|
World Health Organization (WHO) 1974, Florence, Italy.
Goldman LR, Shannon MW. Technical report: mercury in the environment: Implications for pediatricians. American Academy of Pediatrics: Committee on Environmental Health. Pediatrics (2001) Jul;108(1):197-205.
Goldman, LR., Shannon, MW. and the Committee on Environmental Health. Technical Report: Mercury in the Environment: Implications for Pediatricians (RE109907) American Academy of Pediatrics, Pediatrics, Volume 108, Number 1, July 2001, pp 197-205.
Townsend Letter for Doctors, # 213, April 2001.
Dean, J.R. Atomic Absorption and Plasma Spectrometry (2nd edition). John Wiley, UK, 1997.
Passwater, RA. And Cranton, EM. Trace elements, Hair Analysis and Nutrition. Keats Publishing, Inc. New Canan, 1983.
Toxic Trace Metals in Mammalian and Human Hair and Nails, EPA-600 4.049, August 1979, U.S. Environmental Protection Agency, Research and Development. This is a review of 400 studies on hair analysis and toxic metals.
Angerer, J. and Schaller, KH. Analyses of Hazardous Substances in Biological Materials (Volume 4). VCH, Germany, 1994.
Pempkowiak, J. and Kosakowska, A. Accumulation of cadmium by green algae Chlorella vulgaris in the presence of marine humic substances. Environment International Volume 24, Issues 5-6, July-August 1998, Pages 583-588.
Akhtara, N., Iqbalb, J. and Iqbal, M. Removal and recovery of nickel (II) from aqueous solution by loofa sponge-immobilized biomass of Chlorella sorokiniana: characterization studies. Journal of Hazardous Materials Volume 108, Issue 1-2, 30 April 2004, Pages 85-94.
Beceiro-González, E., Taboada-de la Calzada, A., Alonso-Rodríguez, E., López-Mahía, P., Muniategui-Lorenzo, S., and Prada-Rodríguez, D. Interaction between metallic species and biological substrates: approximation to possible interaction mechanisms between the alga Chlorella vulgaris and arsenic (III). TrAC Trends in Analytical Chemistry. Volume 19, Issue 8, August 2000, Pages 475-480.
Morrison, GMP and Florence, TM. Comparison of physicochemical speciation procedures with metal toxicity to chlorella pyrenoidosa. Analytica Chimica Acta, Volume 209, 1988, Pages 97-109.
Rai, LC., Gaur, JP. and Kumar, HD. Protective effects of certain environmental factors on the toxicity of zinc, mercury, and methylmercury to Chlorella vulgaris Environmental Research, Volume 25, Issue 2, August 1981, Pages 250-259.
Mitsuda, H., Nishikawa, Y., Higuchi, M., Nakajima, K., Kawai, F. Effects of breaking of chlorella cells on the digestibility of Chlorella protein. J Jpn Soc Food Nutr. 1977; 30: 93-98.
Norusis, MJ. SPSS Professional Statistics 6.1, SPSS Inc., Chicago, USA, 1994.
Omura Y; Beckman SL. Role of mercury (Hg) in resistant infections & effective treatment of Chlamydia trachomatis and Herpes family viral infections (and potential treatment for cancer) by removing localized Hg deposits with Chinese parsley and delivering effective antibiotics using various drug uptake enhancement methods. Acupunct Electrother Res, 1995 Aug, 20:3-4, 195-229.
Pleochelate – www.sanum.com
Carol, Spindell, Farkas. Importance of interactions between nutrients and environmental contaminants as a factor in experimental design in toxicological research: with emphasis on selenium and ascorbic acid The Science of The Total Environment, Volume 9, Issue 2, March 1978, Pages 149-159.
Ariel, HB., Poliandria, Jimena, P., Cabillaa, Miguel O. Velardeza, Cristian C. A. Bodoa and Beatriz H. Duvilanski. Cadmium induces apoptosis in anterior pituitary cells that can be reversed by treatment with antioxidants. Volume 190, Issue 1, 1 July 2003, Pages 17-24.
Poliandri, AH.,Cabilla, JP.,Velardez, MO.,Bodo CC and Duvilanski, BH. Cadmium induces apoptosis in anterior pituitary cells that can be reversed by treatment with antioxidants. Toxicology and Applied Pharmacology, Volume 190, Issue 1, 1 July 2003, Pages 17-24.
Gurer, H. and Ercal, N. Can antioxidants be beneficial in the treatment of lead poisoning? Free Radical Biology and Medicine, Volume 29, Issue 10, 15 November 2000, Pages 927-945.
Kanno, T.,Shinpo, K and Masada, M. Growth-promoting factor for yeast from an extract of Chlorella vulgaris CK-5 : Seibutsu-kogaku 74: 159–162. 1996.
Wang, LF., Lin, JK and Tung, YC. Effect of Chlorella on the levels of glycogen triglyceride and cholesterol in ethionine treated rats. J Formosan Med. Assoc., 79, 1, 1980.
Mutai, M. Effects of Chlorella phospholipids on the aortic collagen and elastin metabolism and on the serum lipid content in rats with experimental arteriosclerosis. Exper. Mol. Pathol., 37, 150, 1982.
Okuda, M., Hasegawa, J., Sonoda, M., Okabe, T. and Tanaka, Y. The effects of Chlorella on the levels of cholesterol in serum and liver, Jpn. J. Nutr,. 33, 3, 1975.
Hashimoto, S., Setoyama, T., Yokokura, T. and Mutai, M. Effects of soybean phospholipids, Chlorella phospholipids, and clofibrate on collagen and elastin synthesis in the aorta and the serum and liver lipid contests in rats. Exper. Mol. Pathol., 36, 99, 1982.
Sano, t. and Tanaka, Y. Effect of dried, powdered Chlorella vulgaris on experimental atherosclerosis and alimentary hypercholesterolemia in cholesterol-fed rabbits. Artery, 14, 76, 1987.
Sano, T., Kumamoto, Y., Kamiya, N., Okuds, M. and Tanaka, Y. Effects of lipophilic extracts of Chlorella vulgaris on alimentary hyperlipidemia in cholesterol fed rats. Artery, 15, 217, 1988.
Lin, YC. The supplementary effect of algae on the nutritive value of soybean milk. J Formosan Med. Assoc., 68, 15, 1969.
Ishibashi, M. Effects of Chlorella feeding on rats. I. Effects on growth, Bull. Azabu. Vet. Coll., 22, 125, 1971, in Biol Abstr., 54, 9694, 1972.
Miyazawa, Y., Murayama, T., Ooya, N., Wang, LF.,Tung, YC.,Yamaguchi, N. Immunomodulation by unicellular green algae (Chlorella pyrenoidosa) in tumour bearing mice. J Ethnopharmacol. 1988; 24:135-146.
Fink, H. and Harold, E. The protein value of unicellular green algae and their action in preventing liver necrosis, Zeitscher Physiol. Chem., 305, 182, 1956.
Wang, LF., Lin, JK and Tung, YC. Protective effect of Chlorella on the hepatic damage induced by ethionine in rats. J. Formosan Med. Assoc., 78, 1010, 1979.
Kumamoto, S., Method of Human Cell Culture. US patent 4,468,460, 1984.
Pore, RS. Detoxification of chlordecone poisoned rats with Chlorella and Chlorella derived sporopollenin. Drug Chem. Toxicol. 1984; 7 (1): 57-71.
Lee, H.T., Lai., JE and Tung, YC. Hypoglycaemic action of Chlorella, J Formosan Med. Assoc., 76, 272, 1977.
Gray AM, Flatt PR. Insulin-releasing and insulin-like activity of the traditional anti- diabetic plant Coriandrum sativum (coriander). Br J Nutr 1999 Mar;81(3):203-9.
Chithra V, Leelamma S. Coriandrum sativum changes the levels of lipid peroxides and activity of antioxidant enzymes in experimental animals. Indian J Biochem Biophys 1999 Feb;36(1):59-61.
Chithra V, Leelamma S. Hypolipidemic effect of coriander seeds (Coriandrum sativum): mechanism of action. Plant Foods Hum Nutr 1997;51(2): 167-72.
Delaquis PJ, Stanich K, Girard B et al. Antimicrobial activity of individual and mixed fractions of dill, cilantro, coriander and eucalyptus essential oils. Int J Food Microbiol. 2002 Mar 25;74(1-2):101-9.
Kubo I, Fujita K, Kubo A, Nihei K, Ogura T. Antibacterial Activity of Coriander Volatile Compounds against Salmonella choleraesuis. J Agric Food Chem. 2004 Jun 2;52(11):3329-32.
BMC Complementary and Alternative Medicine, Vol 3., p.7., 2003.
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