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Literaturverzeichnis

  1. Allen, P., and C. W. Lillehei, Use of induced cardiac arrest in open heart surgery. Results in 70 patients. Minnesota Med. 40, 672, 1957.PubMedGoogle Scholar
  2. Antipov, B. V., Patho-morphological investigations on the dry arrested heart in conditions of experimental application of artificial circulation. Arkh. Pat. 22, 67, 1960; zit. in Heart-Lung Bypass, Hrsg. von P. M. Galletti, G. A. Brecher, New York—London, Grune and Stratton, 1962.Google Scholar
  3. Arnold, G., und W. Lochner, Die Temperaturabhängigkeit des Sauerstoffverbrauches stillgestellter, künstlich perfundierter Warmblüterherzen zwischen 34 und 4°C. Pflügers Arch. ges. Physiol. 284, 169, 1965.Google Scholar
  4. Baker, J. B., H. H. Rental, B. Dreyer and D. G. Melrose, Arrest of isolated heart with potassium citrate. Lancet 273, 555, 1957.PubMedCrossRefGoogle Scholar
  5. Bass, P., I. Mazurkiewicz and K. I. Melville, Effects of magnesium on coronary flow and heart action and its influence on the responses to adrenaline and noradrenaline. Arch. Int. Pharmacodyn. 117, 9, 1958.Google Scholar
  6. Bell, J. W., and F. F. Beretta, Prolonged ventricular fibrillation; an experimental study in the closed chest animal utilizing a pump oxygenator. J. Thor. Cardiov. Surg. 38, 17, 1959.PubMedGoogle Scholar
  7. Berglund, E., R. G. Monroe and G. L. Schreiner, Myocardial oxygen consumption and coronary blood flow during potassium-induced cardiac arrest and during ventricular fibrillation. Acta Physiol. Scand. 41, 261, 1957.Google Scholar
  8. Berne, R. M., R. D. Jones and F. S. Cross, Oxygen consumption of the hypothermic potassium arrested heart. Proc. Soc. Exp. Biol. Med. 99, 84, 1958.PubMedGoogle Scholar
  9. Berne, R. M., R. D. Jones and F. S. Cross, Myocardial hypothermia in elective cardiac arrest. J. Appl. Physiol. 12, 431, 1958.PubMedGoogle Scholar
  10. Bernhard, W. F., H. F. Schwarz and N. P. Mallick, Intermittent cold coronary perfusion as an adjunct to open heart surgery. Surg. Gynec. Obstet. 111, 744, 1960.Google Scholar
  11. Bernhard, W. F., H. F. Schwarz and N. P. Mallick, Elective hypothermic cardiac arrest in normothermic animals. Ann. Surg. 153, 43, 1961.PubMedGoogle Scholar
  12. Beuren, A., R. J. Bing and C. Sparks, Metabolic studies on the arrested and fibrillating per-fused heart. Amer. J. Cardiol. 1, 103, 1958.PubMedCrossRefGoogle Scholar
  13. Bigelow, W. G., I. C. Callaghan and J. A. Horns, General hypothermia for experimental surgery. Ann. Surg. 132, 849, 1950.PubMedCrossRefGoogle Scholar
  14. Bigelow, W. G., W. K. Lindsay and W. F. Greenwood, Hypothermia. Its possible role in cardiac surgery. Ann. Surg. 132, 849, 1950.PubMedCrossRefGoogle Scholar
  15. Bjork, V. O., An artificial heart or cardiopulmonary machine. Performance in animals. Lancet 1, 491, 1948.Google Scholar
  16. Bjerk, V. O., Perfusion technic for surgery on the aortic valves. Ann. Surg. 153, 173, 1961.Google Scholar
  17. Bjerk, V. O., and B. Fors, Induced cardiac arrest. J. Thor. Cardiov. Surg. 41, 387, 1961.Google Scholar
  18. Bretschneider, H. J., Überlebenszeit and Wiederbelebungszeit des Herzens bei Normo-and Hypothermie. Verh. Dtsch. Ges. Kreislaufforschung 30, 11, 1964.Google Scholar
  19. Burn, J. H., The cause of fibrillation. Brit. Med. J. 1, 1379, 1960.PubMedCrossRefGoogle Scholar
  20. Burroughs, J. T., and D. E. Donald, Some factors affecting recovery from stoppage of the heart and coronary flow during extracorporeal circulation. Circulation 14, 917, 1956.CrossRefGoogle Scholar
  21. Cass, M. H., Restoration of sinus rhythm following elective cardiac arrest under hypothermia. Guys Hosp. Rep. 108, 258, 1959.PubMedGoogle Scholar
  22. Clark jr., L. C., F. Berg, C. Lyons, S. Kaplan and W. S. Edwards, Continuous perfusion of the arrested heart with arterialized hypocalcemic blood. Surg. Forum 10, 518, 1960.PubMedGoogle Scholar
  23. Clark jr., G. H. A., and W. E. Neville, Experimental exposure of the aortic valve. Surg. Forum 5, 39, 1955.Google Scholar
  24. Conn jr., H. L., J. C. Wood and G. S. Morales, Rate of change in myocardial glycogen and lactic acid following arrest of coronary circulation. Circulat. Research 7, 721, 1959.CrossRefGoogle Scholar
  25. Cooley, D. A., J. R. Ladson and A. S. Keats, Surgical considerations in repair of ventricular and atrial septal defects utilizing cardiopulmonary bypass. Surgery 43, 214, 1958.PubMedGoogle Scholar
  26. Cooper, T., V. L. Willman, P. Zafiracopoulos and C. R. Hanlon, Use of cardiotonic agent (mephentermine) in myocardial depression due to potassium. Arch. Surg. 79, 734, 1959.PubMedCrossRefGoogle Scholar
  27. Cooper, T., V. L. Willman, P. Zafiracopoulos and C. R. Hanlon, Myocardial function after elective cardiac arrest during hypothermia. Surg. Gynec. Obstet. 109, 423, 1959.PubMedGoogle Scholar
  28. Cooper, T., V. L. Willman, P. Zafiracopoulos and C. R. Hanlon, Effect of prophylactic digitalization on myocardial function after elective cardiac arrest. Ann. Surg. 151, 17, 1960.PubMedGoogle Scholar
  29. Darby, T. D., E. F. Parker, W. H. Lee jr. and J. D. Ashmore, The influence of cardiopulmonary bypass with cardiac arrest and right ventriculotomy on myocardial contractile force. Ann. Surg. 147, 596, 1958.PubMedCrossRefGoogle Scholar
  30. Déleze, J, Perfusion of a strip of mammalian ventricle, effects of. K-rich and Na-deficient solutions on transmembrane potentials. Circ. Res. 7, 461, 1959.PubMedCrossRefGoogle Scholar
  31. Derra, E., Der Vorhofseptumdefekt and sein operativer Verschluß unter Sicht des Auges in Unterkühlungsnarkose. Dtsch. med. Wschr. 80, 1277, 1955.PubMedCrossRefGoogle Scholar
  32. Derra, E., Die offene Operation des Vorhofseptumdefektes and der valvulären Pulmonalstenose mittels Hypothermie. Langenbecks Arch. Klin. Chir. 289, 203, 1958.Google Scholar
  33. Derra, E., Die Operation des Vorhofseptumdefektes unter direkter Sicht des Auges mit Hilfe der Hypothermie. In: Handbuch d. Thoraxchirurgie Bd. II, Hrsg. E. Derra, Heidelberg, Springer, 1959.CrossRefGoogle Scholar
  34. Derra, E., Valvulotomie der kongenitalen Pulmonalstenose unter direkter Sicht in Hypothermie. In: Handbuch d. Thoraxchirurgie Bd. II, Hrsg. E. Derra, Heidelberg, Springer, 1959.CrossRefGoogle Scholar
  35. Derra, E., Großchirurgische Eingriffe am Herz and an den Herzgefäßen. Therapiewoche 9, 309, 1959.Google Scholar
  36. Derra, E., and B. Löhr, First experiences with extracorporeal circulation in heart operations. Germ. Med. Monthly 4, 291, 1959.Google Scholar
  37. Derra, E., und K. Kremer, Offene Herzoperationen mittels der Hypothermie. 73. Tgg. Intern. Coll. Surgeons, Rom 1960.Google Scholar
  38. Debra, E., und B. Löhr, Leistungen und Zukunftsmöglichkeiten der Herzchirurgie mit Hilfe der extrakorporalen Zirkulation auf dem Gebiet der kongenitalen Zyanopathien. 73. Tgg. Intern. Coll. Surgeons, Rom 1960.Google Scholar
  39. Debra, E., und W. Bircks, Fehler und Gefahren in der Herzchirurgie. Langenbecks Arch. Klin. Chir. 298, 363, 1961.Google Scholar
  40. Derra, E., B. Löhr, E. Ferbers, H. Grölkinger, F. Loogen und J. Sykosch, Zur Klinik und operativen Behandlung des Ventrikelseptumdefektes. Dtsch. med. Wschr. 85, 634, 1961.Google Scholar
  41. Derra, E., B. Löhr, F. Rotthoff und M. El-Fiky, Erfahrungen mit der kausalen operativen Behandlung der Fallotschen Tetralogie. Dtsch. med. Wschr. 87, 768, 1962.CrossRefGoogle Scholar
  42. Dodrill, F. D., and S. Takagi, The use of anaerobic energy in elective cardiac arrest. Surgery 47, 314, 1960.PubMedGoogle Scholar
  43. Draper, M. H., and S. Weidmann, Cardiac resting and action potentials recorded with an intercellular electrode. J. Physiol. (London) 115, 74, 1951.Google Scholar
  44. Dubost, C., C. Lenfant, I. Passelecq, I. Guery, M. Weiss, P. Blondeau et R. Heim DE Balsac, La chirurgie des cardiopathies congénitales sous circulation extracorporelle: la place de larrêt cardiaque provoqué. Minerva Chir. 13, 1385, 1958.PubMedGoogle Scholar
  45. Dubourg, G., F. Fontan, D. Cottin, H. Bricaud et P. Broustet, Arrêt du coeur par anoxie en circulation extracorporelle. Sem. Hop. Paris 35, 3081, 1959.PubMedGoogle Scholar
  46. Effler, D. B., L. K. Groves, F. M. Sones and W. J. Kolff, Elective cardiac arrest in open-heart surgery. Report of three cases. Cleveland Clin. Quart. 23, 105, 1956.Google Scholar
  47. Effler, D. B., and L. K. Groves, Elective cardiac arrest with potassium citrate. In: Extracorporeal circulation, Hrsg. J. G. Allen, Springfield/Ill., Ch. C. Thomas, 1958.Google Scholar
  48. Engbaek, L., The pharmacological actions of magnesium ions with particular reference to neuromuscular and cardiovascular system. Pharmacol. Rev. 4, 396, 1952.PubMedGoogle Scholar
  49. Fleckenstein, A., Physiologie und Pathophysiologie des Myokard-Stoffwechsels im Zusammenspiel mit den bioelektrischen und mechanischen Fundamentalprozessen. In: Das Herz des Menschen. Hrsg. von W. Bargmann, W. Doerr, Stuttgart, Georg Thieme, 1963.Google Scholar
  50. Fröhlicher, R., Untersuchungen über die Wirkungen des Acetylcholins auf das elektrisch zum Flimmern gebrachte isolierte Säugetierherz. Heiv. Physiol. Pharmacol. Acta 3, 231, 1945.Google Scholar
  51. Gehl, H., Hämodynamische Veränderungen bei Anwendung eines künstlichen Herzstillstandes. Langenbecks Arch. Klin. Chir. 292, 678, 1959.Google Scholar
  52. Gerbode, F., and D. G. Melrose, The use of potassium arrest in open cardiac surgery. Amer. J. Surg. 96, 221, 1958.PubMedCrossRefGoogle Scholar
  53. Gillmann, H., und K. G. Pulver, Vergleichsuntersuchungen über die Normalisierung der Herzaktion nach induziertem Herzstillstand an 50 wegen Ventrikelseptumdefekt operierten Patienten. (Kardioplegie durch Kaliumzitrat bzw. Anoxic in verschiedenen Temperaturbereichen.) Ztschr. f. Kreislaufforsch. 51, 822, 1962.Google Scholar
  54. Glenn, R., and G. R. Holswade, Basic requirements for open heart surgery. Surg. Clin. N. Amer. 41, 349, 1961.PubMedGoogle Scholar
  55. Glenn, W. W. L., and W. H. Sewell, Experimental cardiac surgery. IV. The prevention of air embolism in open heart surgery; repair of interatrial septal defects. Surgery 34, 195, 1953.PubMedGoogle Scholar
  56. Glenn, W. W. L., A. L. Toole, E. Longo, M. Hume and T. O. Gentsch, Induced fibrillatory arrest in open-heart surgery. New Engl. J. Med. 262, 852, 1960.Google Scholar
  57. Gollan, F., Cardiac arrest of one hour duration in dogs during hypothermia of 0°C followed by survival. Fed. Proc. 13, 57, 1954.Google Scholar
  58. Gollan, F., and I. A. Nelson, Anoxic tolerance of beating and resting heart during perfusion at various temperatures. Proc. Soc. Exp. Biol. Med. 95, 445, 1957.Google Scholar
  59. Gorr, V. L., M. Bartlett and J. A. Joiinson, High energy phosphate metabolism in the myocardium during various techniques of cardiac arrest as determined by cardiac biopsy. Surg. Forum 9, 281, 1958.Google Scholar
  60. Gott, V. L., M. Bartlett, J. A. Johnson, D. M. Long and C. W. Lillehei, High energy phosphate levels in the human heart during potassium citrate arrest and selective hypothermic arrest. Surg. Forum 10, 544, 1960.PubMedGoogle Scholar
  61. Greenberg, J. J., L. H. Edmunds and R. B. Brown, Myocardial metabolism and postarrest function in the cold and chemically arrested heart. Surgery 48, 32, 1960.Google Scholar
  62. Gregg, D. E., Regulation of the collateral and coronary circulation of the heart. In: Proc. Harvey Tercentenary Cong. London, Blackwell, 1958.Google Scholar
  63. Grosse-Brockhoff, F., und W. Schoedel, Ober die Änderung der Erregbarkeit von Atem und Kreislaufzentrum bei rascher Unterkühlung. Pflügers Arch. 246, 664, 1943.CrossRefGoogle Scholar
  64. Brockhoff, F., und W. Schoedel, Das Bild der akuten Unterkühlung im Tierexperiment. Arch. exper. Path. u. Pharmakol. 201, 417, 1943.CrossRefGoogle Scholar
  65. Grosse-Brockhoff, F., und W. Schoedel, Zur Wirkung der Analeptika auf unterkühlte Tiere. Arch. exper. Path. u. Pharmakol. 201, 443, 1943.CrossRefGoogle Scholar
  66. Hall, D. P., S. A. Singal, W. H. Moretz, E. L. Brackney, W. F. Butler, W. C. Maloy, V. Bernstein and R. G. Ellison, Myocardial metabolism during elective cardiac arrest determined by biochemical analysis of multiple cardiac biopsies. Surg. Forum 10, 540, 1960.PubMedGoogle Scholar
  67. Harshbarger, H. G., J. W. Kirklin and D. E. Donald, Studies in extracorporeal circulation. IV. Surgical techniques. Surg. Gynec. Obstet. 106, 111, 1958.PubMedGoogle Scholar
  68. Headrick, J. R., D. W. Stayhorn, A. J. Munoz and J. E. Adams, A method of safely prolonging induced cardioplegia. Surg. Forum 10, 509, 1960.PubMedGoogle Scholar
  69. Helmsworth, J. A., S. Kaplan, L. C. Clark, A. J. Mc-Adams, E. C. Matthews and F. K. Edwards, Myocardial injury associated with asystole induced with potassium citrate. Ann. Surg. 149, 200, 1959.PubMedCrossRefGoogle Scholar
  70. Hölscher, B., Über lichtmikroskopische Frühveränderungen des Kaninchen-und des Hundeherzens bei verschiedenen Formen des induzierten Herzstillstandes. Langenbecks Arch. Klin. Chir. 295. 745, 1960.Google Scholar
  71. Hölscher, B., O. H. Just and H. J. Merker, Studies by electron microscope on various forms of induced cardiac arrest in dog and rabbit. Surgery 49, 492, 1961.Google Scholar
  72. Hoffmeister, H. E., H. Kreuzer und W. Schoeppe, Der Sauerstoffverbrauch des stillstehenden, des leerschlagenden und des flimmernden Herzens. Pflügers Arch. ges. Physiol. 269, 194, 1959.Google Scholar
  73. Holle, F., G. Heinrich, F. Becker, M. Kohfahl und F. Esslinger, Cardioplegie durch Acetylcholin und deren sofortige wirksame Aufhebung durch künstliche Acetylcholinesterase. Thoraxchirurgie 6, 524, 1959.PubMedGoogle Scholar
  74. Hooker, D. R., On recovery of heart in electric shock. Am. J. Physiol. 91, 305, 1929.Google Scholar
  75. Hufnagel, C. A., P. D. Villegas and H. Nahas, Experience with new types of aortic valvular prostheses. Ann. Surg. 147, 636, 1958.PubMedCrossRefGoogle Scholar
  76. Hufnagel, C. A., R. W. Conrad, J. Schanno and R. Pifarre, Profound cardiac hypothermia. Ann. Surg. 153, 790, 1961.PubMedCrossRefGoogle Scholar
  77. Ikins, P. M., D. M. Emerson and C. B. Mueller, Myocardial metabolism during prolonged asystole and cardiopulmonary bypass. Surg. Forum 9, 180, 1959.Google Scholar
  78. Isselhard, W., Vergleich des Herzstoffwechsels bei verschiedenen Methoden des künstlichen Herzstillstandes und bei anschließender Reperfusion mit Untersuchungen über die Beeinträchtigung der extracorporalen Perfusion durch Blutveränderungen, ihre Entstehungsbedingungen und Beseitigung. Habil.-schrift, Köln 1964.Google Scholar
  79. Jesseph, J. E., P. W. Herron, L. C. Winterscheid, R. R. Vetto and K. A. Merendino, Carbohydrate metabolism of the isolated perfused dog heart. Surg. Forum 8, 290, 1958.Google Scholar
  80. Kaplan, S., L. C. Clark, E. C. Matthews, F. K. Edwards, L. Schwab and J. A. Helmworth, A comparison of the results of total body perfusion in dogs, during potassium citrate cardiac arrest, sinus rhythm, and induced ventricular fibrillation. Surgery 43, 14, 1958.PubMedGoogle Scholar
  81. Kaplan, A., and B. Fisher, Potassium ion as a cardioplegic agent in total cardiac bypass and during hypothermia with coronary perfusion. J. Thor. Cardiov. Surg. 39, 468, 1960.PubMedGoogle Scholar
  82. Kay, E. B., L. R. Head and C. Nogueira, Direct coronary artery perfusion for aortic valve surgery. J. A. M. A. 168, 1767, 1958.CrossRefGoogle Scholar
  83. Kay, E. B., D. Mendelsohnjr., A. Suzuki and H. Zimmermann, Correction of aortic regurgitation using plastic valves. J.A.M.A. 176, 1077, 1961.PubMedCrossRefGoogle Scholar
  84. Klarwein, M., W. Lamprecht und E. Lohmann, Der Stoffwechsel des Herzens bei experimentellem Kammerflimmern, Untersuchungen über den Herzstoffwechsel. IV. Hoppe Seylers Z. physiol. Chem. 328, 41, 1962.PubMedCrossRefGoogle Scholar
  85. Kolff, W. J., D. B. Effler, L. K. Groves, G. Peereboom, S. Aoyama and F. M. Sones, Elective cardiac arrest by the Melrose technic: potassium asystole for experimental cardiac surgery. Cleveland Clin. Quart. 23, 98, 1956.Google Scholar
  86. Kolff, W. J., D. B. Effler, L. K. Groves and P. P. Moraca, Elective cardiac arrest with potassium citrate during open-heart operations. J. A. M. A. 164, 1653, 1957.CrossRefGoogle Scholar
  87. Kolff, W. J., P. P. Moraca, D. E. Hale and W. L. Proudfit, A demonstration of the role of potassium and citrate ions under the conditions of elective cardiac arrest for open-heart operations. Cleveland Clin. Quart. 24, 128, 1957.Google Scholar
  88. Kübler, W., Die Geschwindigkeit der anaeroben Glykolyse des Herzens in Abhängigkeit von Milchsäurekonzentration, ATP-Gehalt und Temperatur. Verh. Dtsch. Ges. Kreislaufforschg. 30, 211, 1964.Google Scholar
  89. Kusunoki, T., H. C. Cheng, H. H. Mcguire and L. H. Bosher, Myocardial dysfunction after cardioplegia. J. Thor. Cardiovasc. Surg. 40, 813, 1960.Google Scholar
  90. Lam, C. R., T. Geoghegan and A. Lepore, Induced cardiac arrest for intracardiac surgical procedures. J. Thor. Surg. 30, 620, 1955.Google Scholar
  91. Lam, C. R., T. Gahagan, C. Sergeant and E. Green, Clinical experiences with induced cardiac arrest during intracardiac surgical procedures. Ann. Surg. 146, 439, 1957.PubMedGoogle Scholar
  92. Lam, C. R., T. Gahagan, C. Sergeant and E. Green, Experiences in the use of cardioplegia (induced cardiac arrest) in the repair of interventricular septal defects. J. Thor. Surg. 34, 509, 1957.Google Scholar
  93. Lam, C. R., T. Gahagan, C. Mota and E. Green, Induced cardiac arrest (cardioplegia) in open-heart surgical procedures. Surgery 43, 7, 1958.PubMedGoogle Scholar
  94. Leveen, H. H., B. Schatman and G. Falk, Cardiac arrest produced by massive transfusions. Surg. Gynec. Obstet. 109, 502, 1959.PubMedGoogle Scholar
  95. Lillehei, C. W., M. Cohen, H. E. Warden and R. L. Varco, The direct vision intracardiac correction of congenital anomalies by controlled cross circulation. Surgery 38, 11, 1955.PubMedGoogle Scholar
  96. Lillehei, C. W., R. A. Dewall, V. L. Gott and R. L. Varco, The direct vision correction of calcific aortic stenosis by means of a pump oxygenator and retrograde coronary sinus perfusion. Dis. Chest 30, 123, 1956.PubMedCrossRefGoogle Scholar
  97. Lillehei, C. W., J. L. Gott, R. A. Dewall and R. L. Varco, The surgical treatment of stenotic or regurgitant lesions of the mitral and aortic valves by direct vision utilizing a pump oxygenator. J. Thor. Surg. 35, 154, 1958.Google Scholar
  98. Littlefield, J. B., and W. H. Muller jr., Clinical observations and experimental studies of left coronary artery perfusion during cardiopulmonary bypass. In: Prosthetic valves for cardiac surgery. Hrsg. von K. A. Merendino, Springfield/Ill., Ch. C. Thomas, 1961.Google Scholar
  99. Lochner, W., Zum Stoffwechsel des stillgestellten Herzens. Thoraxchir. 11, 200, 1963.Google Scholar
  100. Lochner, W., und R. Dudziak, Stillstandsumsatz und Ruheumsatz des Herzens. Pflügers Arch. ges. Physiol. 285, 169, 1965.Google Scholar
  101. Löhr, B., Induzierter Herzstillstand bei intracardialen Eingriffen mit künstlichem Kreislauf. Thoraxchirurgie 7, 123, 1959.Google Scholar
  102. Löhr, B., H. Meessen und R. Poche, Elektronenmikroskopische Untersuchungen des Herzmuskels vom Hund bei experimentellem Herzstillstand durch Kaliumcitrat und Anoxie. Arch. für Kreislaufforsch. 33, 108, 1960.CrossRefGoogle Scholar
  103. Lynen, F., Herzstillstand durch die isolierte Organunterkühlung mit Kochsalzeisschnee. Diss., Düsseldorf 1963.Google Scholar
  104. Mcfarland, J. A., L. B. Thomas, J. W. Gilbert and A. G. Morrow, Myocardial necrosis following elective cardiac artest induced with potassium citrate. J. Thor. Cardiovasc. Surg. 40, 200, 1960.Google Scholar
  105. Mcgoon, D. C., E. A. Moffit, R. A. Theye and J. W. Kirklin, Physiologic studies during high flow, normothermic whole body perfusion. J. Thor. Cardiovasc. Surg. 39, 275, 1960.Google Scholar
  106. Mckeever, W. P., D. E. Gregg and P. C. Canney, Oxygen uptake of the non-working left ventricle. Circulat. Res. 6, 612, 1958.PubMedCrossRefGoogle Scholar
  107. Maraist, F. B., and W. W. L. Glenn, Experimental cardiac surgery. III. Caval blood flow as measured directly with the caval venous return shunted past the right heart. Surgery 31, 146, 1952.PubMedGoogle Scholar
  108. Mayor, G. E., R. K. Mcevoy, R. A. Harder and E. B. Mahoney, Resuscitation of the K-arrested hypothermic heart (an experimental study). Brit. J. Surg. 44, 521, 1957.CrossRefGoogle Scholar
  109. Meessen, H., Morphologische Befunde bei Herzinsuffizienz und bei künstlichem Herzstillstand. 8. Thoraxchir. Arbeitstgg., Bad Nauheim 1963.Google Scholar
  110. Meessen, H., Strukturelle Veränderungen bei akutem Herzstillstand. 30. Tgg. Dtsch. Ges. f. Kreisl.-forsch., Bad Nauheim 1964.Google Scholar
  111. Melrose, D. G., B. Dreyer, H. H. Bentall and J. B. E. Baker, Elective cardiac arrest: preliminary communication. Lancet 2, 21, 1955.CrossRefGoogle Scholar
  112. Mendelsohn, D. jr., T. N. Mackrell, D. W. Macdonald, C. Noguekia, L. R. Head jr. and E. B. Kay, Management of the patient during open-heart surgery. Surgery 45, 949, 1959.PubMedGoogle Scholar
  113. Mendelsohn, D. jr., D. W. Macdonald, C. Noguekia and E. B. Kay, Anesthesia for open-heart surgery: Acquired valvular diseases. Anesth. Analg. 39, 110, 1960.CrossRefGoogle Scholar
  114. Michal, G., S. Naegle, W. H. Danforth, F. B. Ballard and R. J. Bing, Metabolic changes in heart muscle during anoxia. Am. J. Physiol. 197, 1147, 1959.Google Scholar
  115. Missier, P. A., A. A. Angrist, L. C. Reid and J. W. Hinton, The relation of the specific tissue to the common muscle in the heart. Surg. Forum 8, 311, 1958.Google Scholar
  116. Monroe, R. G., and G. French, Ventricular pressure-volume relationships and oxygen consumption in fibrillation and arrest. Circulat. Res. 8, 260, 1960.PubMedCrossRefGoogle Scholar
  117. Muller, W. H. jr., J. B. Littlefield and J. F. Dammann jr., Subcoronary prosthetic replacement of the aortic valve. In: Prosthetic valves for cardiac surgery. Hrsg. von K. A. Merendino, Springfield/Ill., Ch. C. Thomas, 1961.Google Scholar
  118. Nunn, D. D., C. A. Belisle, W. H. Lee jr. and E. F. Parker, A comparative study of aortic occlusion alone and of potassium citrate arrest during cardiopulmonary bypass. Surgery 45, 848, 1959.PubMedGoogle Scholar
  119. Obrien, L. J., and M. M. Guest,Functional reactivation of the hypothermic heart after potassium arrest. Amer. J. Physiol. 196, 961, 1959.Google Scholar
  120. Paul, M. H., E. D. Theilen, D. E. Gregg, J. B. Marsh and G. G. Casten, Cardiac metabolism in experimental ventricular fibrillation. Circulat. Res. 2, 573, 1954.PubMedCrossRefGoogle Scholar
  121. Peirce, E. C., C. H. Dabbs, W. K. Rogers and R. Tompkins, A new method for open heart surgery. J. Tenn. St.M.A. 52, 39, 1959. Zit. in Heart-Lung Bypass, Hrsg. von P. M. Galletti, G. A. Brecher, New York—London, Grune and Stratton, 1962.Google Scholar
  122. Piskorz, A., J. Zawilski, I. Bowbelska und S. Drozdowski, Experimentelle Untersuchungen über induzierte Unterbrechungen der Herztätigkeit. Thoraxchirurgie 6, 384, 1959.PubMedGoogle Scholar
  123. Poche, R., und H. G. Ohm, Lichtmikroskopische, histochemische und elektronenmikroskopische Untersuchungen des Herzmuskels vom Menschen nach induziertem Herzstillstand. Arch. Kreisl.-forschung 41, 86, 1963.CrossRefGoogle Scholar
  124. Reidemeister, J. C., G. Rau, D. Grebe und L. E. Orellano, Elektrokardiographische Befunde nach Kardioplegie durch extrazellulären Natrium-und Calciumentzug und Novocaingabe im Überlebungsversuch beim Hund. XI. Thoraxchir. Arbeitstgg., Bad Nauheim 1966.Google Scholar
  125. Reynolds, S. R. M., M. Kirsch and R. J. Bing, Functional capillary beds in the beating KC1- arrested and KC1-arrested perfused myocardium of the dog. Circulat. Res. 6, 600, 1958.PubMedCrossRefGoogle Scholar
  126. Riberi, A., and H. B. Shumacker, Elective cardiac arrest under moderate hypothermia. Ann. Surg. 148, 21, 1958.PubMedCrossRefGoogle Scholar
  127. Ringer, S., Further contribution regarding influence of different constituents of blood on contraction of heart. J. Physiol. (London) 4, 29, 1883.Google Scholar
  128. Rohde, E., Untersuchungen am überlebenden Warmblüterherzen zur Physiologie des Herzstoffwechsels. Ztschr. Physiol. Chem. 68, 181, 1910.CrossRefGoogle Scholar
  129. Ross, D. N., J. W. Gilbert jr., E. H. Sharp and A. G. Morrow, Elective cardiac arrest during total body perfusion: the relationship of elevated intracardiac pressures during arrest to subsequent myocardial function and pathologic pulmonary changes. J. Thor. Surg. 36, 534, 1958.Google Scholar
  130. Rudolph, G., Ionentransport und Ionenwirkung in der Muskelzelle. 27. Tgg. Dtsch. Ges. f. Kreisl.-forsch., Bad Nauheim 1961.Google Scholar
  131. Satter, P., und K. G. Pulver, Herzstillstand, Myokardtemperatur und Herzminutenvolumen. Thoraxchir. 12, 182, 1964.Google Scholar
  132. Schaudig, A., und F. Sebening, Erfahrungen mit induziertem elektrischen Flimmern. Langen-becks Arch. Klin. Chir. 308, 702, 1964.Google Scholar
  133. Schönbach, G., S. Bettge und R. Voss, Die lokale Unterkühlung und ihr Einfluß auf die Funktion des Glykogengehaltes des Herzmuskels. Thoraxchir. 8, 365, 1960.Google Scholar
  134. Schüler, H. W., C. Apostoloroulgs und W. Isselhard, Temperatur und zeitabhängige Metabolitveränderungen im künstlich stillgestellten Meerschweinchenherzen. Pflügers Arch. ges. Physiol. 278, 109, 1964.Google Scholar
  135. Sealy, W. C., W. G. Young jr., I. W. Brown jr., A. Lesage, H. A. Callaway, J. S. Harris and D. H. Merritt, Potassium, magnesium and neostigmine for controlled cardioplegia. Arch. Surg. 77, 33, 1958.CrossRefGoogle Scholar
  136. Sealy, W. C., A. M. Lesage and W. G. Young jr., Tolerance of the profoundly hypothermic dog to complete circulatory standstill. Proc. Soc. Exp. Biol. Med. 102, 691, 1959.Google Scholar
  137. Sebening, F., H. G. Borst, F. A. Sanguinetti und I. Trautschold, Coronarfluß und Stoffwechsel des flimmernden Herzens unter dem Einfluß akuter Überdehnung. Langenbecks Arch. Klin. Chir. 308, 696, 1964.Google Scholar
  138. Senning, A., Ventricular fibrillation during extracorporeal circulation. Acta Chir. Scand. (Suppl.) 171, 1, 1952.Google Scholar
  139. Sergeant, C. K., T. Geoghegan and C. R. LAM, Further studies in induced cardiac arrest using the agent acetylcholine. Surg. Forum 7, 254, 1957.PubMedGoogle Scholar
  140. Shumway, N. E., R. R. Lower and C. Stoffer, Selective hypothermia of the heart in anoxic cardiac arrest. Surg. Gynec. Obstet. 109, 750, 1959.PubMedGoogle Scholar
  141. Smith, P. K., A. W. Winkler and H. E. Hoff, Electrocardiographic changes and concentration of magnesium in serum following intravenous injection of magnesium salts. Am. J. Physiol. 126, 720, 1939.Google Scholar
  142. Speicher, C. E., I. Ferrigan, S. K. Wolfson, E. H. Yalav and A. J. Rawson, Cold injury of myocardium and pericardium in cardiac hypothermia. Surgery, Gynec. Obstet. 114, 659, 1962.Google Scholar
  143. Stoney, R. J., L. C. C. Zanger and B. B. Roe, Myocardial metabolism and ventricular function before and after induced ventricular fibrillation. Surgery 52, 37, 1962.PubMedGoogle Scholar
  144. Szekeres, L., G. Lichner und F. Varga, Ober die verschiedene Empfindlichkeit der rechten und linken Herzkammermuskulatur gegenüber Hypoxie. Arch. Kreislaufforsch. 28, 125, 1958.PubMedCrossRefGoogle Scholar
  145. Taylor, C. B., C. G. Davis jr., G. F. Vawter and G. M. Hass, Controlled myocardial injury produced by a hypothermal method. Circulation (New York) 3, 239, 1951.CrossRefGoogle Scholar
  146. Tountas, C., S. Moulpoulos, M. Frangopoulos and D. Georgiadou, Experimental observations on cardiac arrest induced by anoxia or potassium citrate injection. Bull. Soc. Int. Chir. 19, 10, 1960.PubMedGoogle Scholar
  147. Urschel, H. C., J. J. Greenberg and C. A. Hufnagel, Elective cardioplegia by local cardiac hypothermia. New Engl. J. Med. 261, 1330, 1959.Google Scholar
  148. Waldhausen, J. A., N. S. Braunwald, R. D. Bloodwell, W. P. Cornell and A. G. Morrow, Left ventricular function following elective cardiac arrest. J. Thor. Cardiov. Surg. 39, 799, 1960.Google Scholar
  149. Wasserman, F., M. W. Wolcott, C. G. Wherry and L. Brodsky, Comparative effect of 15% potassium chloride and 30% potassium citrate in resuscitation from ventricular fibrillation following acute myocardial infarction; an experimental study. J. Thor. Cardiov. Surg. 38, 30, 1959.PubMedGoogle Scholar
  150. Weirich, W. L., R. W. Jones and M. F. Burke, The effect of elective cardiac arrest induced by potassium citrate and acetylcholine on ventricular function. Surg. Forum 10, 528, 1960.PubMedGoogle Scholar
  151. Weiss, M., C. Lenfant, J. Rouanet-Weiss, Ch. Dubost, L. Sprovieri, G. Pintos et R. Clanciarulo, Larrêt cardiaque provoqué sous circulation extracorporelle. Etude expérimentale. I. De la méthode de Melrose appliquée à labord chirurgical du ventricule droit. II. Du comportement cardiaque. Presse Med. 1649-1652 u. 1726 - 1729, 1957.Google Scholar
  152. Wesolowski, S. A., J. H. Fisher, J. F. Hennessey, R. Cubiles and C. S. Welch, Recovery of the dogs heart after varying periods of acute ischemia. Surg. Forum 3, 270, 1953.Google Scholar
  153. Willman, V. L., E. C. Neville and C. R. Hanlon, Cardiac metabolism under conditions associated with open-heart operations. I. Coronary sinus flow and myocardial oxygen consumption. Surg. Forum 8, 287, 1958.Google Scholar
  154. Willman, V. L., T. Cooper, P. Zafiracopoulos and C. R. Hanlon, Depression of ventricular function following elective cardiac arrest with potassium citrate. Surgery 46, 792, 1959.PubMedGoogle Scholar
  155. Willman, V. L., T. Cooper, P. Zafiracopoulos and C. R. Hanlon, Prophylactic and thera-peutic use of digitalis in open-heart operation. Arch. Surg. 80, 860, 1960.PubMedCrossRefGoogle Scholar
  156. Willman, V. L., H. S. Howard, T. Cooper and C. R. Hanlon, Ventricular function after hypothermic cardiac arrest. Arch. Surg. 82, 120, 1961.PubMedCrossRefGoogle Scholar
  157. Winckler, A. W., H. E. Hoff and P. K. Smith, Electrocardiographic changes and concentration of potassium in serum following intravenous injection of potassium chloride. Am. J. Physiol. 124, 478, 1938.Google Scholar
  158. Winterscheid, L. C., R. R. Vetto and K. A. Merendino, Myocardial carbohydrate metabolism during induced cardiac arrest and post-arrest perfusion. Ann. Surg. 148, 481, 1958.PubMedCrossRefGoogle Scholar
  159. Young, W. G., W. C. Sealy, I. W. Brown, W. C. Hewitt, H. A. Callaway, D. H. Merritt and J. S. Harris, A method for controlled cardiac arrest as an adjunct to open-heart surgery. J. Thor. Surg. 32, 604, 1956.Google Scholar
  160. Zindler, M., Die künstliche Hypothermie. In: Lehrbuch der Anaesthesiologie. Hrsg. Von R. Frey, W. Hügin, O. Mayrhofer, Berlin—Göttingen—Heidelberg, Springer, 1955.Google Scholar
  161. Zindler, M., Die künstliche Hypothermie in der praktischen Chirurgie. Langenbecks Arch.Klin. Chir. 284, 212, 1956.Google Scholar
  162. Zindler, M., Die Unterkühlungsanaesthesie. In: Handbuch d. Thoraxchirurgie Bd. I. Hrsg. von E. Derra, Heidelberg, Springer, 1958.Google Scholar
  163. Zindler, M., Künstliche Hypothermie für Operationen mit Kreislaufunterbrechung, Entwicklung einer Methode und Ergebnisse bei 100 Vorhofseptumdefekt-Operationen. Habil. schrift, Düsseldorf, 1958.Google Scholar
  164. Zindler, M., Künstliche Hypothermie für »offene« Operationen angeborener Herzfehler. In: Die chirurgische Behandlung der angeborenen Fehlbildungen. Hrsg. von K. Kremer, Stuttgart, Thieme, 1961.Google Scholar
  165. Zindler, M., Der gegenwärtige Stand der Hypothermie. Methoden und Indikationen. Anaesthesist 11, 86, 1962.Google Scholar
  166. Zindler, M., R. Dudziak, S. Eunike, K. G. Pulver und R. Zähle, Erfahrungen bei 1290 künstlichen Hypothermien für Herz-und Gefäßoperationen. Anaesthesist 15, 69, 1966.PubMedGoogle Scholar

Copyright information

© Springer Fachmedien Wiesbaden 1968

Authors and Affiliations

  • Karl-Georg Pulver
    • 1
  1. 1.Abteilung für AnaesthesiologieUniversität DüsseldorfDeutschland

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