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Adamson WJ, Longo LD. Anemia and polycythemia. In: Longo LD, Fauci SA, Kasper LD, et al. Harrison’s principles of internal medicine. 18th edition. New York: McGrawHill Medical; 2012. p. 448-57.AdamsonWJLongoLD.Anemia and polycythemiaLongoLDFauciSAKasperLDet al18th editionNew YorkMcGrawHill Medical201244857Search in Google Scholar
Roberson SR, Bennett-Guerreo E. Impact of red blood cell transfusion on global and regional measures of oxygenation. Mt Sinai J Med 2012; 79: 66-74.RobersonSRBennett-GuerreoE.Impact of red blood cell transfusion on global and regional measures of oxygenation201279667410.1002/msj.21284Search in Google Scholar
Madjdpour C, Spahn DR. Allogeneic red blood cell transfusions: efficacy, risks, alternatives and indications. Br J Anaesth 2005; 95: 33-42.MadjdpourCSpahnDR.Allogeneic red blood cell transfusions: efficacy, risks, alternatives and indications200595334210.1093/bja/aeh290Search in Google Scholar
Klein HG, Spahn DR, Carson JL. Red blood cell transfusion in clinical practice. Lancet 2007; 370: 415-26.KleinHGSpahnDRCarsonJL.Red blood cell transfusion in clinical practice20073704152610.1016/S0140-6736(07)61197-0Search in Google Scholar
Ferrari M, Giannini I, Sideri G, Zanette E. Continuous non invasive monitoring of human brain by near infrared spectroscopy. Adv Exp Med Biol 1985; 191: 873-82.FerrariMGianniniISideriGZanetteE.Continuous non invasive monitoring of human brain by near infrared spectroscopy19851918738210.1007/978-1-4684-3291-6_883008520Search in Google Scholar
Pareznik R, Knezevic R, Voga G, Podbregar M. Changes in muscle tissue oxygenation during stagnant ischemia in septic patients. Intensive Care Med 2006; 32: 87-92.PareznikRKnezevicRVogaGPodbregarM.Changes in muscle tissue oxygenation during stagnant ischemia in septic patients200632879210.1007/s00134-005-2841-816261341Search in Google Scholar
Možina H, Podbregar M. Near infrared spectroscopy for evaluation of skeletal muscle tissue oxygenation in different types of shock. Signa Vitae 2015; 10: 10-24.MožinaHPodbregarM.Near infrared spectroscopy for evaluation of skeletal muscle tissue oxygenation in different types of shock201510102410.22514/SV101.042015.2Search in Google Scholar
Možina H, Podbegar M. Near-infrared spectroscopy for evaluation of global and skeletal muscle tissue oxygenation. World J Cardiol 2011; 3: 377-82.MožinaHPodbegarM.Near-infrared spectroscopy for evaluation of global and skeletal muscle tissue oxygenation201133778210.4330/wjc.v3.i12.377324768322216373Search in Google Scholar
Crookes BA, Cohn SM, Burton EA, Nelson J, Proctor KG. Noninvasive muscle oxygenation to guide fluid resuscitation after traumatic shock. Surgery 2004; 135: 662-70.CrookesBACohnSMBurtonEANelsonJProctorKG.Noninvasive muscle oxygenation to guide fluid resuscitation after traumatic shock20041356627010.1016/j.surg.2003.11.01715179373Search in Google Scholar
Yuruk K, Bartels SA, Milstein DM, Bezemer R, Biemond BJ, Ince C. Red blood cell transfusions and tissue oxygenation in anemic hematology outpatients. Transfusion 2012; 52: 641-6.YurukKBartelsSAMilsteinDMBezemerRBiemondBJInceC.Red blood cell transfusions and tissue oxygenation in anemic hematology outpatients201252641610.1111/j.1537-2995.2011.03312.x21883269Search in Google Scholar
Weinberg JA, MacLennan PA, Vandromme-Cusick MJ, Magnotti LJ, Kerby JD, Rue LW 3rd, et al. The deleterious effect of red blood cell storage on microvascular response to transfusion. J Trauma Acute Care Surg 2013; 75: 807-12.WeinbergJAMacLennanPAVandromme-CusickMJMagnottiLJKerbyJDRueLW3rdet alThe deleterious effect of red blood cell storage on microvascular response to transfusion2013758071210.1097/TA.0b013e3182a74a9b383161024158198Search in Google Scholar
Podbregar M. Thenar tissue oxygen saturation monitoring: noninvasive does not mean simple or accurate! Crit Care Med 2012; 40: 712-3.PodbregarM.Thenar tissue oxygen saturation monitoring: noninvasive does not mean simple or accurate!201240712310.1097/CCM.0b013e31823c897922249076Search in Google Scholar
Bezemer R, Lima A, Myers D, Klijn E, Heger M, Goedhart PT, et al. Assessment of tissue oxygen saturation during a vascular occlusion test using near-infrared spectroscopy: the role of probe spacing and measurement site studied in healthy volunteers. Crit Care 2009; 13 (Suppl 5): S4.BezemerRLimaAMyersDKlijnEHegerMGoedhartPTet alAssessment of tissue oxygen saturation during a vascular occlusion test using near-infrared spectroscopy: the role of probe spacing and measurement site studied in healthy volunteers200913Suppl 5S410.1186/cc8002278610619951388Search in Google Scholar
Gómez H, Mesquida J, Simon P, Kim HK, Puyana JC, Ince C, et al. Characterization of tissue oxygen saturation and the vascular occlusion test:influence of measurement sites, probe sizes and deflation thresholds. Crit Care 2009; 13 (Suppl 5): S3.GómezHMesquidaJSimonPKimHKPuyanaJCInceCet alCharacterization of tissue oxygen saturation and the vascular occlusion test:influence of measurement sites, probe sizes and deflation thresholds200913Suppl 5S310.1186/cc8001278610519951387Search in Google Scholar
Lima A, van Bommel J, Sikorska K, van Genderen M, Klijn E, Lesaffre E, et al. The relation of near-infrared spectroscopy with changes in peripheral circulation in critically ill patients. Crit Care Med 2011; 39: 1649-54.LimaAvan BommelJSikorskaKvan GenderenMKlijnELesaffreEet alThe relation of near-infrared spectroscopy with changes in peripheral circulation in critically ill patients20113916495410.1097/CCM.0b013e318218667521685739Search in Google Scholar
Leal-Noval SR, Muñoz-Gómez M, Arellano-Orden V, Marín-Caballos A, Amaya-Villar R, Marín A, et al. Impact of age of transfused blood on cerebral oxygenation in male patients with severe traumatic brain injury. Crit Care Med 2008; 36: 1290-6.Leal-NovalSRMuñoz-GómezMArellano-OrdenVMarín-CaballosAAmaya-VillarRMarínAet alImpact of age of transfused blood on cerebral oxygenation in male patients with severe traumatic brain injury2008361290610.1097/CCM.0b013e3181692dfc18379257Search in Google Scholar
Kiraly LN, Underwood S, Differding JA, Schreiber MA. Transfusion of aged packed red blood cells Results in decreased tissue oxygenation in critically injured trauma patients. J Trauma 2009; 67: 29-32.KiralyLNUnderwoodSDifferdingJASchreiberMA.Transfusion of aged packed red blood cells Results in decreased tissue oxygenation in critically injured trauma patients200967293210.1097/TA.0b013e3181af6a8c19590304Search in Google Scholar
Sakr Y, Chierego M, Piagnerelli M, Verdant C, Dubois MJ, Koch M, et al. Microvascular response to red blood cell transfusion in patients with severe sepsis. Crit Care Med 2007; 35: 1639-44.SakrYChieregoMPiagnerelliMVerdantCDuboisMJKochMet alMicrovascular response to red blood cell transfusion in patients with severe sepsis20073516394410.1097/01.CCM.0000269936.73788.3217522571Search in Google Scholar
Creteur J, Neves AP, Vincent JL. Near-infrared spectroscopy technique to evaluate the effects of red blood cell transfusion on tissue oxygenation. Crit Care 2009; 13 (Suppl 5): S11.CreteurJNevesAPVincentJL.Near-infrared spectroscopy technique to evaluate the effects of red blood cell transfusion on tissue oxygenation200913Suppl 5S1110.1186/cc8009278611319951383Search in Google Scholar
Roberson SR, Lockhart E, Shapiro NI. Impact of transfusion of autologous 7-versus 42-day-old AS-3 red blood cells on tissue oxygenation and the microcirculation in healthy volunteers. Transfusion 2012; 52: 2459-64.RobersonSRLockhartEShapiroNI.Impact of transfusion of autologous 7-versus 42-day-old AS-3 red blood cells on tissue oxygenation and the microcirculation in healthy volunteers20125224596410.1111/j.1537-2995.2012.03615.x338732422452273Search in Google Scholar
Berra L, Coppadoro A, Yu B, Spagnolli E, Steinbicker AU, Bloch KD, et al. Transfusion of stored autologous blood does not alter reactive hyperaemia index in healthy volunteers. Anaesthesiology 2012; 117: 56-63.BerraLCoppadoroAYuBSpagnolliESteinbickerAUBlochKDet alTransfusion of stored autologous blood does not alter reactive hyperaemia index in healthy volunteers2012117566310.1097/ALN.0b013e31825575e6398057522531338Search in Google Scholar
Stapley R, Owusu BY, Brandon A, Cusick M, Rodriguez C, Marques MB, et al. Erythrocyte storage increases rates of NO-and Nitrite scavenging: Implications for transfusion related toxicity. Biochem J 2012; 446: 499-508.StapleyROwusuBYBrandonACusickMRodriguezCMarquesMBet alErythrocyte storage increases rates of NO-and Nitrite scavenging: Implications for transfusion related toxicity201244649950810.1042/BJ20120675357254122720637Search in Google Scholar
Vallet B. Vascular reactivity and tissue oxygenation. Intens Care Med 1988; 24: 3-11.ValletB.Vascular reactivity and tissue oxygenation19882431110.1007/978-3-642-79154-3_45Search in Google Scholar
Bennett-Guerrero E, Veldman TH, Doctor A, Telen MJ, Ortel TL, Reid TS, et al. Evolution of adverse changes in stored RBCs. Proc Natl Acad Sci U S A 2007; 104: 17063-8.Bennett-GuerreroEVeldmanTHDoctorATelenMJOrtelTLReidTSet alEvolution of adverse changes in stored RBCs200710417063810.1073/pnas.0708160104204039317940021Search in Google Scholar
Reynolds JD, Ahearn GS, Angelo M, Zhang J, Cobb F, Stamler JS. S-nitrosohemoglobin deficiency: A mechanism for loss of physiological activity in banked blood. Proc Natl Acad Sci USA 2007; 104: 17058-62.ReynoldsJDAhearnGSAngeloMZhangJCobbFStamlerJS.S-nitrosohemoglobin deficiency: A mechanism for loss of physiological activity in banked blood2007104170586210.1073/pnas.0707958104204047317940022Search in Google Scholar