The Effects of Physical Exercise on the Concentrations of Ferritin 
and Transferrin Receptor in Plasma of Female Judoists

J. Malczewska; W. Bach; R. Stupnicki

doi:10.1055/s-2000-299

International Journal of Sports Medicine, Table of Contents

Int J Sports Med 2000; 21(3): 175-179
DOI: 10.1055/s-2000-299

Physiology and Biochemistry

Georg Thieme Verlag Stuttgart ·New York

The Effects of Physical Exercise on the Concentrations of Ferritin and Transferrin Receptor in Plasma of Female Judoists

J. Malczewska¹ , W. Błach² , R. Stupnicki³

¹ Department of Nutrition Physiology, Institute of Sport, Warsaw, Poland
² Department of Combat Sports, Academy of Physical Education, Wroclaw, Poland
³ Department of Biometry, Academy of Physical Education, Warsaw, Poland

Abstract

The aim of the study was to assess the effect of physical exercise on the changes in concentrations of ferritin and soluble transferrin receptor (sTfR) in plasma in course of 10 consecutive days of a training camp. Ten female elite judoists, aged 17 - 23 years, participated in the study. Mean concentration of ferritin for the 10 day period was 62.8 × 1.633^±1 μg/l, the within-subject, day-to-day variability being very high (13 - 75 %). Ferritin concentrations were significantly correlated with the training load on the preceding day (r = 0.397; p < 0.001). Mean level of sTfR was 2.56 × 1.291^±1mg/l and its within-subject variability was much lower (4 - 16 %). Although the training loads had an effect on the intravascular hemolysis as indicated by a significant, negative correlation between load scores and haptoglobin concentration (r = - 0.282; p < 0.01), the latter was not correlated significantly with sTfR levels. It was concluded that the soluble transferrin receptor is a more stable indicator of iron status under high training loads since, unlike ferritin, it does not respond to the workload on the preceding day. Moreover, the intravascular hemolysis observed in athletes does not affect the sTfR levels in plasma.

Key words:

Exercise, soluble transferrin receptor, ferritin, haptoglobin.

Full Text

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