Haemoglobin, Haematocrit and Red Blood Cell Indices in Elite Cyclists. Are the Control Values for Blood Testing Valid?

Y. O. Schumacher; D. Grathwohl; J. M. Barturen; M. Wollenweber; L. Heinrich; A. Schmid; G. Huber; J. Keul

doi:10.1055/s-2000-3785

International Journal of Sports Medicine, Inhaltsverzeichnis

Int J Sports Med 2000; 21(5): 380-385
DOI: 10.1055/s-2000-3785

Orthopedics and Clinical Science

Georg Thieme Verlag Stuttgart · New York

Haemoglobin, Haematocrit and Red Blood Cell Indices in Elite Cyclists. Are the Control Values for Blood Testing Valid?

Y. O. Schumacher, D. Grathwohl, J. M. Barturen, M. Wollenweber, L. Heinrich, A. Schmid, G. Huber, J. Keul

Department Rehabilitation, Prevention and Sports Medicine, University of Freiburg, Freiburg, Germany

Abstract

Background: In international cycling and cross-country skiing competitions, blood tests are used to unmask the performance enhancing misuse of erythropoietin. Haematocrit (cycling) and haemoglobin (cross-country skiing) limits have been set by international sporting federations (haematocrit 50 %, haemoglobin 18.5 g/dl). Athletes tested above these cut-off values are declared unfit for competition. To investigate the validity of these regulations, we studied haemoglobin, haematocrit and red blood cell indices of elite cyclists before erythropoietin became commercially available. Material and Methods: We investigated 523 blood samples of 92 male elite cyclists (age 16 - 31 years) from 1978 to 1987. Haematocrit, haemoglobin and red blood cell count were analysed automatically, erythrocyte indices were calculated. Results: Haemoglobin (- 0.3 ± 1 g/dl), haematocrit (- 1.2 ± 2.8 %) and red blood cell count (- 0.2 ±0.4 × 10⁶/mm³) decreased significantly (p < 0.05) with increasing training workload. The erythrocyte indices showed no significant change. Fifty-four blood samples (10.3 %) showed a haematocrit above 50 %, one sample presented a haemoglobin mass higher than 18.5 g/dl. During periods of increased workload, less athletes tested above the haematocrit limit. Conclusion: The current haematocrit limit used in blood tests might lead to a high number of false positive tests.

Key words:

Cycling, cross-country skiing, red blood cells, erythropoietin, blood tests.

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Referenzen

References

1 Adamson J W, Vapnek D. Recombinant erythropoietin to improve athletic performance (letter). N Engl J Med. 1991; 324 698-699
2 Anonymous .UCI Press release. Lausanne; UCI 99 A.D 1999
3 Anonymous . “Anaemia” in athletes. (Editorial). Lancet. 1985; 1 1490-1491
4 Anonymous . Normal reference values. N Engl J Med. 1986; 39 314
5 Anonymous . Blood doping. A statement from the Medical Commissionof the International Olympic Committee. Br J Sports Med. 1989; 23 60
6 Anonymous .Undetectable dialysis drug is tied to athletes dead. Los Angeles Times 1990
7 Anonymous .Sporting safety and condition commission. Procedure of the medical examination for the detection of hematocrit. Lausanne; UCI 1997
8 Anonymous .UCI Sporting safety and condition regulations. Lausanne; UCI 1997 Chapter XIII: 13.01.023
9 Audran M, Gareau R, Matecki S, Durand F, Chenard C, Sicart M T, Marion B, Bressolle F. Effects of erythropoietin administration in training athletes and possible indirect detection in doping control. Med Sci Sports Exerc. 1999; 31 639-645
10 Berglund B, Birgegard G, Wide L, Pihlstedt P. Effects of blood transfusions on some hematological variables in endurance athletes. Med Sci Sports Exerc. 1989; 21 637-642
11 Berglund B, Hemmingson P. Effect of reinfusion of autologous blood on exercise performance in cross-country skiers. Int J Sports Med. 1987; 8 231-233
12 Bland J M, Altman D G. Statistical methods for assessing agreement between two methods of clinical measurement. Lancet. 1986; 1 307-310
13 Brien A, Simon T L. The effects of red blood cell infusion on 10 km race time. JAMA. 1987; 257 2761-2765
14 Buick F, Gledhill N, Froese A B, Spriet L, Meyers E C. Effect of induced erythrocythemia on aerobic work capacity. J Appl Physiol. 1980; 48 R636-R642
15 Casoni I, Ricci G, Ballarin E, Borsetto C, Grazzi G, Guglielmini C, Manfredini F, Mazzoni G, Patracchini M, De P V. Hematological indices of erythropoietin administration in athletes. Int J Sports Med. 1993; 14 307-311
16 Celsing F, Svedenhag J, Pihlstedt P, Ekblom B. Effects of anaemia and stepwise-induced polycythaemia on maximal aerobic power in individuals with high and low haemoglobin concentrations. Acta Physiol Scand. 1987; 129 47-54
17 Convertino V A. Blood volume: its adaptation to endurance training (Review). Med Sci Sports Exerc. 1991; 23 1338-1348
18 Convertino V A, Brock P J, Keil L C, Bernauer E M, Greenleaf J E. Exercise training-induced hypervolemia: role of plasma albumin, renin, and vasopressin. J Appl Physiol. 1980; 48 R665-R669
19 Dill D B, Costill D L. Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration. J Appl Physiol. 1974; 37 247-248
20 Dinkelaar R B, Engels E Y, Hart A A, Schoemaker L P, Bosch E, Chamuleau R A. Metabolic studies on erythropoietin (EP): II. The role of liver and kidney in the metabolism of Ep. Exp Hematol. 1981; 9 796-803
21 Eichner E. The anaemia of athletes. Phys Sportsmed. 1986; 14 1490-1491
22 Eichner E. Better dead then second. J Lab Clin Med. 1992; 120 359-360
23 Ekblom B, Berglund B. Effect of erythropoietin administration on maximal aerobic power. Scand Med Sci Sports. 1991; 1 88-93
24 Ekblom B, Goldbarg A N, Gullbring B. Response to exercise after blood loss and reinfusion. J Appl Physiol. 1972; 33 175-180
25 Gareau R, Audran M, Baynes R D, Flowers C H, Duvallet A, Senecal L, Brisson G R. Erythropoietin abuse in athletes (letter). Nature. 1996; 380 113
26 Gore C J, Scroop G C, Marker J D, Catcheside P G. Plasma volume, osmolarity, total protein and electrolytes during treadmill running and cycle ergometer exercise. Eur J Appl Physiol. 1992; 65 302-310
27 Green H J, Sutton J R, Coates G, Ali M, Jones S. Response of red cell and plasma volume to prolonged training in humans. J Appl Physiol. 1991; 70 1810-1815
28 Guglielmini C, Patracchini M, Manfredini F, Grazzi G, Ferrari M, Conconi F. Reduction of Hb levels during the racing season in nonsideropenic professional cyclists. Int J Sports Med. 1989; 10 352-356
29 Hagan R D, Diaz F, Horvath S M. Plasma volume changes with movement to supine and standing positions. J Appl Physiol. 1978; 45 R414-R417
30 Hagan R D, Diaz F J, McMurray R G, Horvath S M. Plasma volume changes related to posture and exercise. Proc Soc Exp Biol Med. 1980; 165 155-160
31 Halberg I, Magnusson B. The etiology of 'sports anaemia'. Acta Med Scand. 1984; 216 145-148
32 Harrison M H. Effects on thermal stress and exercise on blood volume in humans. Physiol Rev. 1985; 65 149-209
33 Harrison M H. Heat and exercise. Effects on blood volume. Sports Med. 1986; 3 214-223
34 Hundling A, Jordal R, Paulev P E. Runner's anaemia and iron deficiency. Acta Med Scand. 1981; 209 315-318
35 Klein H G. Blood transfusion and athletics. Games people play. N Engl J Med. 1985; 312 854-856
36 Marx J J, Vergouwen P C. Packed-cell volume in elite athletes. Lancet. 1998; 352 451
37 Mayer G, Thum J, Cada E M, Stummvoll H K, Graf H. Working capacity is increased following recombinant human erythropoietin treatment. Kidney Int. 1988; 34 525-528
38 Rosenlof K, Gronhagen-Riska C, Sovijarvi A, Honkanen E, Tikkanen I, Ekstrand A, Piirila P, Fyhrquist F. Beneficial effects of erythropoietin on haematological parameters, aerobic capacity, and body fluid composition in patients on haemodialysis. J Int Med. 1989; 226 311-317
39 Saris W H, Senden J M, Brouns F. What is a normal red-blood cell mass for professional cyclists? (Letter). Lancet. 1998; 352 1758
40 Saris W H, van Erp-Baart M A, Brouns F, Westerterp K R, ten Hoor F. Study on food intake and energy expenditure during extreme sustained exercise: the Tour de France. Int J Sports Med. 1989; 10 S26-S31
41 Sawka M N, Joyner M J, Miles D S, Robertson R J, Spriet L L, Young A J. American College of Sports Medicine position stand. The use of blood doping as an ergogenic aid. Med Sci Sports Exerc. 1996; 28 i-viii
42 Schmidt W, Bönning D, Maassen N, Schneider G. Die Bedeutung des Blutvolumens für den Ausdauersportler. Leistungssport. 1994; 5 27-37
43 Schmidt W, Maassen N, Tegtbur U, Braumann K M. Changes in plasma volume and red cell formation after a marathon competition. Eur J Appl Physiol. 1989; 58 453-458
44 Selby G B, Eichner E R. Endurance swimming, intravascular hemolysis, anemia and iron depletion. New perspective on athlete's anemia. Am J Med. 1986; 81 791-794
45 Selby G B, Eichner E R. Hematocrit and performance: the effect of endurance training on blood volume. Sem Hematol. 1994; 31 122-127
46 Weight L M, Darge B L, Jacobs P. Athlete's pseudoanaemia. Eur J Appl Physiol. 1991; 62 358-362
47 Whiting P H, Maughan R J, Miller J D. Dehydration and serum biochemical changes in marathon runners. Eur J Appl Physiol. 1984; 52 183-187
48 Wide L, Bengtsson C, Berglund B, Ekblom B. Detection in blood and urine of recombinant erythropoietin administered to healthy men. Med Sci Sports Exerc. 1995; 27 1569-1576
49 Wilkerson J E, Gutin B, Horvath S M. Exercise-induced changes in blood, red cell, and plasma volumes in man. Med Sci Sports. 1977; 9 155-158
50 Williams W J, Beutler E, Erslev A J, Lichtman M A. Examinations of the blood. In: Haematology. New York; Mc Graw Hill 1986: 9
51 Wishnitzer R, Vorst E, Berrebi A. Bone marrow iron depression in competitive distance runners. Int J Sports Med. 1983; 4 27-30

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