156 G.Chenetal. ChenG,DuanY,LiS,WangH,LiuJ,YangC.2013.Antioxidanteffectsof Conclusion Vconhumnaplacentahemoglobin-basedoxygencarriers.The14th InternationalSymposiumofBloodSubstitutesandOxygenThera- Inthiswork,themolybdenumbluemethodwasusedtodetect peutics.Chengdu,China. theVccontentinthesolutionofHBOCs,andtheconditions DormanSC,KennyCF,MillerL,HirschRE,HarringtonJP.2002.Roleof ofthecolorimetricreactionwereoptimized.Theresultsshow redoxpotentialofhemoglobin-basedoxygencarriersonmethemo- globinreductionbyplasmacomponents.ArtifCellsBloodSubstit thatHBOCscouldbeisolatedeffectivelybytheOA-EDTAsolu- ImmubilBiotechnol30:39–51. tionwithHClastheacidicmedium,whichhasnointerferen- EldawyMA,TawfikAS,ElshabouriSR.1975.Rapid,sensitivespectro- tialeffectsonthereaction.TheRSDofthedatafrommethod photometricmethodforthedeterminationofascorbicacid.Anal Chem47:461–464. validationwerebelow5%,andtherecoverieswerebetween HarringtonJP,OrligK,ZitoSL,WollockoJ,WollockoH.2010.Struc- 97%and102%.Inconclusion,themolybdenumbluemethod turalandredoxbehaviorofOxyVitaTM,azero-linkedpoly- candetecttheVccontenteffectivelyinthesolutionofHBOCs, merichemoglobin:comparisonwithnaturalacellularpolymeric hemoglobins.ArtifCellsBloodSubstitImmubilBiotechnol38: andthushaspotentialapplicationindevelopmentofHBOCs 64–68. duetoitsconvenient,low-cost,andsimpleoperation. LiT,ZhangH,WangH,YuR,YangC.2006.Purificationandviralinac- tivationofhemoglobinfromhumanplacentablood.JBiomedEng 23:640–644. Declarationofinterest LinbergR,ConoverCD,ShumKL,ShorrRG.1998.Hemoglobin-based oxygencarriers:howmuchmethemoglobinistoomuch?ArtifCells Theauthorsreportnodeclarationsofinterest.Theauthors BloodSubstitImmubilBiotechnol26:133–148. MatsuokaY,YamatoM,YamasakiT,MitoF,YamadaK.2012.Rapidand aloneareresponsibleforthecontentandwritingofthe convenientdetectionofascorbicacidusingafluorescentnitroxide paper. switch.FreeRadicBiolMed53:2112–2118. Theauthorsaregratefultothefinancialsupportfrom PaixaoTR,LowinsohnD,BertottiM.2006.Useofanelectrochemi- callyetchedplatinummicroelectrodeforascorbicacidmappingin theNationalHighTechnologyResearchandDevelop- oranges.JAgricFoodChem.54:3072–3077. mentProgram(863Program)ofChina(No.2012021903-3), SakaiH,NgK,LiB,SugimuraN.2013.Swinehemoglobinasapoten- theScienceandTechnologysupportprogramofSichuan tialsourceofartificaloxygencarriers,hemoglobin-vesicles.Artif CellsNanomedBiotechnol41:37–41. ProvinceinChina(No.2013SZ0059),andtheInnovation SayedElnenaeyE,SolimanR.1979.Asensitivecolorimetricmethodfor projectofSichuanProvinceinChina(No.2013ZZ0006). estimationofascorbicacid.Talanta26:1164–1166. SilvermanTA,WeiskopfRB.2009.Hemoglobin-basedoxygen carriers:currentstatusandfuturedirections.Transfusion49: 2495–2515. References TiwariKK.2010.Anewspectrophotometricmethodforthedetermina- BuehlerPW,D’AgnilloF,SchaerDJ.2010.Hemoglobin-basedoxygen tionofascorbicacidusingleucomalachitegreen.JChineseChem carriers:frommechanismsoftoxicityandclearancetorationaldrug Soc57:105–110. design.TrendsMolMed16:447–457. ZenkiM,TanishitaA,YokoyamaT.2004.Repetitivedetermination ChangTM.2010.Bloodreplacementwithnanobiotechnologically ofascorbicacidusingiron(III)-1.10-phenanthroline-peroxodis- engineeredhemoglobinandhemoglobinnanocapsules.Wiley ulfatesysteminacirculatoryflowinjectionmethod.Talanta64: InterdiscipRevNanomedNanobiotechnol2:418–430. 1273–1277. Downloadedby[TheInstituteofBloodTransfusion,ChineseAcademyofMedicalSciences]at22:4015March2016 |
|