Literatur

1. Aberman A, Fulop M (1972) The metabolic and respiratory acidosis of acute pulmonary edema. Ann Intern Med 76:173–184.

   PubMed  CAS  Google Scholar 

2. Albertini RE, Harrell JH, Kurihara N, Moser KM (1974) Arterial hypoxemia induced by fiberoptic bronchoscopy. J Am Med Ass 230:1666–1667.

   Article  CAS  Google Scholar 

3. Al-Diaidy W, Skates SJ, Hill DW, Tinker J (1977) The use of transcutaneous oxygen electrodes in intensive therapy. Intens Care Med 3:35–39.

   Article  CAS  Google Scholar 

4. Andreas K, Le Petit G (1966) Fortlaufende Registrierung des intravasalen Sauerstoffdruckes am narkotisierten Patienten. 1. Anesthesie-Kongr. Dt. Ges. klin. Med. Berlin. Zit. nach [5].

   Google Scholar 

5. Andreas K, Le Petit G (1969) Die Anwendung der PO₂-Nadelsonde in der Klinik. Dt Gesundh 23:169–172.

   Google Scholar 

6. Armstrong RF, Hutchinson JM, Lincoln C, Ingram D, Soutter L (1976) Continuous measurement of arterial oxygen tension during one-lung anesthesia. A new type of polarographic oxygen electrode. Br J Anaesth 48:1005–1010.

   Article  PubMed  CAS  Google Scholar 

7. Armstrong RF, Southorn PA, Secker-Walker J, Lincoln GCR, Soutter L (1976) Continuous monitoring of mixed venous oxygen tension. Br Med J 2:282.

   Article  PubMed  CAS  Google Scholar 

8. Barnes RW, Paterson JL, Krugmire RB jr, Strandness DE jr (1974) Complications of percutaneous femoral arterial catheterisation. Prospective evaluation with the Doppler ultrasonic velocity detector. Am J Cardiol 33:259–263.

   Article  PubMed  CAS  Google Scholar 

9. Bates ML, Feingold A, Gold MI (1975) The effects of anesthetics on an in vivo oxygen electrode. Am J Clin Pathol 64:448–451.

   PubMed  CAS  Google Scholar 

10. Baumgärtl H, Lubbers DW (1975) Herstellung von Mikro-PO₂-und PH2-Elektroden mit der Hochfrequenzkathodenzerstäubungstechnik. Naturwissensch 62:572–573.

    Article  Google Scholar 

11. Beebe CH, Liston MD, McKinley W (1959) Patentschrift Nr. 1179393 Zit. nach [173].

    Google Scholar 

12. Benzer H, Haider W, Pauser G (1976) Zur Technik der Respiratorbeatmung. Intensivbeh 1:157–167.

    Google Scholar 

13. Beran AV, Sperling DR, Proctor K-G, Huxtable RF (1976) Tissue oxygen available (O2a) as a criterion of the effectiveness of continuous positive pressure breathing (CPPB). Arch Exp Med Biol 75:759–763.

    CAS  Google Scholar 

14. Bergman NA (1961) Cyclic variations in blood oxygen tension with the respiratory cycle. Anesthesiology 22:900–908.

    Article  PubMed  CAS  Google Scholar 

15. Bicher HI, Rubin JW, Adams RJ (1973) Clinical use of a new intra-arterial catheter electrode system. Adv Exp Med Biol 37:107–113.

    Google Scholar 

16. Bjurstedt H, Wigertz O (1971) Dynamics of arterial oxygen tension in response to sinusoidal work load in man. Acta physiol scand 82:236–249.

    Article  PubMed  CAS  Google Scholar 

17. Brantigan JW (1976) Catheters for continuous in vivo blood and tissue gas monitoring. Crit Care Med 4:239–244.

    Article  PubMed  CAS  Google Scholar 

18. Brown EG, Liu CC, McDonnell FE, Neuman MR, Sweet AY (1972) An intravascular electrode for continuously monitoring arterial oxygen tension. Ped Res Soc Atlantic City, zit. nach [19].

    Google Scholar 

19. Brown EG, Liu CC, McDonnell FE, Neuman MR, Sweet AY (1973) Unique electrode catheter for continuous monitoring of arterial blood oxygen tension in newborn infants. Adv Exp Med Biol 37:1103–1108.

    PubMed  CAS  Google Scholar 

20. Bühlmann AA, Scherrer M (1973) Neue Normalwerte für die Vital-und Totalkapazität der Lungen. Schweiz Med Wschr 103:660–668.

    PubMed  Google Scholar 

21. Chapman TT (1971) The effect of six bronchodilator compounds on arterial blood gas levels. Progr Resp Res 6:449–453.

    Google Scholar 

22. Charlton G, Read D (1963) Continuous intraarterial PO₂ in normal man using a flexible microelectrode. J Appl Physiol 18:1247–1251.

    PubMed  CAS  Google Scholar 

23. Clark LC, Wolf R, Granger D, Taylor Z (1953) Continuous recording of blood oxygen tension by polarography. J Appl Physiol 6:189–193.

    PubMed  CAS  Google Scholar 

24. Clark LC Jr (1956) Monitor and control of blood and tissue oxygen tensions. Trans Am Soc Art Int Organ 2:41–48.

    Google Scholar 

25. Clark LC Jr, Kaplan S, Mathews EC, Edwards FK, Helmisworth JA (1958) Monitor and control of blood oxygen tension and pH during total body perfusion. J Thorac Surg 36:488–496.

    PubMed  Google Scholar 

26. Conway M, Durbin GM, Ingram D, McIntosh N, Parker D, Reynolds EOR, Soutter LP (1976) Continuous monitoring of arterial oxygen tension using a catheter-tip polarographic electrode in infants. Pediatrics 57:244–250.

    PubMed  CAS  Google Scholar 

27. Cosby RS, Stowell EK jr, Morrison DM, Mayo M, Ruymann FB, Bernhard B (1962) Continuous measurement of alveolo-arterial gradients at ambient and anoxic levels. J Appl Physiol 17:1–5.

    PubMed  CAS  Google Scholar 

28. Daly JJ, Howard P (1965) Effect of intravenous aminophylline on the arterial oxygen saturation in chronic bronchitis. Thorax 20:324–326.

    Article  PubMed  CAS  Google Scholar 

29. Davidson RM, Ramo BW, Wallace AG, Whalen RE, Starmer CG (1973) Blood-gas and haemodynamic responses to oxygen in acute myocardial infarction. Circulation 47:704–711.

    PubMed  CAS  Google Scholar 

30. Davies PW, Brink F (1942) Microelectrodes for measuring local oxygen tensions in animal tissues. Rev Sci Instrum 13:524–533.

    Article  CAS  Google Scholar 

31. Delpy D, Parker D (1975) Transcutaneous measurement of arterial blood-gas tensions by mass spectrometry. Lancet 1:1016.

    Article  PubMed  CAS  Google Scholar 

32. Diaz PM, Gold MI, Duarte I, Sohn YS (1975) A disposable electrode for the continuous in vivo measurement of arterial oxygen tension during heart surgery. In: Recent progress in anaesthesiology and resuscitation [Arias A, Llaurado R, Nalda MA, Nunn JN (eds)]. Excerpta Medica, Amsterdam p 424–429.

    Google Scholar 

33. Dittmann M, Lehmann K, Pochon JP, Wolff G (1977) Neue Technik der Spontanatmung mit positiv endexspiratorischem Druck (PEEP) beim Erwachsenen. Intensivmed 14:101–106.

    Google Scholar 

34. Dora E, Olaffson K, Chance B, Kovach AGB (1976) Cortical NADH, PO₂, electrical activity and arterial blood pressure oscillations in hypoxaemia. Adv Exp Med Biol 75:299–305.

    PubMed  CAS  Google Scholar 

35. Douze JMC, van Dijk A, Gimbrere JSF, van Heijst ANP, Maes R, Rauws AG (1974) Intensive therapy after Paraquat intoxication. Intensivmed 11:241–250.

    Google Scholar 

36. Douze JMC, van Dijk A, Gimbrere JSF, van Heijst ANP, Maes RA (1977) Hypoxygenous artificial ventilation with positive endexpiratory pressure. Intensivmed 14:297–302.

    Google Scholar 

37. Eberhard P, Mindt W, Hammacher K (1972) Perkutane Messung des Sauerstoffpartialdruckes: Methodik und Anwendungen. Verh Kongr „Medizin-Technik“, Stuttgart.

    Google Scholar 

38. Eberhard P, Hammacher K, Mindt W (1973) Methode zur kutanen Messung des Sauerstoffpartialdruckes. Biomed Technik 18:216–221.

    Article  CAS  Google Scholar 

39. Eberhard P, Fehlmann W, Sehiebli R, Büsser E (1974) Kontinuierliche PO₂-Messung mittels intravasalen Sonden. Verh Dt Ges Biomed Techn Hannover.

    Google Scholar 

40. Eberhard P (1975) A disposable catheter sensor for the continuous monitoring of intravascular oxygen tension. Proc 1st Internat Conf Biomed Transd Paris.

    Google Scholar 

41. Eberhard P, Kreuzer F, Mindt W (1976) Cutaneous oxygen monitoring in the newborn. Paediatrician 5:335–369.

    Google Scholar 

42. Eckenhoff JE, Hale Enderby GE, Larson A, Edridge A, Djudevine D (1963) Pulmonary gas exchange during deliberate hypotension. Brit J Anaesth 35:750–759.

    Article  PubMed  CAS  Google Scholar 

43. Emmrich P, Stechele U, Huch R, Huch A (1975) Anwendungsmöglichkeiten der transkutanen Sauerstoffpartialdruckmessung in der pädiatrischen Intensivmedizin. Dtsch Med Wschr 100:1892–1901.

    Article  PubMed  CAS  Google Scholar 

44. Euler US v, Liljestrand G (1946) Observations on the pulmonary arterial blood pressure in the cat. Acta Physiol Scand 12:301–320.

    Article  Google Scholar 

45. Fabel H (1968) Die fortlaufende Messung des arteriellen Sauerstoffdruckes beim Menschen. Arch Kreislauff 57:145–189.

    Article  CAS  Google Scholar 

46. Fabel H, Wettengel R (1971) Einfluß von Berotec®-Dosier-Aerosol auf Haemodynamik, Blutgase und Ventilation. Int J Clin Pharmacol Suppl 4:47–49.

    Google Scholar 

47. Fatt I (1964) An ultramicro oxygen electrode. J Appl Physiol 19:236–329.

    Google Scholar 

48. Fatt I, Helen RS (1969) A multicathode polarographic oxygen sensor and its performances. J Appl Physiol 27:435–437.

    PubMed  CAS  Google Scholar 

49. Fenner A, Müller R, Busse HG, Junge M, Wolfsdorf F (1975) Transcutaneous determination of arterial oxygen tension. Pediatrics 50:224–231.

    Google Scholar 

50. Fillmore SJ, Guimaraes AC, Scheldt SS, Killip T III (1972) Blood-gas changes and pulmonary haemodynamics following acute myocardial infarction. Circulation 45:583–591.

    PubMed  CAS  Google Scholar 

51. Finley TN, Lenfant C, Haab P, Piiper J, Rahn H (1960) Venous admixture in the pulmonary circulation of anaesthetized dogs. J Appl Physiol 15:418–424.

    PubMed  CAS  Google Scholar 

52. Fisher HK, Clements JA, Wright RR (1973) Enhancement of oxygen toxicity by the herbicide Paraquat. Am Rev Resp Dis 107:246–252.

    PubMed  CAS  Google Scholar 

53. Flick MR, Block AJ (1977) Continuous in vivo monitoring of arterial oxygenation in chronic obstructive lung disease. Ann Intern Med 86:725–730.

    PubMed  CAS  Google Scholar 

54. Formanek G, Frech RS (1970) Arterial thrombus formation during clinical percutaneous catheterisation. Circulation 41:833–839.

    PubMed  CAS  Google Scholar 

55. Ganong WF (1974) Lehrbuch der medizinischen Physiologie. 3. Aufl Springer, Berlin Heidelberg New York.

    Google Scholar 

56. Gastinne H, Regnier B, Darragon T, Harari A, Teisseire B, Lemaire F (1977) Shunt intra-pulmonaire et perfusion pulmonaire au cours des detresses respiratoire de l’adulte. Intens Care Med 3:105.

    Article  Google Scholar 

57. Gauch D, Beutnagel A, Fabel H (1972) Kontinuierliche Messung des arteriellen Sauerstoffpartialdrucks beim Neugeborenen unter Luft-und Sauerstoffatmung. In: Perinatale Medizin Bd II, Saling E, Dudenhausen JW (Hrsg) 4. Kongr Perinatale Med, Berlin 1971. Thieme, Stuttgart.

    Google Scholar 

58. Gazioglu K, Condemi JJ, Hyde RW, Kaltreider NL (1971) Effect of isoprotenerol on gas exchange during air and oxygen breathing in patients with asthma. Am J Med 50:185–190.

    Article  PubMed  CAS  Google Scholar 

59. Gazioglu K, Kaltreider NL, Hyde RW (1971) Effect of isoprotenerol gas exchange during air and oxygen breathing in patients with chronic pulmonary diseases. Am Rev Resp Dis 104:188–197.

    PubMed  CAS  Google Scholar 

60. Geering P, Nosbaum J, Gigon JP (1972) Dauerkanülierung der Arteria femoralis. Dtsch Med Wschr 97:1112–1114.

    Article  Google Scholar 

61. Gilsbach J, Seeger W (1976) Differentialdiagnose der zentralen Atemstörung. Intensivbeh 1:187–191.

    Google Scholar 

62. Glauser FL, Morris JL (1972) Accuracy of routine arterial puncture for the determination of oxygen and carbondioxide tensions. Am Rev Resp Dis 106:776–779.

    PubMed  CAS  Google Scholar 

63. Glauser FL, Dingledein J, Rhodes R, Morton ME (1975) Minimal increases in pulmonary wedge pressure associated with improved PaO₂ in dogs. Respiration 32:415–423.

    Article  PubMed  CAS  Google Scholar 

64. Gleichmann U, Lübbers DW (1960) Die Messung des Sauerstoffpartialdruckes in Gasen und Flüssigkeiten mit der Pt-Elektrode unter besonderer Berücksichtigung der Messung im Blut. Pflügers Arch Ges Physiol 271:431–455.

    Article  CAS  Google Scholar 

65. Goddard P, Keith I, Marcovitch H, Rolfe RG, Scopes W (1972) Experience with a catheter-tip transducer for continuous measurement of blood oxygen tension, including evaluation in 4 newborn babies. Arch Dis Child 47:675.

    Article  PubMed  CAS  Google Scholar 

66. Goddard P, Keith I, Marcovitch H, Roberton NRC, Rolfe P, Scopes J-W (1974) Use of continuously recording intravascular oxygen electrode in the newborn. Arch Dis Child 49:853–860.

    Article  PubMed  CAS  Google Scholar 

67. Godfrey S, Costeloe K (1976) Clinical use of an indwelling umbilical artery electrode. Lancet 1:311–312.

    Article  PubMed  CAS  Google Scholar 

68. Goeckenjan G, Schneider P, Heidenreich J (1975) Pulmonaler Gasaustausch und pulmonale Perfusion unter Dopamin. Verh Dt Ges Inn Med 81:487–490.

    CAS  Google Scholar 

69. Goeckenjan G, Schneider P, Heidenreich J (1976) Kontinuierliche intravasale PO₂-Messung. Vergleich zweier Katheter-Elektroden. In: Konpeßbericht 14. wiss. Tag. Nordd. Ges. Lungen-und Bronchialheilkunde 1975, Hertz CW (ed) Lübeck, Hansisches Verlagskontor.

    Google Scholar 

70. Goeckenjan G, Schneider P, Heidenreich J (1976) Kontinuierliche PO₂-Überwachung mittels intravasaler Sauerstoffelektroden. Dtsch Med Wschr 101:1597–1601.

    Article  PubMed  CAS  Google Scholar 

71. Goeckenjan G, Schneider P, Heidenreich J (1976) Kontinuierliche Messung des gemischt-venösen Sauerstoffpartialdruckes mittels einer Katheterelektrode. Pneumonol Suppl:193-200.

    Google Scholar 

72. Goeckenjan G, Strasser K (1976) Vergleichende Untersuchungen des kontinuierlich intraarteriell und transcutan gemessenen Sauerstoffpartialdrucks bei Intensiv-Patienten. Verh Dtsch Ges Inn Med 82:1970–1973.

    PubMed  Google Scholar 

73. Goeckenjan G, Bartheis F (1976) Pulmonaler Gasaustausch unter einer Behandlung mit Nitrogylcerin. Verh Ges Lungen-und Atmungsf 6:187–194.

    Google Scholar 

74. Goeckenjan G, Meincke L (1977) Bronchofîberskopie bei akuter respiratorischer Insuffizienz. Intensivmedizin 14:290–296.

    Google Scholar 

75. Goeckenjan G, Strasser K (1977) Limitierende Faktoren der kontinuierlichen transcutanen PO₂-Überwachung bei erwachsenen Intensivpatienten. Verh 9. Tagg Österr Dtsch Ges Internist Intensivmed, Linz.

    Google Scholar 

76. Goeckenjan G, Strasser K (1977) Relation of transcutaneous to arterial PO₂ in hypoxaemia, normoxaemia and hyperoxaemia. Investigation in adults with normal circulation and in patients with circulatory insufficiency. Biotelemetry 4:77–87.

    PubMed  CAS  Google Scholar 

77. Goeckenjan G, Strasser K (1978) Kontinuierliche transcutane PO₂-Messungen in der Diagnostik pulmonaler Gasaustauschstörungen. Atemwegs-und Lungenkrankh 4:217–221.

    Google Scholar 

78. Goeckenjan G, Dure H (1978) Problems of continuous PaO₂ monitoring by means of indwelling intraarterial electrodes. Resuscitation 6:207–214.

    Article  PubMed  CAS  Google Scholar 

79. Goeckenjan G, Lenz W (1979) Rasterelektronenmikroskopische Untersuchungen intraarterieller PO₂-Elektroden. Klin Wschr 57:1217–1223.

    Article  PubMed  CAS  Google Scholar 

80. Gold M, Diaz PM, Feingold A, Duarte I, Sohn J, Kallos T (1975) A disposable in vivo oxygen electrode for the continuous measurement of arterial oxygen tension. Surgery 78:245–250.

    PubMed  CAS  Google Scholar 

81. Gold M, Duarte I (1975) simultaneous measurement of arterial oxygen tension and arterial blood pressure. J Thorac Cardiovasc Surg 70:656–660.

    PubMed  CAS  Google Scholar 

82. Gotoh F, Meyer JS, Tomita M (1966) Carbonic anhydrase inhibition and cerebral venous blood gases and ions in man. Arch Intern Med 117:39–46.

    Article  PubMed  CAS  Google Scholar 

83. Hahn CE, Davis WAH, Albery WJ (1975) Electrochemical improvement of the performance of PO₂-electrodes. Respir Physiol 25:109–133.

    Article  PubMed  CAS  Google Scholar 

84. Halmagyi D, Cotes JE (1959) Reduction in systemic blood oxygen as a result of procedures affecting the pulmonary circulation in patients with chronic pulmonary disease. Clin Sci 18:475–489.

    PubMed  CAS  Google Scholar 

85. Hamer Ph, Rügheimer E (1976) Die gebräuchlichsten Atemgeräte. Intensivbeh 1:169–179.

    Google Scholar 

86. Hardaway RM (1973) Shock Lung. Intern Surg 58:308–310.

    CAS  Google Scholar 

87. Harris TR, Nugent M (1973) Laboratory and clinical evaluation of a new indwelling oxygen electrode for continuous monitoring of PaO₂ in neonates. Adv Exp Med, Biol 37:1109–1112.

    CAS  Google Scholar 

88. Harris TR, Nugent M (1973) Continuous arterial oxygen tension monitoring in the newborn infant. J Pediatr 82:929–938.

    Article  PubMed  CAS  Google Scholar 

89. Hartmann W, Hempelmann G, Fabel H (1972) Leckbeatmung zur Verhütung von hypoxischen Komplikationen während tracheobronchialer Absaugmanöver. Pneumonologie 147:215–219.

    Article  PubMed  CAS  Google Scholar 

90. Hedley-Whyte J, Burgess GE III, Feeley TW, Miller MG (1976) Applied physiology of respiratory care. Little Brown, Boston.

    Google Scholar 

91. Heinonen J, Poppius H (1969) Effect of tracheobronchial suction on arterial oxygen tension. Ann Chir Gynecol Fenn 58:27–31.

    CAS  Google Scholar 

92. Heitmann H, Buckles RG, Laver MB (1967) Blood PO₂ measurements: Performance of microelectrodes. Resfir Physiol 3:380–395.

    Article  CAS  Google Scholar 

93. Heller ML, Watson TR jr, Imredy DS (1967) Effect of nitrous oxide uptake on arterial oxygenation. Anesthesiology 28:904–913.

    Article  PubMed  CAS  Google Scholar 

94. Heller ML, Imredy DS, Shafer PR, Watson TR jr (1972) A PO₂-Catheter microelectrode for in vivo intravascular use. Anesth Analg (Cleve) 51:453–461.

    CAS  Google Scholar 

95. Hempelmann G, Hartmann W, Fabel H, Leitz KH, Nolte WJ (1971) Tracheobronchiales Absaugen als Problem der Intensivbehandlung. Z Prakt Anästh Wiederb 6:447–455.

    CAS  Google Scholar 

96. Hempelmann G, Hartmann W, Fabel H (1972) Fortlaufende Sauerstoffpartialdruckmessungen mit einer polarographischen Mikromethode während der NLA-Einleitung und-Ausleitung. In: Neuroleptanalgesie, Henschel W-F (Hrsg) Schattauer, Stuttgart, S 171–177.

    Google Scholar 

97. Hempelmann G, Hempelmann W, Dargojevic D, Hartmann W (1973) Arterielle PO₂-Messungen während Bronchoskopien in Vollnarkose. Münch Med Wschr 115:2229–2232.

    PubMed  CAS  Google Scholar 

98. Hempelmann G, Hempelmann W, Dragojevic D, Hartmann W (1973) Arterielle PO₂-Messungen drucks. Anwendungsmöglichkeiten und Beispiele aus der Anaesthesie. Anaethesiologie und Wiederbelebung Bd 80. Springer, Berlin Heidelberg New York, S 68–79.

    Google Scholar 

99. Hempelmann G, Hempelmann W, Leitz KH (1974) Untersuchungen zur Oxygenierung während extrakorporaler Zirkulation. Anaesthesist 23:122–128.

    PubMed  CAS  Google Scholar 

100. Hempelmann G, Leitz KH, Hempelmann W (1974) Fortlaufende arterielle PO₂-Messung während extrakorporaler Oxygenierung bei Patienten mit schwersten Lungenschädigungen. Anaesthesist 23:192–196.

     PubMed  CAS  Google Scholar 

101. Hempelmann G, Stosseck K (1976) Möglichkeiten und Grenzen der fortlaufenden Sauerstoffpartialdruckmessung im Blut (PaO₂) sowie transcutan (tcPO₂). In: Neue kontinuierliche Methoden zur Überwachung der Herz-Kreislauffunktion. [Zindler M, Purschke R (Hrsg)], Thieme, Stuttgart.

     Google Scholar 

102. Henningsen P (1968) Continuous measurement of PO₂, PCO2 and pH in blood. Scand J Clin Lab Invest 22:33–36.

     Article  PubMed  CAS  Google Scholar 

103. Heyrovsky J (1941) Polarographie, theoretische Grundlagen, praktische Ausführungen und Anwendungen der Elektrolyse mit der tropfenden Quecksilberelektrode. Springer, Wien.

     Google Scholar 

104. Heyrovsky J (1948) Polarographisches Praktikum. Springer, Berlin.

     Google Scholar 

105. Hiemstra HR (1965) The amperometric determination of oxygen in time as a tool in peripheral circulation research. Angiology 16:379–394.

     Article  Google Scholar 

106. Hill DW, Tilsley C (1973) A comparative study of the performance of five commercial blood gas and pH electrode analysers. Brit J Anaesth 45:647–654.

     Article  PubMed  CAS  Google Scholar 

107. Hoare JP (1974) Oxygen. In: Encyclopedia of electrochemistry of the elements, Bard AJ (ed) Vol II, Dekker, New York.

     Google Scholar 

108. Hohenauer L, Gerstl W, Haschke F, Häckel F (1977) Weitere Untersuchungen zur transcutanen PO₂-Messung bei kranken Neugeborenen. Pädiatric Pädol 12:146–151.

     CAS  Google Scholar 

109. Holmes PC, Green HE, Lopez-Majano V (1970) Evaluation of methods for calibration of O2 and CO2 electrodes. Am J Clin Pathol 54:566–569.

     PubMed  CAS  Google Scholar 

110. Horovitz JH, Carrico CJ, Shires JT (1974) Pulmonary response to major injury. Arch Surg 108:349–355.

     PubMed  CAS  Google Scholar 

111. Huch A, Huch R, Meinzer K, Lubbers DW (1972) Eine schnelle beheizte Pt-Oberflächenelektrode zur kontinuierlichen Überwachung des PO₂ beim Menschen. Elektrodenaufbau und-eigenschaften. Verh Kongr „Medizin-Technik“ Stuttgart.

     Google Scholar 

112. Huch A, Huch R, Neumayer E, Rooth G (1972) Continuous intra-arterial PO₂ measurements in infants. Acta Paediatr Scand 61:722–723.

     Article  PubMed  CAS  Google Scholar 

113. Huch A, Huch R, Buchholz R, Lübbers DW (1973) Erste Erfahrungen mit kontinuierlicher transkutaner PO₂-Registrierung bei Mutter und Kind sub partu. Geburtsh Frauenhk 33:856–858.

     CAS  Google Scholar 

114. Huch A, Huch R, Arner B, Rooth G (1973) Continuous transcutaneous oxygen tension measured with a heated electrode. Scand J Clin Lab Invest 31:269–275.

     Article  PubMed  CAS  Google Scholar 

115. Huch A, Lübbers DW, Huch R (1973) Continuous intravascular PO₂ measurements with catheter and cannula electrodes in newborn infants, adults and animals. Adv Exp Med Biol 37:1113–1119.

     PubMed  CAS  Google Scholar 

116. Huch A, Lübbers DW, Huch R (1973) Patientenüberwachung durch transcutane PCO2-Messung bei gleichzeitiger Kontrolle der relativen lokalen Perfusion. Anaesthesist 22:379–380.

     PubMed  CAS  Google Scholar 

117. Huch A, Huch R, Rooth G (1973) Monitoring the intravascular PO₂ in newborn infants. J Perinat Med 1:53–59.

     Article  PubMed  CAS  Google Scholar 

118. Huch A, Lübbers DW, Huch R (1975) Der periphere Perfusionsdruck: Eine neue nicht-invasive Meßgröße zur Kreislaufüberwachung von Patienten. Anaesthesist 24:39–40.

     PubMed  CAS  Google Scholar 

119. Huch A, Lübbers DW, Huch R (1976) Continuous PO₂ and heart rate recording in the human newborn. Adv Exp Med Biol 75:737–745.

     PubMed  CAS  Google Scholar 

120. Huch A, Huch R, Bucher HU, Strasser K (1976) Maternal and fetal tcPO₂ monitoring. Proc 5th European Congr Perinat Medicine, Uppsala, p 120-129.

     Google Scholar 

121. Huch R, Huch A, Meinzer K, Lübbers DW (1972) Eine schnelle beheizte Pt-Oberflächenelektrode zur kontinuierlichen Überwachung des PO₂ beim Menschen. Meßergebnisse. Verh Kongr „Medizin-Technik“, Stuttgart.

     Google Scholar 

122. Huch R, Lübbers DW, Huch H (1972) Quantitative continuous measurement of partial oxygen pressure on the skin of adults and newborn babies. Pflügers Arch Ges Physiol 337:185–198.

     Article  CAS  Google Scholar 

123. Huch R, Huch A, Lübbers DW (1974) Die kontinuierliche Kontrolle des arteriellen PO₂ und ihre Bedeutung für die Überwachung von Mutter und Kind. Biomed Tech (Stuttgart) 19:87–91.

     Article  CAS  Google Scholar 

124. Huch R, Lübbers DW, Huch A (1974) Reliability of transcutaneous monitoring of arterial PO₂ in newborn infants. Arch Dis Childh 49:213–218.

     Article  PubMed  CAS  Google Scholar 

125. Huch R, Huch A (1974) Transcutane Überwachung des arteriellen PO₂ in der Anaesthesie. Einsatzfähigkeit der Methode am Beispiel von Kurznarkosen. Anästhesist 23:181–185.

     CAS  Google Scholar 

126. Huch R, Huch A, Lübbers DW (1974) Arterielle Sauerstoffspannung und Belastung bei Gesunden. Diagnostik 7’803–804.

     Google Scholar 

127. Huch R, Lübbers DW, Huch A (1975) The transcutaneous measurement of oxygen and carbon dioxide tensions for the determination of arterial blood gas values with control of local perfusion and peripheral perfusion pressure. Theoretical analysis and practical application. In: Oxygen measurement in Blood and Tissue. Payne JP, Hill DW (eds), Butterworth, London, p 121–138.

     Google Scholar 

128. Huch R, Huch A, Bucher HU (1976) Experience with the oxygen-cardio-respirogram in newborn infants. Proc 5th Europ Congr Perinat Med, Uppsala.

     Google Scholar 

129. Huchon G, Blayo MC, Vallois JM, Chirico A, Morizet P, Gaudebout C (1976) Continuous intravascular monitoring of PO₂ and PCO2. A comparative in vitro-in vivo study. Europ J Int Care Med 2:23–28.

     Article  CAS  Google Scholar 

130. Hugenholtz PG, Krauss XH, Verdouw PD, Nauta J (1975) Clinical experience with on-line fibre-optic oximetry. In: Current status of oxygen measurement in biology and medicine. Payne, JP, Hill DW (eds), Butterworth, London, p 383–395.

     Google Scholar 

131. Huse K (1977) Die kontrollierte Hypotension mit Nitroprussidnatrium in der Neuroleptanaesthesie. Anaesthesiologie und Wiederbelebung Bd 107, Springer, Berlin Heidelberg New York.

     Google Scholar 

132. Huxtable RF, Fatt I (1974) A flexible catheter-type oxygen sensor. J Appl Physiol 37:435–438.

     PubMed  CAS  Google Scholar 

133. Irnich W (1975) Einführung in die Bioelektronik. Thieme, Stuttgart.

     Google Scholar 

134. Jacobsen E (1972) Continuous measurement of PO₂, PCO2 and pH during total body perfusion in dogs. Scand J Thor Cardiovasc Surg 6:184–190.

     Article  CAS  Google Scholar 

135. Jacobsen E, Jessen C, Sivertsen U (1975) Continuous measurement of arterial PO₂, PCO2 and pH during autotransplantation of canine hearts. Acta Anaesth Scand 19:265–276.

     Article  PubMed  CAS  Google Scholar 

136. Jacq J, Bloch O (1964) Formation d’eau oxygenee au cours de la reduction electrochimique de l’oxygene en milieu alcalin sur differentes cathodes. Electrochim Acta 9:551–568.

     Article  CAS  Google Scholar 

137. James PM (1973) Shock lung. Intern Surg 58:308–310.

     Google Scholar 

138. Jank K, Hemptinne J de, Swietochowski A, Demeester M (1975) Continuous in vivo measurement of arterial PO₂ in humans. J Appl Physiol 38:730–735.

     PubMed  CAS  Google Scholar 

139. Jank K, Musoglu E, Hiequet J, Demeester M (1977) Simultaneous in vivo monitoring of blood parameters with in situ sensor calibration. Intens Care Med 3:125.

     Google Scholar 

140. Johansen K, Krog J (1959) Polarographic determination of intravascular oxygen tension in vivo Acta Physiol Scand 46:228–233.

     Article  PubMed  CAS  Google Scholar 

141. Jones JG (1975) Evaluation of pulmonary oxygen transport during anaesthesia and intensive care using the mass spectrometer. In: Current status of oxygen measurement in biology and medicine. Payne JP, Hill DW (eds), Butterworth, London, p 331–349.

     Google Scholar 

142. Kallos T (1975) Impaired arterial oxygenation associated with use of bone cement in the femoral shaft. Anesthesiology 42:210–216.

     Article  PubMed  CAS  Google Scholar 

143. Kelman GR (1966) Digital computer subroutine for the conversion of oxygen tension into saturation. J Appl Physiol 21:1375–1376.

     PubMed  CAS  Google Scholar 

144. Kelman GR, Nunn JF, Prys-Roberts C, Greenbaum R (1967) The influence of cardiac output on arterial oxygenation: A theoretical study. Brit J Anaesth 39:450–458.

     Article  PubMed  CAS  Google Scholar 

145. Kessler M, Höper J (1977) Oxygen electrodes — a brief review. Proc 3rd Symp Int Soc Oxyg Transp Tissue, Cambridge.

     Google Scholar 

146. Key A (1974) Non-Linearity of in vitro blood PO₂ measurements. Biomed Eng 9:154–156.

     PubMed  CAS  Google Scholar 

147. Kimmich HP, Kreuzer F (1969) Catheter PO₂-electrode with low flow dependency and fast response. Progr Res 3: Karger, Basel New York, p 100–110.

     Google Scholar 

148. Kimmich HP, Kreuzer F (1976) Continuous monitoring of PaO₂ of intensive care patients in view of its application during prolonged extracorporeal perfusion. In: Physiological and clinical aspects of oxygenator design. Dawids SG, Engell HC (eds) Elsevier, Amsterdam, p 259–268.

     Google Scholar 

149. Kimmich HP, Kreuzer F, Spaan G, Jank K, Hemptinne J de, Demeester U (1976) Monitoring of PO₂ in human blood. Adv Exp Med Biol 75:33–40.

     PubMed  CAS  Google Scholar 

150. Koch HU, Neuhof H (1977) Einsatz der kontinuierlichen intravasalen Messung der Sauerstoffsättigung zur Steuerung der Beatmung schwerkranker Patienten. Verh 9. Tag Dtsch Österr Ges Intern Intensivmed, Linz.

     Google Scholar 

151. Kochukosky KN, Chick TW, Jenne JW (1975) The effect of nitroglycerin in gas exchange on chronic obstructive pulmonary disease. Am Rev Resp Dis 111:177–183.

     Google Scholar 

152. Koeff ST, Tsao MV, Vadnay A, Wilson TO, Wilson JL (1962) Continuous measurement of intravascular oxygen tension in normal adults. J Clin Invest 41:1125–1133.

     Article  PubMed  CAS  Google Scholar 

153. Kollmeyer KR, Tsang RC (1974) Complications of umbilical oxygen electrodes. J Pediatr 84:894–897.

     Article  PubMed  CAS  Google Scholar 

154. Kolmar D (1958) Unmittelbare Registrierung der Sauerstoffspannung im Blut mit einem Spezialkatheter beim Herzkatheterismus. Z Kreisl-Forsch 47:1005–1010.

     CAS  Google Scholar 

155. Kolmar D (1960) Shuntnachweis bei angeborenen Herzfehlern. Unter besonderer Berücksichtigung der intrakardialen Oxymetrie. Klin Wschr 38:1150–1155.

     Article  PubMed  CAS  Google Scholar 

156. Kolthoff IM, Lingane JJ (1952) Polaropaphy. Interscience, New York.

     Google Scholar 

157. Kramer K (1935) Ein Verfahren zur fortlaufenden Messung des Sauerstoffgehaltes im strömenden Blut an uneröffneten Gefäßen. Zschr Biol 96:61–75.

     CAS  Google Scholar 

158. Krauss XH, Verdouw PD, Hugenholtz PG, Neubert J, Bos E (1976) Kontinuierliche Überwachung der zentralvenösen Sauerstoffsättigung mittels fiberoptischem Katheter; ein wichtiger Indikator bei kardiorespiratorischem Versagen. In: Neue kontinuierliche Methoden zur Überwachung der Herz-Kreislauf-Funktion. Zindler M, Purschke R (Hrsg) INA, Bd 1, Thieme, Stuttgart, p 29–43.

     Google Scholar 

159. Kreuzer F, Nessler CG jr (1958) Method of polarographic in vivo continuous recording of blood oxygen tension. Science 128:1005–1006.

     Article  PubMed  CAS  Google Scholar 

160. Kreuzer F, Nessler CG jr (1958) Method for polarographic continuous in vivo recording of blood oxygen tension. Physiologist 1:44.

     Google Scholar 

161. Kreuzer F, Harris ED jr, Nessler CG jr (1960) A method for continuous recording of in vivo blood oygen tension. J Appl Physiol 15:77–82.

     PubMed  CAS  Google Scholar 

162. Kreuzer F (1970) Facilitated diffusion of oxygen and its possible significance, a review. Physiol 9:1–30.

     CAS  Google Scholar 

163. Kreuzer F (1975) Respiratory fluctuations of oxygen pressure in alveolar air and arterial blood. In: Current status of oxygen measurements in biology and medicine. Payne JP, Hill DW (eds) Butterworth, London, p 139–160.

     Google Scholar 

164. Krog J, Johansen K (1959) Construction and characteristics of Teflon covered polarographic electrodes for intravascular oxygen determination. Rev Sci Instrum 30:108–109.

     Article  CAS  Google Scholar 

165. Kunke S, Schulz V, Erdmann W, Ulmer HV, Schnabel KH (1975) Ein System zur PaO₂-geregelten Sauerstoffzufuhr bei Patienten mit Schocklungen. Verh Dt Ges Inn Med 8:493–496.

     Google Scholar 

166. Kunke S, Schulz V (1977) A system of PaCO2 and PaO₂ continuously controlled ventilation. Intens Care Med 3:124.

     Google Scholar 

167. Kunze K (1964) Eine Katheterelektrode zur kontinuierlichen Messung des Sauerstoffdruckes. Pflügers Arch Ges Physiol 279:94–97.

     Article  CAS  Google Scholar 

168. Kunze K (1965) Kontinuierliche, absolute Sauerstoff-Druckmessung bei kurzen Impulsen. Pflügers Arch Ges Physiol 283:R 36.

     Google Scholar 

169. Kunze K (1966) Die lokale kontinuierliche Sauerstoffdruckmessung in der menschlichen Muskulatur. Pflügers Arch Ges Physiol 292:151–160.

     Article  CAS  Google Scholar 

170. Kunze K, Lübbers DW (1973) Absolute PO₂-measurements with Pt-electrodes applying polarizing voltage pulsing. Adv Exp Med Biol 37:35–43.

     Google Scholar 

171. Lenfant C, Okubo T (1968) Distribution function of pulmonary blood flow and ventilation-perfusion ratio in man. J Appl Physiol 24:668–677.

     PubMed  CAS  Google Scholar 

172. Levowitz BS, La Guerre JN, Calem WS (1968) Biologic compatibility and application of hydron. Trans Amer Soc Artif Intern Organs 14:82–88.

     CAS  Google Scholar 

173. Liebman PR, Patten MT, Dennis RC, Chang KW, Aisenberg S, Hechtman HB (1976) Continuous monitoring in vivo oxygen tension with a fuel cell. Surg Forum 27:58–59.

     PubMed  CAS  Google Scholar 

174. Linek V, Benes P (1977) Multiregion, multilayer, nonuniform diffusion model of an oxygen electrode. Biotechnol Bioeng 19:741–748.

     Article  PubMed  CAS  Google Scholar 

175. Lorenz R (1973) Wirkungen intrakranieller raumfordernder Prozesse auf den Verlauf von Blutdruck und Pulsfrequenz. Springer, Wien New York.

     Google Scholar 

176. Lübbers DW (1966) Methods of measuring oxygen tensions of blood and organ surfaces. In: A symposium on oxygen measurements and their significance. Payne JP, Hill D (eds) Churchill, London, p 103–127.

     Google Scholar 

177. Lübbers DW, Opitz N (1975) Die PCO2/PO₂-Optode: Eine neue PCO2-bzw. PO₂-Meßsonde zur Messung des PCO2 oder PO₂ von Gasen und Flüssigkeiten. Z Naturforsch (c) 30:532–533.

     Google Scholar 

178. Lundsgaard-Hansen P (1970) Neues in der Pathophysiologie des klinischen Schockes. Chirurg 40:498–505.

     Google Scholar 

179. MacKenzie GJ, Taylor SH, Flenley DC, MacDonald AH, Staunton HP, Donald KW (1964) Circulatory and respiratory studies in myocardial infarction and cardiogenic shock. Lancet II:825–832.

     Article  Google Scholar 

180. Maes FW (1976) Construction of PO₂ microelectrodes for use in small blood vessels. Experientia 32:130–132.

     Article  PubMed  CAS  Google Scholar 

181. Mapleson WW, Horton JN, Ng WS, Imrie DD (1970) The response pattern of polarographic oxygen electrodes and its influence on linearity and hysteresis. Med Biol Eng 8:585–593.

     Article  PubMed  CAS  Google Scholar 

182. Massaro TA, Behrens-Tepper J, Updike SJ (1976) Non-polarographic blood gas analysis. I. In vitro evaluation of gas Chromatograph system. Biomat Med Dev Art Org 4:385–396.

     CAS  Google Scholar 

183. Matthes K (1935) Untersuchungen über die Sauerstoffsättigung des menschlichen Arterienblutes. Arch Exp Pathol Pharmakol 179:698–711.

     Article  CAS  Google Scholar 

184. McAslan TC (1976) Automated respiratory gas monitoring of critically injured patients. Crit Care Med 4:255–260.

     Article  PubMed  CAS  Google Scholar 

185. McFadden ER, Lyons HA (1968) Arterial blood gas tension in asthma. New Engl J Med 278:1027–1032.

     Article  PubMed  Google Scholar 

186. McNicol MW, Kirby BJ, Bhoola KD, Everest ME, Price HV, Freedman SF (1965) Pulmonary function in acute myocardial infarction. Br Med J II:1270–1273.

     Article  Google Scholar 

187. Meisner P, Hugh-Jones P (1968) Pulmonary function in bronchial asthma. Br Med J I 470–475.

     Article  Google Scholar 

188. Messer J, Willard D, Benoit M, Kurtz F (1977) Surveillance continue de la PO₂ par voie cutanee (CPO₂) chez le nouveau-ne. Pediatrie 32:109–118.

     PubMed  CAS  Google Scholar 

189. Meyer Dh, Meunier-Carus J, Lonsdorfer J, Lampert E (1975) Criteres et validite de la mesure en continu de la PaO₂ et de la PaCO2 chez l’homme. Ann Biol Clin (Paris) 33:423–433.

     CAS  Google Scholar 

190. Meyer SJ, Gotoh F, Tazaki Y (1961) Continuous recording of arterial PO₂, PCO2, pH and O2 saturation in vivo. J Appl Physiol 16:896–902.

     PubMed  CAS  Google Scholar 

191. Mindt W (1973) Sauerstoffsensor für in vivo-Messung. Verh Dt Ges Biomed Techn Erlangen.

     Google Scholar 

192. Nadjmabadi MH, Purschke R, Lennartz H, Bircks W, Krause O, Falke K (1975) Der Einfluß von Dopamin auf das intrapulmonale Shunt-Volumen nach kardiochirurgischen Eingriffen. In: Dopamin. Schröder R (Hrsg) Schattauer, Stuttgart, p 135–140.

     Google Scholar 

193. Nernst W (1904) Theorie der Reaktionsgeschwindigkeit in heterogenen Systemen. Z Physikal Chem 47:52–55.

     CAS  Google Scholar 

194. Neuhaus KL, Gleichmann U, Kreuzer H (1969) Kontinuierliche Messung des coronarvenösen Sauerstoffdruckes zur Prüfung von coronaraktiven Substanzen. Naunyn Schmiedberg Arch Pharmacol 263:185.

     CAS  Google Scholar 

195. Neuhaus KL, Gleichmann U, Kreuzer H (1971) Die kontinuierliche Messung des koronarvenösen Sauerstoffdruckes mit einer nicht membranbezogenen Platinelektrode. Z Kreislauff 60:13–23.

     CAS  Google Scholar 

196. Nie NH, Hull CH, Jenkins JG, Steinbrenner K, Bent DH (1965) Statistical package for the social sciences. 2nd ed, McGraw Hill, New York.

     Google Scholar 

197. Niedrach LW, Stoddard WH (1972) A new approach to sensors for in vivo monitoring: I. Oxygen. J Assoc Adv Med Inst 6:121–125.

     Google Scholar 

198. Nunn JF (1969) Applied respiratory physiology with special reference to anesthesia. Butterworth, London.

     Google Scholar 

199. Oeseburg B (1969) The use of uncovered oxygen sensitive platinum electrodes in diagnostic cardiac catheterisation. Progr Resp Res Vol 3, Karger, Basel New York, p 94–99.

     Google Scholar 

200. Pain MCF, Charlton GC, Read J (1967) Effects of intravenous aminophylline on distribution of pulmonary blood flow in obstructive lung disease. Amer Rev Resp Dis 95:1005–1014.

     PubMed  CAS  Google Scholar 

201. Palmer KNV, Diament MI (1968) Hypoxemia in bronchial asthma. Lancet I:318–319.

     Article  Google Scholar 

202. Parker D, Key A, Davies RS (1971) Catheter-tip transducer for continuous in-vivo measurement of oxygen tension. Lancet 1:952–953.

     PubMed  CAS  Google Scholar 

203. Parker D, Key A, Davies RS, Scopes JW, Marcovitch H (1971) A disposable catheter-tip transducer for continuous measurement of blood oxygen tension in vivo. Bio Med Engin 6:313–317.

     CAS  Google Scholar 

204. Parker D, Soutter CP (1975) In vivo monitoring of blood PO₂ in newborn infants. In: Current status of oxygen measurements in biology and medicine. Payne JP, Hill DW (eds) Butterworth, London, p 269–283.

     Google Scholar 

205. Parker D (1976) Continuous measurement of arterial oxygen tension (PaO₂) by electrochemical transducers. Biomed Techn 21; Ergänzungsband: 187-188.

     Google Scholar 

206. Polgar G, Forster RE (1960) Measurement of oxygen tension in unstirred blood with a platinum electrode. J Appl Physiol 15:706–711.

     PubMed  CAS  Google Scholar 

207. Potter WA (1976) Mass spectrometry for innovative techniques of respirator therapy, ventilator weaning and differential ventilation in an intensive care unit. Crit Care Med 4:235–239.

     Article  PubMed  CAS  Google Scholar 

208. Purves MJ (1966) Fluctuations of arterial oxygen tension which have the same period as respiration. Resp Physiol 1:281–296.

     Article  CAS  Google Scholar 

209. Purves MJ (1966) The effect of a single breath of oxygen on respiration in the newborn lamb. Resp Physiol 1:297–307.

     Article  CAS  Google Scholar 

210. Ramdohr B, Schüren KP, Biamino G, Schröder R (1973) Der Einfluß von Dopamin auf Hämodynamik und Nierenfunktion bei der schweren Herzinsuffizienz des Menschen. Klin Wschr 51:549–556.

     Article  PubMed  CAS  Google Scholar 

211. Ramo BW, Myers N, Wallace A, Starmer F, Clark DO, Whalen RE (1970) Hemodynamic findings in 123 patients with acute myocardial infarction on admission. Circulation 42:567–577.

     PubMed  CAS  Google Scholar 

212. Requena R, Forte R, Scherrer J, Knopf M, Kirschner J, Levowitz BS (1972) Electrode catheter for continuous blood and tissue PO₂ monitoring. Bull New York Ac Med 48:1052.

     Google Scholar 

213. Rhodes MC, Zavala DC, Brown D (1976) Hypoxic protection in paraquat poisoning. Lab Invest 35:496–500.

     PubMed  CAS  Google Scholar 

214. Riker JB, Haberman B (1976) Expired gas monitoring by mass-spectrometry in a respiratory intensive care unit. Crit Care Med 4:223–229.

     Article  PubMed  CAS  Google Scholar 

215. Rooth G, Christensson B, Gustafson A, Linder E, Vannitamby M (1961) Direct intracardiac oxygen tension measurement with a Pt-electrode. Acta Med Scand 170:617–620.

     Article  PubMed  CAS  Google Scholar 

216. Rooth G (1975) Transcutaneous oxygen tension measurement in newborn infants. Pediatrics 55:232–235.

     PubMed  CAS  Google Scholar 

217. Rooth G, Hedstrand U, Tyden H, Ögren C (1976) The validity of the transcutaneous oxygen tension method in adults. Crit Care Med 4:162–165.

     Article  PubMed  CAS  Google Scholar 

218. Rybak B (1964) Realisation d’un catheter-electrode a PO₂, premieres mesures simultanees en continu in situ dans les sangs arteriel et veineux d’un mammifere. Life Sci 3:1123–1129.

     Article  PubMed  CAS  Google Scholar 

219. Said SI, Davies RK, Crosier JL (1961) Continuous recording in vivo of arterial blood PO₂ in dogs and man. J Appl Physiol 16:1129–1132.

     PubMed  CAS  Google Scholar 

220. Saito Y (1967) A sputtered Pt film electrode for polarographic O2-measurement. J Appl Physiol 23:979–983.

     PubMed  CAS  Google Scholar 

221. Saulson SH (1973) High speed pulsatile operation of miniature oxygen electrodes. Adv Exp Med Biol 37:29–34.

     Google Scholar 

222. Saunders NA, Powles ACP, Rebuck AS (1976) Ear oxymetry: accuracy and practicability in the assessment of arterial oxygenation. Am Rev Respir Dis 113:745–749.

     PubMed  CAS  Google Scholar 

223. Schaper WKA, Xhonneux R, Bogaard JM (1963) Über die kontinuierliche Messung des Sauerstoffdrucks im venösen Coronarblut. Arch Exper Path Pharmacol 245:383–389.

     CAS  Google Scholar 

224. Scherrer M, König MP (1974) Pulmonary gas exchange in hypothyroidism. Pneumonologie 151:105–113.

     Article  PubMed  CAS  Google Scholar 

225. Schmidt K, Thews G, Hertz CW (1965) Untersuchung des Ventilations-Durchblutungs-Verhältnisses in der funktionell inhomogenen Lunge mittels des „inspiratorischen Sauerstoffsprunges“. Pflügers Arch 282:276–289.

     Article  CAS  Google Scholar 

226. Schneider P, Goeckenjan G, Esser R, Huneke H (1975) Zum Einfluß von Dopamin auf die Lungenfunktion. In: Dopamin. Schröder R (Hrsg) Schattauer, Stuttgart, S 141–145.

     Google Scholar 

227. Schuler R, Kreuzer F (1967) Rapid polarographic in vivo oxygen catheter electrodes. Resp Physiol 3:90–110.

     Article  CAS  Google Scholar 

228. Schuler R, Kreuzer F (1969) Properties and performance of membrane-covered rapid polaropaphic oxygen catheter electrodes for continuous oxygen recording in vivo. Progr Resp Res 3:64–78.

     Google Scholar 

229. Schulz V, Erdmann W, Ulmer HV, Knabe S, Baum P, Frey R (1973) Zur kontinuierlichen Messung des arteriellen Kohlensäuredrucks mit Katheterelektrode und Möglichkeiten ihres klinischen Einsatzes. Anaesthesist 22:416–422.

     PubMed  CAS  Google Scholar 

230. Schwander D, Schwander A (1973) Arterielle Traumen in der Anaesthesie und in der Intensivpflege. Vasa 2:330–335.

     PubMed  CAS  Google Scholar 

231. Schwarz W (1977) Das Belastungsverhalten des arteriellen Sauerstoffpartialdruckes bei Lungengesunden und Bronchitikern. Fortschr Med 95:723–726.

     PubMed  CAS  Google Scholar 

232. Schwarz W, Fabel H (1976) Das arterielle Sauerstoffpartialdruckprofil unter Belastung und in der Erholungsphase — fortlaufende Sauerstoffpartialdruckmessungen bei Lungengesunden und Bronchitikern. Pneumonologie Suppl:217-227.

     Google Scholar 

233. Seed RF, Broadbent MP, Yates AK (1977) In-vivo PO₂ monitoring after open heart surgery. Intens Care Med 3:125.

     Google Scholar 

234. Seylaz J, Pinard E, Correze JL, Anbineau PF, Mamo H (1974) Quantitative continuous measurement of blood gas tensions by mass spectrometry. J Appl Physiol 37:937–941.

     PubMed  CAS  Google Scholar 

235. Shinmaru S, Okuchi T, Meyer JS, Teraura T (1972) Catheter-mounted oxygen electrode for monitoring oxygen tension. Cardiovasc Res Cent Bull 10:111–122.

     Google Scholar 

236. Sill V, Greul W, Voelker N, Marwede S (1973) Zur respiratorischen Insuffizienz durch ß-Mimetika und Aminophyllin. Arzneim-Forsch 23:1053–1056.

     CAS  Google Scholar 

237. Silver IA (1967) Polarography and its biological applications. Phys Med Biol 12:285–299.

     Article  PubMed  CAS  Google Scholar 

238. Siu W, Cobbold RSC (1976) Characteristics of a multicathode polarographic oxygen electrode. Med Biol Eng 14:109–121.

     Article  PubMed  CAS  Google Scholar 

239. Smith LL, Walton DM, Wilson DR, Jackson CL, Hinshaw DB (1970) Continuous gas and pH monitoring during cardiovascular surgery. Am J Surg 120:249–254.

     Article  PubMed  CAS  Google Scholar 

240. Sommerkamp H, Oehmig A (1962) Herzkatheter mit kunststoffüberzogener Platinelektrode zur fortlaufenden Suaerstoffdruckmessung im strömenden Blut. Klin Wschr 40:1112–1113.

     Article  PubMed  CAS  Google Scholar 

241. Speath EE, Friedlander SK (1967) The diffusion of oxygen, carbon dioxide and inert gas in flowing blood. Biophys J 7:827–851.

     Article  Google Scholar 

242. Spencer MP, Denison AB (1963) Pulsatile blood flow in the vascular system. In: Handbook of Physiology, Circulation, Vol II. Hamilton WF, Dow P (eds) Amer Physiol Soc, Washington, p 839–864.

     Google Scholar 

243. Staub NC (1961) A small simple electrode. J Appl Physiol 16:192–194.

     CAS  Google Scholar 

244. Stosseck K (1977) Transcutane Sauerstoffmessung. Methodik und klinische Anwendung. Anaesthesiologie und Wiederbelebung, Bd 108, Springer, Berlin Heidelberg New York.

     Google Scholar 

245. Strasser K, Goeckenjan G (1976) Kontinuierliche intraarterielle und transcutane PO₂-Messungen bei beatmeten Intensivpatienten mit Kreislaufinsuffizienz. In: Neuerungen in Anästhesie und Intensivpflege. Henschel WF (Hrsg) Anästhesie aktuell I. Straube, Erlangen, S 15–16.

     Google Scholar 

246. Strauss AW, Escobedo M, Goldring D (1974) Continuous monitoring of arterial oxygen tension in the newborn infants. J Pediatr 85:254–261.

     Article  PubMed  CAS  Google Scholar 

247. Strauss J, Beran AV, Baker R (1972) Continuous O2 monitoring of newborn and older infants and of children. J Appl Physiol 33:238–243.

     PubMed  CAS  Google Scholar 

248. Strauss J, Beran AV, Baker R (1973) Measurement of oxygen in the newborn. Adv Exp Med Biol 37:1089–1096.

     PubMed  CAS  Google Scholar 

249. Sugioka K (1975) Theoretical and clinical considerations in the use of a new in vivo oxygen electrode. In: Current status of oxygen measurement in biology and medicine. Payne JP, Hill DW (eds) Butterworth, London, p 111–120.

     Google Scholar 

250. Sukumalchantra Y, Danzig R, Levy SE, Swan HJC (1970) The mechanism of arterial hypoxemia in acute myocardial infarction. Circulation 41:641–650.

     PubMed  CAS  Google Scholar 

251. Suter PM, Fairley HB, Isenberg MD (1975) Optimum endexpiratory airway pressure in patients with acute pulmonary failure. New Engl J Med 292:284–289.

     Article  PubMed  CAS  Google Scholar 

252. Suter PM (1976) Maschinelle Beatmungstechniken. 8. Tagg Dtsch Österr Ges Intern Intensivmed, München.

     Google Scholar 

253. Tai E, Read J (1967) Response of blood gas tensions to aminophylline and isoprenaline in patients with asthma. Torax 22:543–549.

     CAS  Google Scholar 

254. Thews G, Schmidt K (1965) Analyse der Verteilung von Ventilation und Durchblutung in der funktioneil inhomogenen Lunge nach dem Verfahren des „inspiratorischen Sauerstoffsprunges“. Pflügers Arch 282:259–275.

     Article  CAS  Google Scholar 

255. Tsao MU, Vadnay A (1960) An electrode for continuous measurement of transient blood PO₂ in the vessel. J Appl Physiol 15:712–716.

     PubMed  CAS  Google Scholar 

256. Ulmer WT, Reichel G, Nolte D (1970) Die Lungenfunktion. Physiologie und Pathophysiologie, Methodik. Thieme, Stuttgart.

     Google Scholar 

257. Van Kempen LH, Kreuzer F (1975) A single-unit carbon dioxide-oxygen sensing microelectrode system. Resp Physiol 23:371–379.

     Article  CAS  Google Scholar 

258. Veasy G, Clark JS, Jung L, Jenkins JL (1971) A system for computerized automated blood gas analysis. Its use in newborn infants with respiratory distress. Pediatrics 48:5–17.

     PubMed  CAS  Google Scholar 

259. Vetter KJ (1961) Elektrochemische Kinetik. Springer, Berlin.

     Google Scholar 

260. Wagner PD, Laravuso RB, Uhl RR, West JB (1974) Continuous distribution of ventilation-perfusions ratios in subjects breathing air and 100 per cent oxygen. J Clin Invest 54:54–68.

     Article  PubMed  CAS  Google Scholar 

261. Wald A, Hass WK, Siew FP, Wood DH (1970) Continuous measurement of blood gases in vivo by mass spectrography. Med Biol Engl 8:111–128.

     Article  CAS  Google Scholar 

262. West JB (1969) Ventilation-perfusion inequality and overall gas exchange in computer models of the lung. Resp Physiol 7:88–110.

     Article  CAS  Google Scholar 

263. West JB (1974) Blood flow to the lung and gas exchange. Anesthesiology 41:124–138.

     Article  PubMed  CAS  Google Scholar 

264. West JB (1976) Ventilation-perfusion and diffusion disturbances in asthma. In: Bronchial Asthma, Mechanisms and Therapeutics. Weiss EB, Segal MS (eds) Little Brown, Boston.

     Google Scholar 

265. Wettengel R, Hartmann W, Fabel H (1971) Die Wirkung von Aminophyllin, Orciprenalin und Nitroglycerin auf Gasaustausch und Hämodynamik im Lungenkreislauf bei obstruktivem Lungenemphysem. Progr Resp Res 6:418–424.

     Google Scholar 

266. Wildsmith JA, Drummond GB, Macrae WR (1975) Blood-gas changes during induced hypotension with sodium nitroprusside. Brit J Aneasth 47:1205–1211.

     Article  CAS  Google Scholar 

267. Woldring B, Owens G, Woolford DC (1966) Blood gases: continuous in vivo recording of partial pressure by mass spectrography. Science 153:885–887.

     Article  PubMed  CAS  Google Scholar 

268. Wolf R, Beck OA, Bachour G, Krämer KD, Hochrein H (1976) Die Bedeutung des arteriellen Sauerstoffdrucks für die Linksherzinsuffizienz beim akuten Myocardinfarkt. Intensivmed 13:39–44.

     Google Scholar 

269. Wolff G, Grädel E, Blaudi B, Rist M, Schwab Th (1972) Der Einfluß des akut erniedrigten Herzminutenvolumens auf den intrapulmonalen Rechts-Links-Shunt. Schweiz Med Wschr 102:198–202.

     PubMed  CAS  Google Scholar 

270. Zwillich CW (1975) Ventilatory control in myxedema and hypothyreoidism. New Engl J Med 292:662–665.

     Article  PubMed  CAS  Google Scholar 

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