crossref
D. Putnam & J. Kopeček. 1995. Biopolymers II. Biopolymers II 55 123 .
Philippe Schneider. (1992) Artificial blood substitutes. Transfusion Science 13:3, pages 357-370.
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P. Lestavel. (1992) I Substituts du sang: transporteurs artificiels d'oxygène. Réanimation Urgences 1:6, pages 927-946.
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Jill E. Ogden. (1992) Recombinant haemoglobin in the development of red-blood-cell substitutes. Trends in Biotechnology 10, pages 91-96.
Crossref
Kwang Nho, Samuel Zalipsky, Abraham Abuchowski & Frank F. Davis. 1992. Poly(Ethylene Glycol) Chemistry. Poly(Ethylene Glycol) Chemistry 171 182 .
Mary L. Nucci, Robert Shorr & Abraham Abuchowski. (1991) The therapeutic value of poly(ethylene glycol)-modified proteins. Advanced Drug Delivery Reviews 6:2, pages 133-151.
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A. Yabuki, K. Yamaji, H. Ohki & Y. Iwashita. (2003) Characterization of a pyridoxalated hemoglobin‐polyoxyethylene conjugate as a physiologic oxygen carrier. Transfusion 30:6, pages 516-520.
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Thomas M.S. Chang. (1989) The Use of Modified Hemoglobin as an Oxygen Carrying Blood Substitute. Transfusion Medicine Reviews 3:3, pages 213-218.
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