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Edible Microalgae
Health Research
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Contact Us
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Jeffrey Bruno, Ph.D.
Peninsula Child & Youth
Assessment Clinics
(650) 738-0807
Two locations:
80 Eureka Square, Suite 215
Pacifica, CA 94044
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1601 Bayshore Hwy.
Suite 123
Burlingame, CA 94010
Spiralhope@aol.com
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Improved Immune Function
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69. Beisel W. History of nutritional immunology: introduction and overview. Journal of Nutrition. March 1992; 122(3 Suppl):591-6.
70. Beisel W. Nutrition in pediatric HIV infection: setting the research agenda. Nutrition and immune function: Overview. Journal of Nutrition.1996; 126(10 Suppl):2611-15.
71. Sevilla I, Aguiree N. Study on the Effects of Super Blue-Green Algae on the Nutritional Status and School Performance of First-, Second-, and Third-Grade Children Attending the Monseñor Velez School in Nandaime, Nicaragua [doctoral dissertation, in Spanish]. Universidad CentroAmericana, Nicaragua 1995.
72. Bruno J, Gittelman J, Tuchfeld B. Lowered aluminum, with better detoxification and improved cognitive, behavioral ratings by children eating Aphanizomenon flos-aquae. Submitted for publication, 2001.
73. Younghaung W et al. The study on curative effect of zinc-containing blue-green algae for zinc deficient children. Paper presented at the Fifth International Phycological Congress; Qingdao, China; June 1994.
74. Alexander M, Newmark H, Miller R. Oral betacarotene can increase the number of OKT4+ cells in human blood. Immunology Letter. 1985; 9(4):221-4.
75. Abrams, K. Algae to the Rescue. Logan House, 1996:71.
76. Bendich, A. Carotenoids and the immune response. Journal of Nutrition. 1989; 119:112-5.
77. Okai Y, Higashi-Okai K. Possible immunomodulating activities of carotenoids in vitro cell culture experiments. International Journal of Immunopharmacology. December 1996; 18(12):753-8.
78. Qureshi M, Ali R. Spirulina platensis exposure enhances macrophage phagocytic function in cats. Immunopharmacology and Immunotoxicology. 1996; 18(3):457-63.
79. Qureshi M et al. Immune enhancement potential of Spirulina platensis in chickens. Poultry Science. 1994; 73:46.
80. Qureshi M, Garlich J, Kidd M. Dietary Spirulina platensis enhances humoral and cell-mediated immune functions in chickens. Immunopharmacology and Immunotoxicology. 1996;18(3):465-76.
81. Jensen G, Ginsberg D, Huerta P, Drapeau C. Consumption of Aphanizomenon flos-aquae has rapid effects on the circulation and function of immune cells in humans. A novel approach to nutritional mobilization of the immune system. Journal of the American Nutraceutical Association. January, 2000; 2(3)50-8.
82. Drapeau C. Increased macrophage activity observed in college basketball players eating AFA using live blood analysis. Presentation at Klamath Falls, Oregon; August 8, 1998.
83. Hayashi O, Katoh T, Okuwaki Y. Enhancement of antibody production in mice by dietary Spirulina platensis. Journal of Nutritional Science and Vitaminology (Tokyo). October 1994; 40(5):431-41.
84. Hayashi O, Hirahashi T, Katoh T, Miyajima H, Hirano T, Okuwaki Y. Class-specific influence of dietary Spirulina platensis on antibody production in mice. Journal of Nutritional Science and Vitaminology (Tokyo). 1998; 44(6):841-51.
85. Terziev V, Planski B, Encheva I. Use of nonspecific agents and vaccination in bronchopneumonia prevention in cattle. Vet Med Nauki [Bulgarin]. 1983; 20(1):36-9.
86. Manoukian R et al. Effects of the blue-green algae Aphanizomenon flos-aquae (L.) Ralphs on human natural killer cells. In Phytoceuticals: Examining the health benefits and pharmaceutical properties of natural antioxidants and phytochemicals. IBC Library Series 1911, ch. 3.1. Boston, March 1998; 233-41.
87. Jensen G, Ginsberg D, Huerta P, Drapeau C. Consumption of Aphanizomenon flos-aquae has rapid effects on the
circulation and function of immune cells in humans. A novel approach to nutritional mobilization of the immune system. Journal of the American Nutraceutical Association. January 2000; 2(3):50-8.
88. Krylov V et al. Retrospective epidemiological study using medical records to determine which diseases are improved by Aphanizomenon flos-aquae supplements. Submitted for publication, 2000.
89. Horrobin E et al. The nutritional regulation of T-lymphocyte function. Medical Hypotheses 1979; 5:969.
90. Tornabene T et al. Lipid and lipopolysaccharide constitutents of cyanobacterium Spirulina platensis. Ecol Prog Serv. March 1985; 22:121.
91. Cheng-Wu Z, Chao-Tsi T, Zhen Z. The effects of polysaccharide and phycocyanin from Spirulina platensis on peripheral blood and hematopoietic system of bone marrow in mice. Proceedings of the Second Asia-Pacific Conference on Algal Biotechnology. National University of Singapore; 1994:58.
92. Kovats E. Potentiation of HIV envelope glycoprotein and other immunogens by endotoxin and its molecular fragments. International Journal of Immunopharmacology. March 1996; 43(3):248-56.
93. Besednova N, Smolina T, Mikheiskaia L, Ovodova R. Immunostimulating activity of the lipopolysaccharides of blue-green algae. Zhurnal Mikrobiiolgii, Epidemiologii I Immunobiologii (Russian). December 1979; (12):75-9.
94. Abrams K. Algae to the Rescue. Logan House, 1996:75.
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