Redding JS, Pearson JWMetabolic acidosis: a factor in cardiac resuscitation. South Med J1967;60:926—932
2.
Chazan JA, Stenson R., Kurland GSThe acidosis of cardiac arrest. N Engl J Med1968;278:360-364
3.
Burget GE, Visscher MBVariations of the pH of the blood and the response of the vascular system to adrenalin. Am J Physiol1927;81:113—123
4.
Houle OB, Weil MH, Brown EB, et al. Influence of respiratory acidosis on ECG and pressor response to epinephrine, norepinephrine, and metaraminol. Proc Soc Exp Biol Med1957;94:561—564
5.
Stewart JS, Stewart WK, Morgan HG, et al. A clinical and experimental study of the electrocardiographic changes in extreme acidosis and cardiac arrest. Br Heart J1965;27:490497
6.
Gerst PH, Fleming WH, Malm JRA quantitative evaluation of the effects of acidosis and alkalosis upon ventricular fibrillation threshold. Surgery1966;59:1050—1066
7.
Cingolani HE , Mattiazzi AR, Blesa ES, et al. Contractility in isolated mammalian heart muscle after acid-base changesCirc Res1970;26:269-278
8.
Williamson JR , Schaffer SW, Ford C., et al. Contribution of tissue acidosis to ischemic injury in the perfused rat heart. Circulation1976;53:3—14
9.
Darby TD, Adlinger EE, Gadsen RH, et al. Effects of metabolic acidosis on ventricular isometric systolic tension and the response to epinephrine and levarterenol. Circ Res1980;8:1242—1253
10.
Camilion deHurtado MC, Argel MI, Cingolani HEInfluence of acid-base alterations on myocardial sensitivity to catecholamines. Arch Pharmacol1981;317:219-224
11.
American Heart Association.Standards and guidelines for cardiopulmonary resuscitation (CPR) and emergency cardiac care (ECC). JAMA1974;227(suppl):833-868
12.
McKay D., Chazan JAAcid-base abnormalities in cardiopulmonary arrest: varying patterns in different locations within the hospital. J Intensive Care Med1989;4:243—247
13.
Bishop RL, Weisfeldt MLSodium bicarbonate administration during cardiac arrest. Effect on arterial pH, PCO2, and osmolarity. JAMA1976;235:506-509
14.
American Heart Association.Standards and guidelines for cardiopulmonary resuscitation (CPR) and emergency cardiac care (ECC). JAMA1980;244:453—509
15.
Minuck M., Sharma GPComparison of THAM and sodium bicarbonate in resuscitation of the heart after ventricular fibrillation in dogs. Anesth Analg1977;56:38—45
16.
Guerci AD, Chandra N., Johnson E., et al. Sodium bicarbonate does not improve resuscitation from ventricular fibrillation in dogs. Circulation1986;74(suppl IV):75—79
17.
Lawson NW, Butler GH III, Roy CTAlkalosis and cardiac arrhythmias. Anesth Analg1973;52:951-965
18.
Mattar JA, Weil MH, Shubin H., et al. Cardiac arrest in the critically ill. II. Hyperosmolal states following cardiac arrest. Am J Med1974;56:162-168
19.
Ostrea EM, Odell GBThe influence of bicarbonate administration on blood pH in a "closed system": clinical implications. J Pediatr1972;80:671—680
20.
Bersin RM, Chatterjee K., Arieff AIMetabolic and hemodynamic consequences of sodium bicarbonate administration in patients with heart disease. Am J Med1989 ;87:7-14
21.
Ralston SH, Voorhees WD, Showen L.Venous and arterial blood gases after cardiopulmonary resuscitation in dogs . Am J Emerg Med1985;3:132-136
22.
Niemann JT, Criley JM, Rosborough JP, et al. Predictive indices of successful cardiac resuscitation after prolonged arrest and experimental cardiopulmonary resuscitation. Ann Emerg Med1985;14:521—528
23.
Martin GB, Carden DL, Nowak RM, et al. Comparison of central venous and arterial pH and pCO2 during open-chest CPR in the canine model. Ann Emerg Med1985;14:529-533
24.
Weil MH, Rackow EC, Trevino R., et al. Difference in acid-base state between venous and arterial blood during cardiopulmonary resuscitation. N Engl J Med1986;315:153-156
25.
Berenyi KJ, Wolk M., Killip T.Cerebrospinal fluid acidosis complicating therapy of experimental cardiopulmonary arrest. Circulation1975;52:319-324
26.
Ornato JP, Gonzalez ER, Coyne MR, et al. Arterial pH in out-of-hospital cardiac arrest: response time as a determinant of acidosis. Am J Emerg Med1985;3:498—502
27.
Weil MH, Ruiz CE, Michaels S., et al. Acid-base determinants of survival after cardiopulmonary resuscitation . Crit Care Med1985;13:888-892
28.
Chazan JA, McKay DBAcid-base abnormalities in cardiopulmonary arrest: varying patterns in different locations in the hospital (letter). N Engl J Med1989;320:597-598
29.
Garnett AR, Ornato JP, Gonzalez ER, et al. End-tidal carbon dioxide monitoring during cardiopulmonary resuscitation . JAMA1987;257:512—515
30.
Falk JL, Rackow EC, Weil MHEnd-tidal carbon dioxide concentration during cardiopulmonary resuscitation . N Engl J Med1988;318:607—611
31.
Kern KB, Sanders AB, Voorhees WD, et al. Changes in expired end-tidal carbon dioxide during cardiopulmonary resuscitation in dogs: a prognostic guide for resuscitation efforts. J Am Coll Cardiol1989;13:1184-1189
32.
Weil MH, Bisera J., Trevino RP, et al. Cardiac output and end-tidal carbon dioxide. Crit Care Med1985;13:907-909
33.
American Heart Association.Standards and guidelines for cardiopulmonary resuscitation (CPR) and emergency cardiac care (ECC). JAMA1986;255:2843—2984
34.
Stacpoole PWLactic acidosis: the case against bicarbonate therapy. Ann Intern Med1986;105:276—279
35.
Narins R., Cohen JJBicarbonate therapy for organic acidosis: the case for its continued use. Ann Intern Med1987; 106:615—618
36.
Gazmuri RJ, von Planta M., Weil MH, et al. Arterial pCO2 as an indicator of systemic perfusion during cardiopulmonary resuscitation. Crit Care Med1989;17:237—240
37.
Capparelli EV, Chow Mss, Kluger J., et al. Differences in systemic and myocardial blood acid-base status during cardiopulmonary resuscitation . Crit Care Med1989;17:442-446
