<strong>Spiroergometrie</strong> – Physiologie und Term<strong>in</strong>ologie Kle<strong>in</strong> W, Schmid P. Left ventricular function <strong>in</strong> response to the transition from aerobic to anaerobic metabolism. Med Sci Sports Exerc 1997; 29: 1040–7. 16. Itoh H, Taniguchi K, Koike A, Doi M. Evaluation of severity of heart failure us<strong>in</strong>g ventilatory gas analysis. Circulation 1990; 81 (Suppl II): II31–II37. 17. Franciosa JA, Park M, Leviane TB. Lack of correlation between exercise capacity and <strong>in</strong>dexes of rest<strong>in</strong>g left ventricular performance <strong>in</strong> heart failure. Am J Cardiol 1981; 47: 33–9. 18. Schmidt RF, Thews G. Physiologie des Menschen. 24 th ed. Spr<strong>in</strong>ger, Berl<strong>in</strong>, 1990; 611– 59. 19. Myers J, Buchanan N, Walsh D, Kraemer M, McAuley P, Hamilton-Wessler M, Froelicher VF. Comparison of the ramp versus standard exercise protocols. J Am Coll Cardiol 1991; 17: 1334–42. 20. McConnell TR, Clark PA. Prediction of maximal oxygen consumption dur<strong>in</strong>g handrailsupported treadmill exercise. J Cardiopulm Rehabil 1987; 7: 324–31. 21. Milani RV, Lavie CJ, Spiva H. Limitations of estimat<strong>in</strong>g metabolic equivalents <strong>in</strong> exercise assessment <strong>in</strong> patients with coronary artery disease. Am J Cardiol 1995; 75: 940–2. 22. Sullivan MJ, Genter F, Savvides M, Roberts M, Myers J, Froelicher V. The reproducibility of hemodynamic, electrocardiographic, and gas exchange data dur<strong>in</strong>g treadmill exercise <strong>in</strong> patients with stable ang<strong>in</strong>a pectoris. Chest 1984; 86: 375–82. 23. Taylor HL, Buskirk E, Heuschel A. Maximal oxygen <strong>in</strong>take as an objective measurement of cardiorespiratory performance. J Appl Physiol 1955; 8: 73–80. 24. Myers J, Walsh D, Sullivan M, Froelicher V. Effect of sampl<strong>in</strong>g on variability and plateau <strong>in</strong> oxygen uptake. J Appl Physiol 1990; 68: 404– 10. 25. Fleg JL, Lakatta EG. Role of muscle loss <strong>in</strong> the age-associated reduction <strong>in</strong> V . O 2max . J Appl Physiol 1988; 65: 1147–51. 26. Buchfuhrer MJ, Hansen JE, Rob<strong>in</strong>son TE, Sue DY, Wasserman K, Whipp BJ. Optimiz<strong>in</strong>g the exercise protocol for cardiopulmonary assessment. J Appl Physiol 1983; 55: 1558–64. 27. Ba<strong>der</strong> DS, Maguire TE, Balady GJ. Comparison of ramp versus step protocol for exercise test<strong>in</strong>g <strong>in</strong> patients ≥ 60 years of age. Am J Cardiol 1999; 83: 11–4. 28. Zhang Y-Y, Johnson MC, Chow N, Wasserman K. Effect of exercise test<strong>in</strong>g protocol on parameters of aerobic function. Med Sci Sports Exerc 1991; 23: 625–30. 29. P<strong>in</strong>a IL, Balady GJ, Hanson P, Labovitz AJ, Madonna DW, Myers J. Guidel<strong>in</strong>es for cl<strong>in</strong>ical exercise test<strong>in</strong>g laboratories – A statement for healthcare professionals from the Committee on Exercise and Cardiac Rehabilitation, American Heart Association. Circulation 1995; 91: 912–21. 30. Hermansen L, Salt<strong>in</strong> B. Oxygen uptake dur<strong>in</strong>g maximal treadmill and bicycle exercise. J Appl Physiol 1969; 26: 31–7. 31. Verstappen FTJ, Huppertz RM, Snoeckx LHEH. Effect of tra<strong>in</strong><strong>in</strong>g specificity on maximal treadmill and bicycle ergometer exercise. Int J Sports Med 1982; 3: 43–6. 32. Reuter M, Waßermann K. Überprüfung <strong>der</strong> Validität von Parametern zur spiroergometrischen Differenzierung e<strong>in</strong>er zirkulato-risch von e<strong>in</strong>er ventilatorisch bed<strong>in</strong>gten Leistungslimitierung. Pneumologie 1997; 51: 353–8. 33. Markov G, Spengler CM, Knöpfli-Lenz<strong>in</strong> C, Stuessi C, Boutellier U. Respiratory muscle tra<strong>in</strong><strong>in</strong>g <strong>in</strong>creases cycl<strong>in</strong>g endurance without affect<strong>in</strong>g cardiovascular response to exercise. J Appl Physiol 2001; 85: 233–9. 34. Sullivan MJ, Cobb FR. The anaerobic threshold <strong>in</strong> chronic heart failure. Circulation 1990; 81 (Suppl II): II47–II58. 35. Wasserman K. New concepts <strong>in</strong> assess<strong>in</strong>g cardiovascular function. Circulation 1988; 78: 1060–71. 36. Jenn<strong>in</strong>gs GL, Esler MD. Circulatory regulation at rest and exercise and the functional assessment of patients with congestive heart failure. Circulation 1990; 81 (Suppl II): II5–II13. 37. Wasserman K, Beaver W, Whipp BJ. Gas exchange theory and the lactic acidosis (anaerobic) threshold. Circulation 1990; 81 (Suppl II): II14–II30. 38. Beaver Wl, Wasserman K, Whipp BJ. A new method for detect<strong>in</strong>g anaerobic threshold by gas exchange. J Appl Physiol 1986; 60: 2020–7. 39. Wasserman K, Str<strong>in</strong>ger WW, Casaburi R, Koike A, Cooper CB. Determ<strong>in</strong>ation of the anaerobic threshold by gas exchange: biochemical consi<strong>der</strong>ations, methodology and physiological effects. Z Kardiol 1994; 83 (Suppl 3): 1–12. 40. Dickste<strong>in</strong> K, Barvik S, Aarsland T, Snapp<strong>in</strong>n S, Karlsonn J. A comparison of methodologies <strong>in</strong> detection of the anaerobic threshold. Circulation 1990; 81 (Suppl II): II-38–II-46. 41. Sullivan M, Genter F, Savvides M, Roberts M, Myers J, Froelicher V. The reproducibility of hemodynamic, electrocardiographic and gas exchange data dur<strong>in</strong>g treadmill exercise <strong>in</strong> patients with stable ang<strong>in</strong>a pectoris. Chest 1984; 86: 375–81. 42. Gitt AK, W<strong>in</strong>ter UJ, Fritsch J, Pothoff G, Sedlak M, Ehrmanns S, Ostmann H, Hilger HH. Vergleich <strong>der</strong> vier verschiedenen Methoden zur respiratorischen Bestimmung <strong>der</strong> anaeroben Schwelle bei Normalpersonen, Herz- und Lungenkranken. Z Kardiol 1994; 83 (Suppl 3): 37–42. 43. Gaskill SE, Ruby BC, Walker AJ, Sanchez OA, Serfass RC, Leon AS. Validity and reliability of comb<strong>in</strong><strong>in</strong>g three methods to determ<strong>in</strong>e ventilatory threshold. Med Sci Sports Exerc 2001; 33: 1841–8. 44. Aunola S, Rusko H. Does anaerobic threshold correlate with maximal lactate steady-state? J Sports Sci 1992; 10: 309–23. 45. Davis A, Bassett J, Hughes P, Gass GC. Anaerobic threshold and lactate turnpo<strong>in</strong>t. Eur J Appl Physiol 1983; 50: 383–92. 46. Sk<strong>in</strong>ner JS, McLellan TH. The transition from aerobic to anaerobic metabolism. Res Quart Exerc Sport 1980; 51: 234–48. 47. Wonisch M, Hofmann P, Fruhwald FM, Hödl R, Schwaberger G, Pokan R, von Duvillard SP, Kle<strong>in</strong> W. Effect of β 1 -selective adrenergic blockade on maximal blood lactate steady state <strong>in</strong> healthy men. Eur J Appl Physiol 2002; 87: 66–71. 48. Hofmann P, Pokan R, Preidler K, Leitner H, Szolar D, Eber B, Schwaberger G. Relationship between heart rate threshold, lactate turn po<strong>in</strong>t and myocardial function. Int J Sports Med 1994; 15: 232–7. 49. Hofmann P, Pokan R, von Duvillard SP, Seibert FJ, Zweiker R, Schmid P. Heart rate performance curve dur<strong>in</strong>g <strong>in</strong>cremental cycle ergometer exercise <strong>in</strong> healthy young male subjects. Med Sci Sports Exerc 1997; 29: 762–8. 50. Bodner ME, Rhodes EC. A review of the concept of the heart rate deflection po<strong>in</strong>t. Sports Med 2000; 30: 31–46. 51. Pokan R, Hofmann P, von Duvillard SP, Smekal G, Högler R, Tschan H, Baron R, Schmid P, Bachl N. The heart rate turn po<strong>in</strong>t reliability and methodological aspects. Med Sci Sports Med 1999; 31: 903–7. 52. Conconi F, Grazzi G, Casoni I, Borsetto C, Ballar<strong>in</strong> E, Mazzoni G, Patracc<strong>in</strong>i M, Manfred<strong>in</strong>i F. The Conconi test: methodology after 12 years of application. Int J Sports Med 1996; 17: 509–19. 53. Aunola S, Rusko H. Comparison of two methods for anaerobic threshold determ<strong>in</strong>ation. Eur J Appl Physiol 1988; 57: 420–4. 54. Wonisch M. E<strong>in</strong>fluß von kardioselektiver Beta-Rezeptoren-Blockade auf die körperliche Leistungsfähigkeit und das subjektive Empf<strong>in</strong>den unter beson<strong>der</strong>er Berücksichtigung <strong>der</strong> anaeroben Schwelle bei jungen gesunden Männern. Dissertation an <strong>der</strong> Karl-Franzens- Universität Graz, 2002. 55. Wonisch M, Hofmann P, Schwaberger G, von Duvillard SP, Fruhwald FM, Hödl R, Stoschitzky K, Pokan R, Kle<strong>in</strong> W. Effect of bisoprolol versus placebo on different concepts of anaerobic threshold <strong>in</strong> healthy men. Med Sci Sports Exerc 2001; 33: 27. 56. Lucía A, Hoyos J, Pérez M, Chicharro JL. Heart rate and performance parameters <strong>in</strong> elite cyclists: a longitud<strong>in</strong>al study. Med Sci Sports Exerc 2000; 32: 1777–82. 57. Zacharogiannis E, Farrally M. Ventilatory threshold, heart rate deflection po<strong>in</strong>t and middle distance runn<strong>in</strong>g performance. J Sports Med Phys Fitness 1993; 33: 337–47. 58. Sun X-G, Hansen JE, Oudiz RJ, Wasserman K. Exercise pathophysiology <strong>in</strong> patients with primary pulmonary hypertension. Circulation 2001; 104: 429–35. 59. Nevy LE, Wasserman K, Andrews JD, Huntsman DJ, Hansen JE, Whipp BJ. Ventilatory and gas exchange k<strong>in</strong>etics dur<strong>in</strong>g exercise <strong>in</strong> chronic airway obstruction. J Appl Physiol 1982; 53: 1594–602. 60. Smith RF, Johnson G, Ziesche S. Functional capacity <strong>in</strong> heart failure: comparison of methods for assessment and their relation to other <strong>in</strong>dexes of heart failure. The V-HeFT VA Cooperative Studies Group. Circulation 1993; 87: VI88–VI93. 61. Hansen JE, Sue DY, Oren A, Wasserman K. Relation of oxygen uptake to work rate <strong>in</strong> normal men and men with circulatory disor<strong>der</strong>s. Am J Cardiol 1987; 59: 669–74. 62. W<strong>in</strong>ter UJ, Gitt AK, Blaum M, Fritsch J, Berge PG, Pothoff G, Hilger HH. Kardiopulmonale Leistungsfähigkeit bei Patienten mit koronarer Herzkrankheit. Z Kardiol 1994; 83 (Suppl 3): 73–82. 63. Braunwald E. Control of myocardial oxygen consumption: physiologic and cl<strong>in</strong>ical consi<strong>der</strong>ations. Am J Cardiol 1971; 27: 416–21. 64. Lev<strong>in</strong>e BD. Exercise physiology for the cl<strong>in</strong>ician. In: Thompson PD (ed). Exercise & Sports Cardiology. McGraw-Hill, New York, 2001; 3–29. 65. Löllgen H, Dirschedl P, Fahrenkrog U. Belastungsprogramme <strong>in</strong> <strong>der</strong> <strong>Spiroergometrie</strong>. Z Kardiol 1994; 83 (Suppl 3): 43–50. 66. Ashley EA, Myers J, Froelicher V. Exercise test<strong>in</strong>g <strong>in</strong> cl<strong>in</strong>ical medic<strong>in</strong>e. Lancet 2000; 356: 1592–7. 67. Will PN, Walter JD. Exercise test<strong>in</strong>g: improv<strong>in</strong>g performance with a ramped Bruce protocol. Am Heart J 1999: 138: 1033–7. 68. Hansen JE, Sue DY, Wasserman K. Predicted values for cl<strong>in</strong>ical exercise test<strong>in</strong>g. Am Rev Resp Dis 1984 (Suppl); 129: S49–S55. 390 J KARDIOL 2003; 10 (9)
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