KeysA.SnellA. M.: Respiratory properties of the arterial blood in normal man and in patients with liver disease. Position of the oxygen dissociation curve. J. Clin. Invest., 17: 59, 1938.
2.
BertP.: La Pression barometrique. Paris 1872. Quoted from Oppenheimers textbook, 1898.
3.
BohrC.HasselbalchK.KroghA.: Uber einer in biologicsches Beziehung wichtigen Einfluss den die Kohlensaurespannung des Blutes auf dessen Sauerstoff bindung ubt. Scand. Arch. Physiol., 16: 402, 1904.
4.
BarcroftJ.MeansJ.: The effect of CO2 on the dissociation curve of haemoglobin. J. Physiol. XLVII: xxvii, 1913.
5.
DouglasC. G.HaldaneJ. S.HaldaneJ. B. S.: The laws of combination of hemoglobin with carbon monoxide and oxygen. J. Physiol., XLIV: 275, 1912.
6.
BarcroftJ.MurrayT.: Notes on the relative effects of carbonic and hydrochloric acids on the affinity of hemoglobin for carbon monoxide. Phil. Trans. Roy. Soc. B., CCXI: 465, 1922.
7.
BarcroftJ.CamisM.: The dissociation curve of blood. J. Physiol. (London), 39: 118, 1913.
8.
SommerkampH.RiegelK.HilpertP.BrechtK.: The influence of the cation concentration in the erythrocytes on the position of the oxygen dissociation curve of blood. Pflugers Archiv., 272: 591, 1961 (English Translation).
9.
RoothG.SommerkampH.BartelsH.: The influence of base excess and cation concentration in the red cells on the position of the oxygen dissociation curve. Clin. Sci., 23: 1, 1962.
10.
BeneschR.BeneschR. E.: The effect of organic phosphates from human erythrocytes on the allosteric properties of hemoglobin. Biochem. Biophys. Res. Comm., 26: 162, 1967.
11.
ChanutinA.CurnishR: Effect of Organic and Inorganic phosphates on the oxygen equilibrium of human erythrocytes. Archives of Biochem and Biophysics, 121: 96, 1967.
12.
BeneschR. E.BeneschR: The reaction between diphosphoglycerate and hemoglobin. Fed. Proc, 29: 1101, 1970.
13.
HasselbalchK. A.: Wasserstoffzahl und Saverstoffbindung des Blutes. Biochem. Z., 82: 282, 1917.
14.
RapoportS.: Regulation of concentration of DPG and ATP in red blood cells. Forsvarsmedicin, 5: 168, 1969.
15.
LichtmanM. A.MillerD. R.: Erythrocyte glycolysis, 2, 3 diphosphoglycerate and adenosine triphosphate in uremic subjects: relationship to extracellular phosphate concentration. J. Lab. Clin. Med., 76: 267, 1970.
16.
ValeriC. R.FortierN. L.: Red cell 2, 3 diphosphoglycerate and creatinine levels in patients with red cell mass deficits or with cardiopulmonary insufficiency. N.E. J. Med., 281: 1452, 1969.
17.
WoodsonR. D.TorranceJ. D.LenfantC: Oxygen transport in low cardiac output hypoxia. The Physiologist, 12: 399, 1969.
18.
LenfantC.TorranceJ. D.WoodsonR. D.JacobsP.FinchC. A.: Role of organic phosphates in the adaption of man to hypoxia. Fed. Proc, 29: 1115, 1970.
19.
McConnR.Del GuercioL. R. M.: The respiratory function of blood in the acutely-ill and the effect of steroids. Ann. Surg., 174: 436, 1971.
20.
McConnR.DerrickJ. B.: The respiratory function of blood transfusion and storage. Anesthesiology, 36: 119, 1972.
21.
DawsonR. B.KocholatyW. F.Jr.GrayJ. L.: Hemoglobin function and 2, 3 DPG levels of blood stored at 4 C in ACD and CPD: pH effect. Trans., 10: 299, 1970.
22.
DerrickJ. B.McConnR.: Maintenance of the respiratory function of blood during storage: citrate phosphate dextrose (CPD) versus acid citrate dextrose with and without adenine-inosine supplementation. Fed. Proc., 30: 683, 1971.
23.
DuvelleroyM. A.BucklesR. G.RosenkaimerS.TungC.LaverM. B.: An oxyhemoglobin dissociation analyzer. J. Appl. Physiol., 28: 227, 1970.
24.
PurcellM. K.StillG. M.RodmanT.CloseH. P.: Determination of the pH of Hemolyzed Packed Red Cells from arterial blood. Clin. Chem., 1: 536, 1961.
25.
SeveringhausJ. W.: Blood gas calculator. J. Appl. Physiol., 21: 1108, 1966.
26.
KrimskyI.: Methods of enzymatic analysis., p. 238, Ed. by BergmeyerN.U.Verlag Chemie, 1963.
27.
AdamH.: Methods of enzymatic analysis, p. 539, Ed. by Bergmeyer, Verlag Chemie, 1963.
28.
FunderJ.WiethJ. O.: Potassium, Sodium, and water in normal human red blood cells. Scand. J. Clin. Lab. Invest., 18: 167, 1966.
29.
OskiF. A.TravisS. F.MillerL. D.PapadopoulosM. D.CannonE.: The In vitro restoration of red cell 2, 3 DPG levels in banked blood. Blood, 37: 52, 1971.
30.
SugermanH. J.PollackT. W.RosatoE. F.PapadodpulosM. D.MillerL. D.OskiF. A.: Experimentally induced alterations in affinity of hemoglobin for Oxygen II. In vivo effect of Inosine, Pyruvate and Phosphate on oxygen-hemoglobin affinity in Rhesus monkey. Blood, 39: 525, 1972.
31.
MillerL.: Metabolism of inosine in man. Conference on Red Blood Cell preservation. Washington, June, 1972.
32.
DeutickeB.DuhnJ.DierkesmannR.: Maximal elevation of 2, 3 diphosphoglycerate concentration in human erythrocytes. Influence on glycolytic metabolism and intracellular pH. Pfleugers Archiv., 326: 15, 1971.
33.
KeittJ. S.: Preparation, properties and potential of red cells rich in 2, 3 diphosphoglycerate, p. 161 in Preservation of Red Blood Cells. Pub. by National Academy of Sciences, Washington, D. C.1973.
34.
McConnR.: 2, 3 DPG—What role in septic shock. In, Shock in High and Low Flow Stated. Ed. by LilleheiR.StubbsS.Excerpta MedicaAmsterdam. 1972 International Congress Series #247.
35.
Bryan-BrownC. W.BaekS. M.MakabaliG.ShoemakerW. C.: Consumable oxygen availability of oxygen in relation of oxyhemoglobin dissociation. Crit. Care Med., I: 17, 1973.
36.
TalalayP.FishmanW.HugginsC: Chromogenic substances, I. Phenolphthalein glucuronid acid as substrate. J. Biol. Chem., 166: 757, 1942.
37.
CohnZ. A.HirschJ. G.: The isolation and properties of the specific cytoplasmic granules of rabbit polymorphonuclear leukocytes. J. Exp. Med., 112: 983, 1960.
38.
AlhoA.MotsayG.LilleheiR. C.: Effects of therapy on lysosomal changes in shock. In, Shock in Low and High Flow States. Ed. by ForscherB.LilleheiR. C.StubbsS. S.. Excerpta MedicaAmsterdam. 1972 International Congress Series #247.