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DOI: 10.1055/s-2007-965071
© Georg Thieme Verlag KG Stuttgart · New York
Validity of the Modified Conconi Running Test
Publication History
accepted after revision October 4, 2006
Publication Date:
05 July 2007 (online)
Abstract
The aim of this study was to assess the validity of a fast ramp treadmill protocol for determination of the heart rate deflection point (HRdp) and speed of deflection (Sdp) in trained runners. Fifty-one trained male runners performed a standard (Tstand; speed increase 1 km · h-1 every 60 s) and a fast (Tfast; speed increase 1 km · h-1 every 30 s) incremental treadmill test until volitional exhaustion. Heart rate was continuously recorded, and the HRdp was estimated after data averaging as the point of deflection in the linear speed/HR relationship. The HRdp and Sdp recorded in Tfast were compared with the corresponding values obtained in Tstand by examining the Student's t-test, correlation coefficient (r), and limits of agreement (LoA). The HRdp recorded during standard and fast treadmill protocol were highly correlated (r = 0.92, p < 0.001) and similar to each other (p = 0.79). In contrast, Sdp was highly correlated (r = 0.91, p < 0.001), but increased significantly with the faster ramp function (p < 0.001). No evidence of systematic bias was evident in the HRdp (95 % LoA of 0.2 ± 7.3 bpm), while a uniform, systematic bias was evident for Sdp in the Tfast (95 % LoA of 1.6 ± 1.5 km · h-1). We conclude that a fast ramp treadmill protocol (speed increase 1 km · h-1 every 30 s) may be used for determination of the HRdp in trained runners, while Sdp is protocol dependent and caution is warranted regarding its practical applicability.
Key words
heart rate - anaerobic threshold - Conconi test - ramp test - validity
References
- 1 Ballarin E, Borsetto C, Cellini M, Patracchini M, Vitiello P, Ziglio P, Conconi F. Adaptation of the “Conconi test” to children and adolescents. Int J Sports Med. 1989; 10 334-338
- 2 Ballarin E, Sudhues U, Borsetto C, Casoni I, Grazzi G, Guglielmini C, Manfredini F, Mazzoni G, Conconi F. Reproducibility of the Conconi test: test repeatability and observer variations. Int J Sport Med. 1996; 17 520-524
- 3 Bland J M, Altman D G. Statistical methods for assessing agreements between two methods of clinical measurement. Lancet. 1986; 1 307-310
- 4 Bodner M E, Rhodes E C. A review of the concept of heart rate deflection point. Sports Med. 2000; 30 31-46
- 5 Borsetto C, Ballarin E, Casoni I, Cellini M, Vitiello P, Conconi F. A field test for determining the speed obtained through anaerobic glycolysis in runners. Int J Sports Med. 1989; 10 339-345
- 6 Brisswalter J, Legros P. Daily stability in energy cost of running, respiratory parameters and stride rate among well-trained middle distance runners. Int J Sports Med. 1994; 15 238-244
- 7 Cellini M, Vitiello P, Nagliati A, Ziglio P G, Martinelli S, Ballarin E, Conconi F. Noninvasive determination of the anaerobic threshold in swimming. Int J Sports Med. 1986; 7 347-351
- 8 Conconi F, Ferrari M, Ziglio P G, Droghetti P, Codeca' L. Determination of the anaerobic threshold by a noninvasive field test in runners. J Appl Physiol. 1982; 52 869-873
- 9 Conconi F, Grazzi G, Casoni I, Guglielmini C, Borsetto C, Ballarin E, Mazzoni G, Patracchini M, Manfredini F. The Conconi test: methodology after 12 years of application. Int J Sport Med. 1996; 17 509-519
- 10 Droghetti P, Borsetto C, Casoni I, Cellini M, Ferrari M, Paolini A R, Ziglio P G, Conconi F. Noninvasive determination of the anaerobic threshold in canoeing, cross-country skiing, cycling, roller and ice-skating, rowing, and walking. Eur J Appl Physiol. 1985; 53 299-303
- 11 Droghetti P. Determination of the anaerobic threshold on a rowing ergometer by the relationship between work output and heart rate. Scand J Sports Sci. 1986; 8 59-62
- 12 Grazzi G, Alfieri N, Borsetto C, Casoni I, Manfredini F, Mazzoni G, Conconi F. The power output/heart rate relationship in cycling: test standardization and repeatability. Med Sci Sports Exerc. 1999; 31 1478-1483
- 13 Hofmann P, Bunc V, Leitner H, Pokan R, Gaisl G. Heart rate threshold related to lactate turn point and steady-state exercise on a cycle ergometer. Eur J Appl Physiol. 1994; 69 132-139
- 14 Hofmann P, Pokan R, Preidler K, Leitner H, Szolar D, Eber B, Schwaberger G. Relationship between heart rate threshold, lactate turn point, and myocardial function. Int J Sports Med. 1994; 15 232-237
- 15 Hofmann P, Pokan R, von Duvillard S P, Seibert F J, Zweiker R, Schmid P. Heart rate performance curve during incremental cycle ergometer exercise in healthy young male subjects. Med Sci Sports Exerc. 1997; 29 762-768
- 16 Jones A M, Doust J H. The Conconi test is not valid for estimation of the lactate turnpoint in runners. J Sports Sci. 1997; 15 385-394
- 17 Leger L, Tokmakidis S P. Use of the heart rate deflection point to assess the anaerobic threshold. J Appl Physiol. 1988; 64 1758-1759
- 18 Lepretre P M, Foster C, Koralsztein J P, Billat V L. Heart rate deflection point as a strategy to defend stroke volume during incremental exercise. J Appl Physiol. 2005; 98 1660-1665
- 19 Maffulli N, Sjodin B, Ekblom B. A laboratory method for noninvasive anaerobic threshold determination. J Sports Med Phys Fitness. 1987; 27 419-423
- 20 Petit M A, Nelson C M, Rhodes E C. Comparison of a mathematical model to predict 10-km performance from the Conconi test and ventilatory threshold. Can J Appl Physiol. 1997; 22 562-572
- 21 Pokan R, Hofmann P, von Duvillard S P, Smekal G, Hogler R, Tschan H, Baron R, Schmid P, Bachl N. The heart rate turn point reliability and methodological aspects. Med Sci Sports Exerc. 1999; 31 903-907
- 22 Pokan R, Hofmann P, Lehmann M, Leitner H, Eber B, Gasser R, von Duvillard S P, Beaufort F, Schumacher M, Fruhwald F M, Zweiker R, Eber B, Gasser R, Schwaberg G, Schmid P, Keul J, Klein W. Left ventricular function in response to the transition from aerobic to anaerobic metabolism. Eur J Appl Physiol. 1995; 70 175-179
- 23 Pokan R, Hofmann P, Von Duvillard S P, Beaufort F, Smekal G, Gasser R, Klein W, Eber B, Bachl N, Schmid P. The heart rate performance curve and left ventricular function during exercise in patients after myocardial infarction. Med Sci Sports Exerc. 1998; 30 1475-1480
- 24 Ribeiro J P, Fielding R A, Hughes V, Black A, Bochese M A, Knuttgen H G. Heart rate break point may coincide with the anaerobic and not the aerobic threshold. Int J Sports Med. 1985; 6 220-224
- 25 Scott C B, Bogdanffy G M. Aerobic and anaerobic energy expenditure during exhaustive ramp exercise. Int J Sports Med. 1998; 19 277-280
- 26 Tokmakidis S P, Leger L A. Comparison of mathematically determined blood lactate and heart rate ‘threshold’ points and relationship with performance. Eur J Appl Physiol. 1992; 64 309-317
- 27 Ušaj A. The influence of endurance training on the results of the Conconi test. Kinesiology. 1995; 27 32-37
- 28 Vachon J A, Bassett Jr D R, Clarke S. Validity of the heart rate deflection point as a predictor of lactate threshold during running. J Appl Physiol. 1999; 87 452-459
- 29 Weston S B, Gray A B, Schneider D A, Gass G C. Effect of ramp slope on ventilation thresholds and VO2peak in male cyclists. Int J Sports Med. 2002; 23 22-27
- 30 Whipp B J, Davis J A, Torres F, Wasserman K. A test to determine parameters of aerobic function during exercise. J Appl Physiol. 1981; 50 217-221
- 31 Zacharogiannis E, Farrally M. Ventilatory threshold, heart deflection point and middle distance running performance. J Sports Med Phys Fitness. 1993; 33 337-347
Dr. Goran Markovic
Department of Kinesiology of Sport
Faculty of Kinesiology
University of Zagreb
Horvacanski zavoj 15
10000 Zagreb
Croatia
Phone: + 38 5 13 65 86 06
Fax: + 38 5 13 63 41 46
Email: gmarkov@kif.hr