Abstract
It has been reported that bovine colostrum (BC) supplementation improves buffer capacity (β) during exercise, but whether the improvement results from changes in tissue and/or blood buffer systems has not been determined. The purpose of the present study was to examine the effect of supplementation with BC on blood buffer systems. Thirteen elite females rowers were supplemented with 60 g·day−1 of either BC (n=6) or whey protein (WP, n=7) during 9 weeks of pre-competition training in a randomised, double-blind, placebo-controlled, parallel design. All subjects undertook the study as a group and completed the same training program. Resting haemoglobin (Hb) concentration and plasma buffer capacity (pβ) (determined by titration with HCl) were measured pre- and post-supplementation. There were no differences in macronutrient intakes (P>0.56) or training volumes (P>0.99) between BC and WP during the study period. There were no differences in Hb [BC 13.28 (0.28) mg·dl−1, WP 13.70 (0.26) mg·dl−1; P=0.45] or pβ [BC 14.8 (1.1) nmol HCl·ml−1·pH−1, WP 14.8 (0.5) nmol HCl·ml−1·pH−1; P=0.68] between groups at week 0. pβ increased in both groups during the study period (P<0.001), but the increases were not significantly different between groups (P=0.52). Hb did not change significantly in either group (P=0.35). These data indicate that supplementation with BC does not affect pβ or Hb. We therefore suggest that adaptations in tissue buffer systems are responsible for the previously reported increases in buffer capacity that result from BC supplementation.
This is a preview of subscription content, log in via an institution to check access.
References
Beaver WL, Wasserman K, Whipp BJ (1986) Bicarbonate buffering of lactic acid generated during exercise. J Appl Physiol 60:472–478
Brinkworth GD, Buckley JD, Bourdon PC, Gulbin JP, David AZ (2002) Oral bovine colostrum supplementation enhances buffer capacity but not rowing performance in elite female rowers. Int J Sport Nutr Exerc Metab 12:349–363
Fiorotto ML, Davis TA, Reeds PJ, Burrin DG (2000) Nonnutritive factors in colostrum enhance myofibrillar protein synthesis in the newborn pig. Pediatr Res 48:511–517
Pakkanen R, Aalto J (1997) Growth factors and antimicrobial factors of bovine colostrum. Int Dairy J 7:285–297
Parkhouse WS, McKenzie DC, Hochachka PW, Mommsen TP, Ovalle WK (1983) The relationship between carnosine levels, buffering capacity, fibre type and anaerobic capacity in elite athletes. In: Knuttgen H, Vogel JA, Poortmans J (eds) Biochemistry of exercise, International series on sport sciences No. 13. Human Kinetics, Champaign, Ill., pp 590–594
Penev M, Kereshka P (1988) Effect of body position on laboratory hematological indices. Vutr Boles 27:69–72
Sahlin K, Henricksson J (1984) Buffer capacity and lactate accumulation in skeletal muscle of trained and untrained men. Acta Physiol Scand 122:331–339
Sharp RL, Armstrong LE, King DS, Costill DL (1983) Buffer capacity of blood in training and untrained males. In: Knuttgen H, Vogel JA, Poortmans J (eds) Biochemistry of exercise, International series on sport sciences No. 13. Human Kinetics, Champaign, Ill., pp 595–599
Acknowledgements
Numico Research Australia (Adelaide, Australia) provided partial funding for this study. The authors declare there are no conflicts of interest regarding this work.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Brinkworth, G.D., Buckley, J.D. Bovine colostrum supplementation does not affect plasma buffer capacity or haemoglobin content in elite female rowers. Eur J Appl Physiol 91, 353–356 (2004). https://doi.org/10.1007/s00421-003-1023-z
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00421-003-1023-z