Buckley, J., et al., “Oral Supplementation with Bovine Colostrum Intact™ Increases Vertical Jump Performance,” Centre for Research in Education and Sports Science, University of South Australia, Australia. Abstract presented at the 4th Annual Congress of the European College of Sports Science. Rome. July 14-17, 1999.
Buckley, J., et al., “Effect of an Oral Bovine Colostrum Supplement (Intact™) on Running Performance,” Centre for Research in Education and Sports Science, University of South Australia. Abstract presented at the 1998 Australian Conference of Science and Medicine in Sport. Adelaide, South Australia, October 1998.
Buckley, J.D., et al., “Oral Supplementation with Bovine Colostrum (Intact™) Improves Rowing Performance in Elite Female Rowers,” Centre for Research in Education and Sports Science, University of South Australia. Abstract presented at the 5th I.O.C. World Congress of Sports Sciences, Syndey.
Mero, A., et al., “Effects of Bovine Colostrum Supplementation on Serum IGF-I, IgG, Hormone, and Saliva IgA During Training,” J Appl Physiol 83.4 (1997) : 1144-51.
Ballard, et.al. “Effects of anabolic agents on protein breakdown.” Biochem J. 1983;210243-249.
Solomons, N.W. “Modulation of the immune system and the response against pathogens with bovine colostrum concentrates.” Eur J Clin Nutr, 2002;56 Suppl 3:S24-28.
Stephan, W., et al. “Antibodies from colostrum in oral immunotherapy.” J Clin Chem Clin Biochem, 1990;28(1):19-23.
Shing Y, Elagabrun M; “Purification and charac. of a bovine colostrum-derived growth factor.” Moloc Endocrinology 1987; 25(3):335-40.
Batish V.K., et al. (1988) Antibacterial activity of lactoferrin against some common food-borne pathogenic organisms. The Australian Journal of Dairy Technology 5, 16-18.
Boudry C., et al. (2008) Bovine colostrum as natural promoter for newly weaned piglets: a review. Biotechnol. Agron. Soc. Environ. 12(2), 157-170.
Britigan B.E., et al. (1994) The role of lactoferrin as an anti-inflammatory molecule. In: Hutchens T.W., Rumball S.V. & Lonnerdal B. Lactoferrin: structure and function, advances in experimental medicine and biology. New York, USA: Plenum Press, 143-156.
Donovan, S.M. and J. Odle (1994) Growth factors in milk as mediators of infant development. Annual Review of Nutrition 14, 147-167.
Elfstrand L. et al. (2002) Immunoglobulins, growth factors and growth hormone in bovine colostrum and the effects of processing. Int. Dairy J. 12, 879-887.
Elson C.O. and K.W. Beagley (1994) Cytokines and immune mediators. In: Johnson L.R. Physiology of the gastro-intestinal tract. 3rd ed. New York, USA: Raven, 243-266.
Hagiwara K. et al. (2000) Detection of cytokines in bovinecolostrum. Vet. Immunol. Immunopathol., 76, 183-190.
Harmsen M.C., et al. (1995) Antiviral effects of plasma and milk proteins: Lactoferrin shows potent activity against both human immunodeficiency virus and human cytomegalo-virus replication in vitro. Journal of Infectious Diseases 172, 380-388.
Hill I.R. and P. Porter (1974) Studies of bactericidal activity to Escherichia coli of porcine serum and colostral immunoglobulins and the role of lysozyme with secretory IgA. Immunology 26, 1239-1250.
Hulea S.A., et al. (1989) Interaction of lactoperoxidase with enzymes and immunoglobulins in bovine milk. Biochem. Int. 19, 1173-1181.
Kussendrager K.D. and A.C.M. van Hooijdonk (2000) Lactoperoxidase: physico-chemical properties, occurrence, mechanism of action and applications. Br. J. Nutr. 84(S1), S19-S25.
Mach J.P. and J.J. Pahud (1971) Secretory IgA, a major immunoglobulin in most bovine external l secretions. Journal of Immunology 106, 552-563.
Pakkanen R. and J. Aalto (1997) Review Paper: Growth Factors and Antimicrobial Factors of Bovine Colostrum. Int. Dairy Journal 7, 285-29.
Rainard P. (1986) Bacteriostatic activity of bovine milk lactoferrin against mastic bacteria. Veterinary Microbiology 11, 387-392.
Reiter B. (1978) Reviews of the progress of dairy science: antimicrobial systems in milk. J. Dairy Res. 45, 131-147.
Rosen, S. (1989) Transforming growth factor-β. Multiple actions and potential clinical applications. Journal of the American Medical Association 18, 938-941.
Shams, D. (1994) Growth factors in milk. Endocrine Regulations 28, 3-8.
Thapa B.R. (2005). Therapeutic potentials of bovine colostrums. Indian J Pediatr. Oct;72(10):849-52.
Tripathi V. and B. Vashishtha (2006) Bioactive compounds of bovine colostrum. Food Rev. Int. 22, 225-244.
Viljoen M. (1995) Lactoferrin: a general review. Haematologica 80, 252-267.
Yamauchi K., et al. (1993) Antibacterial activity of lactoferrin and a pepsin-derived lactoferrin peptide fragment. Infect. Immun. 61, 719-728.
Gleeson, M. et al. (2011) The anti-inflammatory effects of exercise: mechanisms and implications for the prevention and treatment of disease. Nature Reviews 11:607-615.
N. P. Walsh et al (2011) Position statement. Part one: Immune function and exercise. Exercise Immunology Review.
Pakkanen R & Aalto J (1997) Growth factors and antimicrobial factors of bovine colostrum. International Dairy Journal 7:285-297.
G. Davison & sediment B.C. (2010) Bovine colostrum supplementation attenuates the decrease of salivary lysozyme and enhances the recovery of neutrophil function after prolonged exercise. British Journal of Nutrition 103:1425-1432.
Davison, G. (2013) Bovine colostrum and immune function after exercise. Medicine and Sports Science 59:62-69.
G. P. Lambert (2008) Intestinal barrier dysfunction, endotoxemia and gastrointestinal symptoms during exercise-heat stress. Medicine and Sports Science 53:61-73.
Marchbank et al. (2011) The nutriceutical bovine colostrum truncates the increase in gut permeability caused by heavy exercise in athletes. American Journal of Physiology 300:G477-G484.