Research related to IgG 115
• Barnes RMR Harvey MM Blears J et al, IgG Subclass of Human Serum Antibodies Reactive with Dietary Proteins, Int Archs Allergy appl. Immun, 1986.
• Cohen GA Hartman F Hamburger RN et al, Severe Anemia and chronic Bronchitis associated with a Markedly Elevated Specific IgG to Cow’s Milk Protein, Annals of Allergy, July 1985.
• Haddad, Vetter, Friedman, Samz, Brunner, Detection and kinetics of antigen-specific IgE and IgG immune complexes in food allergy, Annal of Allergy, August 1993.
• Kemeny RD Urbanek R Amlot PL et al, Sub-class of IgG in allergic disease, I IgG subclass antibodies in immediate and non-immediate food allergy, Clinical Allergy, 1986.
• Morgan JE, Daul CB, Lehrer SB, The relationships among shrimp-specific IgG subclass antibodies and immediate adverse reactions to shrimp challenge, J Allergy Clin Immunol, September 1990.
• Niggemann, B. et al, Outcome of double-blind, placebo controlled food challenge tests in 107 children with atopic dermatitis, Clin Exp Allergy, January 1999.
• Rafei A, Peters S, Harris N, and Bellani J, Food allergy and food-specific IgG measurement, Annals of Allergy,
February 1989.
Research related to Candida
• Abu-Elteen KH. The influence of dietary carbohydrates on in vitro adherence of four Candida species to human buccal epithelial cells. Microb Ecol Health Dis 2005; 17: 156-62.
• Jarvis WR. Epidemiology of Nosocomial Fungal Infections, with Emphasis on Candida Species. Clinical Infectious Diseases. 1995;20(6):1526-1530.
• Kennedy, M. J. and Volz, P.A., Effect of various antibiotics on gastrointestinal colonization and dissemination by Candida albicans, Sabouraudia, 23, 265–274, 1985.
• Lehmann PF, Reiss E. Comparison by Elisa of serum anti-Candida albicans mannan IgG levels of a normal population and in diseased patients. Mycopathologia. 1980;70(2):89-93.
• Montagna MT, Caggiano G, Borghi E, Morace G. The Role of the Laboratory in the Diagnosis of Invasive Candidiasis. Drugs. 2009;69(Supplement 1):59-63.
• Pires MFC, Corra B, Gambale W, Paula CR. Experimental model of Candida albicans (serotypes A and B) adherence in vitro. Braz J Microbiol 2001; 32: 163-9.
• Pizzo G, Giuliana G, Milici ME, Giangreco R. Effect of dietary carbohydrates on the epithelial adhesion of Candida albicans, Candida tropicalis, and Candida krusei. New Microbiol 2000; 23: 63-71.
• Seelig MS. The role of antibiotics in the pathogenesis of Candida infections. The American Journal of Medicine. 1966;40(6):887-917.
• Seligmann, E., Virulence enhancement of Candida albicans by antibiotics and cortisone. Proc. Soc. Exp. Biol. Med., 1953. 83: p. 778–781. 68.
• Vojdani A, Rahimian P, Kalhor H, Mordechai E. Immunological cross reactivity between Candida albicans and human tissue. J Clin Lab Immunol. 1996;48(1):1-15.