Mc Lafferty 1974 In Ginger

Masuda, T. (1997) Anti-inflammatory antioxidants from Tropical Zingiberaceae Plants (curcumi-noids). In: Risch, S.J. and. Ho, C.T. (eds.) Spices: Flavor Chemistry and Antioxidant Properties, ACS Symp. Series, 660: 219-233, Amer. Chem. Soc., Washington: D.C.

Masuda, T., Matsumura, H., Oyama, Y., and Takeda, Y (1998) Synthesis of ( + ) cassumunins A and B, new curcuminoids antioxidants having protective activity on the living cell against oxidative damage. J. Nat. Prod., 61, 609-613.

Mathew, A.G., Krishnamurthy, N., Nambudiri, E.S., and Lewis, YS. (1973) Oil of ginger. Flavour Ind., 4(5), 226-229.

McLafferty, F.W. (1988) Wiley/NBS Registry of Mass Spectral Data. 4th ed. Wiley & Sons, New York.

McLafferty, F.W., and Stauffer, D.B. (1992) Wiley/NBS Registry of Mass Spectral Data. Wiley & Sons, New York. Bench-top/PBM Version 3.0.

Meireles, M.A.A., and Nikolov, Z.L. (1994) Extraction and fractionation of essential oils with liquid carbon dioxide (LCO2). In: Charalambous, G. (ed) Spices, Herbs and Edible Fungi, Elsevier, Amsterdam, 34, 171-199.

Menon, A.N., and Rao, J.M. (1991) Synthesis and odor characteristics of new aroma chemicals from zingiberene. J. Essent. Oil. Res., 3, 159-163.

Menon, A.N., and Rao, J.M. (1993) A process for the preparation of 1-(1,5-dimethyl-5-substi-tuted hexyl)-4-methylbenzenes from zingiberene Pat. IN 172,138 A, date 1993 04 17, Appl. IN 1987-DE923 and Pat. IN 172,214 A, date 1993 05 08, Appl. 1987-DE1168.

Metz, C., and Cupp, M.J. (2000) Ginger. Toxicol. Clin. Pharmacol. Herb. Prod. pp. 123-131.

Meyer-Warnod, B. (1984) Natural essential oils. Perfum. Flavorist, 9, 93.

Millar, J.G. (1998) Rapid and simple isolation of zingiberene from ginger essential oil. J. of Nat. Prod., 61 (18), 1025-1026.

Mills, A. (1952). Correlation between monocyclic and polycyclic unsaturated compounds from molecular rotation differences. J. Chem. Soc., 4976.

Mitra, C.R. (1975) Important Indian spices. III. Ginger (Zingiberaceae). Riechst. Aromen Koerperp-flegem., 25 (6), 170.

Molyneux, F. (1971) Ginger—a natural flavor essence. Aust. Chem. Process. Eng., 24 (3), 29, 31, 33-34.

Mookherjee, S.M. (1942) Synthesis experiments in the zingiberene group. I. II. Science and Culture, 8, 190—191.

Mookherjee, S.M. (1948) Sesquiterpenes. II. Synthesis of zingiberene. J. Indian Chem. Soc., 25, 155—164.

Mookherjee, S.M., and Battacharyya, N.K. (1953) Terpenoids. I. Synthesis of the gross structure of zingiberene. J. Am. Chem. Soc., 75, 4698—4700.

Mosandl, A. (1992) Capillary gas chromatography in quality assessment of flavours and fragrances. J. Chromatogr., 624, 267—292.

Moshonas, M.G., and Lund, E.D. (1970) Mass spectra of sesquiterpene hydrocarbons. Flavour Ind., 1 (6), 375—378.

Moyler, D.A. (1984) Carbon dioxide extracted ingredients for fragrances. Perfum. Flavorist, 9, 109.

Moyler, D.A., Browning, R.M., and Stephens, M.A. (1994) Carbon dioxide extraction of essential oils. In: Charalambous, G. (ed) Spices, Herbs and Edible Fungi, Elsevier, Amsterdam, 34, 145—170.

Murakami, A., Nakamura, Y, Ohto, Y., Tanaka, T., Makita, H., Koshimizu, K., and Ohigashi, H. (1999a) Cancer preventive phytochemicals from tropical Zingiberaceae. In: Whitaker J.R. (ed.) Food Health Pac. Rim. Int. Conf. Food Sci. Technol., 3rd 1997, 125—133. Food & Nutrition Press. Turnbull: Conn. USA

Murakami, A., Takahashi, M., Jiwajinda, S., Koshimizu, K., and Ohigashi, H. (1999b) Identification of zerumbone in Zingiber zerumbet Smith as a potent inhibitor of 12-o-tetradecanoylphor-bol-13-acetate-induced Epstein-Barr virus activation. Biosci. Biotechnol. Biochem., 63 (10), 1811—1812.

Mustafa, T., Sriwastava, K.C., and Jensen, K.B. (1993) Drug development report. 9. Pharmacology of ginger. Zingiber officinale. J. of Drug Dev., 6 (1), 25—39.

Naik, S.N., and Maheshwari, R.C. (1989) Separation of essential oils from plant materials by liquid carbon dioxide. V.T.T. Symp., 102, 355.

Nakatani, N. (1994) Antioxidative and antimicrobial constituents of herbs and spices. In: Charalambous, G. (ed.) Spices, Herbs and Edible Fungi, 34, 251—284, Elsevier Science, Amsterdam: Netherlands.

Nakatani, N. (1995) Chemistry and properties of pungent compounds. Koryo, 185, 59—64.

Nakatani, N., Inatani, R., Ohta, H., and Nishioka, A. (1986) Antifungal effect of Zingerenone against Pyricularia oryzae. Environ Health Perspect., 67, 135—142.

Nakatani, N., and Kikuzaki, H. (2002) Antioxidants in ginger family. ACS Symposium Series, Quality Management of Nutraceuticals, 803, 230—240.

Nakazawa, T., and Ohsawa, K. (2002) Metabolism of (6)-gingerol in rats. Life Sci., 70 (18), 2165-2175.

Narayanan, C.S., and Mathew, A.G. (1985) Chemical investigation on spice oils. Indian Perfum., 29 (1-2), 15-22.

Natarajan, C.P., Bai, R.P., Krishnamurthy, M.N., Raghavan, B., Shankaracharya, N.B., Kup-puswany, S., Govindarajan, V.S., and Lewis, Y.S. (1972) Chemical composition of ginger varieties and dehydration studies on ginger. J. Food Sci. Technol., 9 (3), 120-124.

National Institute of Standards and Technology (1992) NIST/EPA/NIH Mass Spectral Data Base, PC Version 4.0, Nist (62.500 entries) Gaitherburg, MA.

Ney, K.H. (1990a) Aromagrams of spices. Ahmenta, 29 (5), 91-93, 95-100.

Ney, K.H. (1990b) Aromagrams of spices. Part 2. Alimenta, 29 (6), 117-125.

Ni, M., Chen, Z., and Yan, B. (1988) Synthesis of optically active sesquiterpenes and exploration of their antifertility effect. Huadong Huagong Xueyuan Xuebao, 14, 675-679.

Nigam, I.C., and Levi, L. (1963) Column- and gas-chromatographic analysis of the oil of wild ginger. Identification and estimation of some new constituents. Can. J. Chem., 41 (7), 1726-1730.

Nigam, M.C., Nigam, I.C., Levi, L., and Handa, K.L. (1964) Essential oils and their constituents. XXII. Detection of new trace components in oil of ginger. Can. J. Chem., 42 (11), 2610-2615.

Nishimura, O. (2001) Enantiomer separation of the characteristic odorants in Japanese fresh rhizomes of Zingiber officinale Roscoe (ginger) using multi-dimensional GC system and confirmation of the odor character of each enantiomer by GC-olfactometry. Flavour Fragrance J. 16 (1), 13-18.

Nomura, H. (1917) Pungent principles of ginger. I. A new ketone zingerone (4 hydroxy-3-methoxyphenyl ethylmethyl ketone) occurring in ginger. J. Chem. Soc., 17, 769-776.

Nomura, H., and Tsurami, S. (1926) Structure of shogaol. Proc. Imp. Acad. Tokyo, 2: 229.

Nomura, H., and Iwamoto, K. (1928) Pungent principles of ginger. V. Distillation of methyl gingerol. Sci. Rep. Tohoku Imp. Univ., 17, 973-984.

Nomura, H., Iwamoto, K., and Murakami, K. (1929) Determination of the double bond of shogaol. Sci. Rep. Tohoku Imp. Univ., 18, 601.

Ohkubo, K., Tagaki, Y, Takatoku, H., Hori, K., Kumoku, H., and Shibuya, Y (2000) Ceramide production-accelerating agent. Eur. Pat. Appl. EP 993,822 (Cl. A61K7/48) 19 Apr 2000, JP Appl. 1999/122,402, 28 Apr 1999.

Oka, N., Sakata, K., and Watanabe, N. (1997) Disaccharide glycosides of mono-terpenols as aroma precursors from rose flowers. In: Schreier, P. (ed) Nat. Prod. Anal. Vieweg, Wiesbaden, Germany. pp. 357-361.

Okwu, D.E. (2001) Evaluation of the chemical composition of indigenous spices and flavoring agents. Global J. Pure Appl. Sci., 7 (3), 455-459.

Okwuowulu, P.A., and Nnodu, E.C. (1988) Some effects of pre-storage chemical treatments and age at harvesting on the storability of fresh ginger rhizomes (Zingiber officinale Roscoe). Trop. Sci., 28, 123-125.

Omanakutty, M., Sankarikutti, B., Rao, J., and Naryanan, C.S. (1987) Terpeneless pepper and ginger oil. Indian Perfum., 31 (4), 354-365.

Onogi, T., Minami, M., Kuraishi, Y., and Satoh, M. (1992) Capsaicin-like effect of (6)-shogaol on substance P-containing primary afferents of rats: a possible mechanism of its analgesic action. Neuropharmacology, 31, 1165-1169.

Onyenekwe, P.C. (2000) Assessment of oleoresin and gingerol contents in gamma irradiated ginger rhizomes. Nahrung, 44 (2), 130-132.

Onyenekwe, P.C., and Hashimoto, S. (1999) The composition of the essential oil of dried Nigerian ginger (Zingiber officinale). Z. Lebensm.-Unters. Forsch. A: Food Res. and Technol., 209 (6), 407—410.

Opdyke, D.L.J. (1974) Monographs on fragrance raw materials. Food Cosmet. Toxixol., 12, Suppl. 901-902.

Paquette, L.A., and Kinney, W.A. (1982) A new synthon for the regiospecific Y-alkylation of 2-cyclohexenones. Application to the synthesis of zingiberenol and oxygenated bicyclo (3.3.1) nonanes. Tetrahedron Lett., 23 (2), 131-134.

Pellerin, P. (1991) Supercritical fluid extraction of natural raw materials for the flavor and perfume industry. Perf. Flavor., 16 (4), 37-39.

Peng, P. (1992) Pharmacology and clinical application of Zingiber officinale. Zhongguo Zhongyao Zashi, 17 (3), 370-373.

Petitjean, M., Vernin, G., and Metzger, J. (1983) Mass spectra bank of volatile compounds occurring in food flavors. In: Charalambous, G. and Inglett, G. (eds.) Instrumental Analysis of Foods: Recent Progress, 1, 97-124, Academic Press, New York.

Pliva, J., Horak, M., Herout, V., and Sorm, F. (1960) T. 1. Sesquiterpene, S10-S11. In: Sammlung der Spectrum und Physikalischen Konstanten. Akademie Verlag, Berlin.

Prachi, S., Tilak, R., and Singh, B.M. (2002) Salicylic acid induced insensitivity to culture filtrate of Fusarium oxysporum f. sp. Zingiberi in the calli of Zingiber officinale Roscoe. Eur. J. Plant Pathol.,

Pusrseglove, J.W., Brown, G.G., Green, C.L., and Robbins, S.R.J. (1981) Spices. Vol. I and II, Longman, New York.

Raghuveer, R.G., and Govindarajan, V.S. (1979) Gingerols from decomposition of shegaols. J. Food Qual. 2, 41.

Rani, K. (1999) Cyclization of farnesyl pyrophosphate into sesquiterpenoids in ginger rhizomes (Zingiber officinale). Fitoterapia, 70 (6), 568-574.

Registry of Mass Spectral Data (1974) in (eds.) Stenhagen, E., Abrahamson, S., McLafferty, F.W., Wiley and Sons, New York.

Rogacheva, S., Kuntcheva, M., Obretenov, T., and Vernin, G. (1998) Formation and structure of melanoidins in foods and model systems. In: O'Brien, J., Nursten, E.E., Crabbe, M.J.C., and Ames, J.M. (eds) The Maillard Reaction in Foods and Medicine. Royal Society of Chemistry, Cambridge, U.K., pp. 89-93.

Rosella, M.A., de Pfirter, G.B., and Mandrile, E.L. (1996) Ginger (Zingiber officinale Roscoe, Zingiberaceae): Ethnopharmacognosy, cultivation, chemical composition and pharmacology. Acta Pharm. Bonaerense, 15 (1), 35-42.

Roy, B.C., Goto, M., and Hirose, T. (1996) Extraction of ginger oil with supercritical carbon dioxide. Experiments and modeling. Ind. Eng. Chem. Res., 35, 607-612.

Ruedi, P., and Juch, M. (1999) Chemistry and biological activities of long-chain alkoxy-catechols of the (n) gingerol-type. Curr. Organic Chem., 3 (6), 623-646.

Ruzicka, L., and Van Veen, E.G. (1929) Higher terpene compounds. XXXVI. Constitution of zingiberene. Ann. 468, 143-162.

Ryage, R., and Von Sydow, E. (1963) Mass spectrometry of terpenes. I. Monoterpene hydrocarbons. Acta Chem. Scand., 17, 2025-2035.

Sadtler Research Laboratories. (1985) The Sadtler Standard gas chromatography retention index library. Division of Bio-Rad laboratories, Philadelphia.

Sane, R.T., Phadke, M., Hijli, P.S., Shah, M., and Patel, P.H. (1998) Geographical variation study on gingerol (a pungent principle from Zingiber officinale) and ginger oil, using HPTLC technique and accelerated stability study on gingerol from Zingiber officinale using HPTLC method. Indian Drugs, 35 (1), 37-44.

Sankarikutty, B., and Narayanan, C.S. (1990) Molecular encapsulation of fresh ginger flavor. In: Duchene, D. (ed) Minutes Int. Symp. Cyclodextrins. 5th ed. Sante, Paris, pp. 600—603.

Sano, T., Okada, J., Suzuki, K., and Shibuya, Y (2001) Antiaging cosmetics. Jpn. Kokai Tokkyo Koho, JP 2001 58,920 (Cl. A61K7/00) 6 March, 2001. Appl. 1999/233,745 20 Aug. 1999.

Saunders, W.J., and Seidel, J.L. (1992) New synthesis of pungent principles of ginger-zingerone and shogaol. J. Agric. Food Chem., 40, 263—265.

Sawada, S., and Hosokawa, T. (2000) Zerumbones and their anti-proliferative activity to cultures mouse t-lymphoma cells, EL 4. Bull. Kyoto Univ. Educ., Ser B. 95/96, 11—17.

Sawada, S., Yokoi, T., and Kitayama, T. (2002) Woody fragrance made from a wild ginger: the chemistry of zerumbone. Aroma Res., 3 (1), 34—39.

Schuhbaum, H., Burgermeister, J., Paper, D.H., and Franz, G. (2000) Anti-inflammatory activity of Zingiber officinale extracts. Pharm. Pharmacol. Lett., 10 (2), 82—85.

Sekiwa, I.Y, Aizawa, Y., and Kubota, K. (2001a) Geraniol dehydrogenase activity related to aroma formation in ginger (Zingiber officinale Roscoe). J. Agric. Food Chem., 49 (12), 5902—5906.

Sekiwa, I.Y, Kobayama, A., Kubota, K., and Takenaka, M. (2001b) First isolation of geranyl disaccharides from ginger and their relations to aroma formation. Nat. Prod. Lett., 15 (4), 267-274.

Sekiwa, I.Y., Mikami, N., Kubota, K., and Kobayashi, A. (2001c) Formation of geraniol and related compounds in ginger. Special Publication. Royal Society of Chemistry Food Flavors, 274, 305-312.

Shankaracharya, N.B., and Shankaranarayana, M.L. (1987) Chromatographic deterpenation of ginger and pepper oils. PAFAI J., 9 (1), 13-16.

Shanmugasundaram, K.R., Ramanujam, S., and Shanmugasundaram, E.R. (1994) Amrita Bindu-a salt-spice-spice-herbal health food supplement for the prevention of nitrosamine induced depletion of antioxidants. J. Ethnopharmacol., 42, 83-93.

Sharma, J.N., Srivastava, K.C., and Gan, E. (1994) Suppressive effects of eugenol and ginger oils on arthritic rats. Pharmacology, 49 (5), 314-318.

Sharma, J.N., Ishak, F.I., Yusof, A.P.M., and Srivastava, K.C. (1997) Effects of eugenol and ginger oil on adjuvant arthritis and the kallikreins in rats. Asia Pacific J. Pharmacol., 12 (1-2), 9-14.

Sheen, L.Y., Lin, S.Y, and Tsai, S.J. (1992a) Odor assessments for volatile compounds of garlic and ginger essential oils by sniffing gas chromatography. Zhongguo Nongye Huaxue Huizhi, 30

Sheen, L.Y., Lin, S.Y., and Tsai, S J. (1992b) Properties of essential oil microcapsules prepared by phase separation/coacervation. Zhongguo Nongye Huaxue Huizhi, 30 (3), 307-320.

Shen, Y, Wu, H., and Ma, X. (1983) Improvement of the apparatus for determination of the volatile oil content. Zhongcaoyao, 14 , 497-498.

Shibamoto, T. (1987) Retention indices in essential oil analysis. In: Sandra, P., and Bicchi, C. (eds.) Capillary Gas Chromatography in Essential Oil Analysis, Huethig Verlag, Heidelberg, 8, 259-274.

Shoji, N., Iwasa, A., Takemoto, T., Ishida, Y., and Ohizumi, Y (1982) ) Cardiotonic activity of gingerols. J. Pharm. Sci., 71, 1174-1175.

Singh, G., Kapoor, I.P.S., Pandey, S.K., Singh, O.P., Singh, U.K., and Singh, R.K. (2001) A note on antibacterial activity of volatile oils of some aromatic plants. Indian Perfum., 45 (4), 275-278.

Sirat, H., and Leh, N.H.N. (2001) The rhizome oil of Zingiber spectabile Valet. J. Essent. Oil Res., 13 (4), 256-257.

Smith, B., and Ohlson, R. (1962) Acta Chem. Scand., 16, 351.

Smith, R.M., and Robinson, J.M. (1981) The essential oil of ginger from Fiji. Phytochemistry, 20

Spiro, M., and Kandiah, M. (1989) Extraction of ginger rhizome. Kinetic studies with acetone. Int. J. Food Sci. Technol., 24, 589.

Srivastava, K., and Mustafa, T. (1989) Ginger (Zingiber officinale) and rheumatic disorders. Med. Hypotheses, 29, 25-28.

Srivastava, K., and Mustafa, T. (1992) Ginger in rheumatism and muscoskeletal disorders. Med. Hypotheses, 39, 342-348.

Srivastava, K., Srivastava, S.K., and Shah, N.C. (2000) Essential oil composition of Zingiber zerumbet (L.) Sm from India. J. Essent. Oil Res., 12, 595-597.

Stahl, E. (1962) Dunnschicht Chromatographie. Springer Verlag, Berlin.

Stahl, E. (1967) Dunnschicht Chromatographie, 2nd ed., Springer Verlag, Berlin.

Suekawa, M., Ishige, A., Yuasa, K., Sudo, K., Aburada, M., and Hosoya, E. (1984) I. Pharmacological actions of pungent constituents, (6)-gingerol and (6)-shogaol. Pharmacobiodynamics, 836-848.

Suekawa, M., Yuasa, K., Isomo, M., Sone, H., Ikeya, Y., Sakakibara, I., Aburada, M., and Hosoya, E.(1986) Pharmacological studies on ginger. IV. Effect of (6)-shogaol on the arachidonic cascade. Nippon Yakurigaku Zasshi, Folia Pharmacol. Japan, 88, 263-269.

Surch, YJ., Park, K-K., Chun, K-S., Lee, J-M., Lee, E., and Lee, S.S. (1999) Anti-tumor promoting activities of selected pungent phenolic substances present in ginger. J. Environ. Pathol. Toxicol. Oncol., 18 (2), 131-139.

Swigar, K.A., and Silverstein, R.M. (1981) Monoterpenes, IR, MS, 1H-NMR and 13C NMR, and Kovats indices. Aldrich Chem. Co., Milwaukee.

Takacsova, M., Kristiana, K., Nguyen, D.V., and Dang, M.N. (2000) Antioxidant activity of ginger extract in ground pork patties. Czech. J. Food Sci., 18 (Spec. Issue), 155-156.

Takeoka, G., Flath, R.A., Mon, T.R., Buttery, R.G., Teranishi, R., Guentert, M., Lantamo, R., and Szejtli, J. (1990) Further application of permethylated ß-cyclodextrin capillary gas chromatographic columns. J. High Resolution Chromatogr., 13 (3), 202-206.

Tanabe, M., Yasuda, M., Adachi, Y., and Kano, Y (1991) Capillary gas chromatography-mass spectra analysis of volatile components in Japanese gingers. Shoyakugaku Zasshi, 45 (4), 321-326.

Tanabe, M., Chen, Y.D., Saito, K., and Kano, Y. (1993) Cholesterol biosynthesis inhibitory component from Zingiber officinale Roscoe. Chem. Pharm. Bull. Tokyo, 41, 710-713.

Tanaka, T., Shimizu, M., Kohno, H., Yoshitani, S.I., Tsukio, Y, Murakami, A., Safitri, R., Takahashi, D., Yamamoto, K., Koshimizu, K., Ohigashi, H., and Mori, H. (2001) Chemopre-vention of azomethane-induced rat aberrant crypt foci by dietary zerumbone isolated from Zingiber zerumbet. Life Science, 69, 1935-1945.

Taveira Magalhaes, M., Koketsu, M., Goncalves, S.L., Duarte, F.R., Godoy, R.L.O., and Lopes, D. (1997a) Brazilian ginger: General aspects, essential oil and oleoresin. 1. General aspects, essential oil. Ciencia e tecnologia de Alimentos, 17 (1), 64-69.

Taveira Magalhaes, M., Koketsu, M., Goncalves, S.L., Cornejo, F.E.P., and Marques, L.M.R. (1997b) Brazilian ginger (Zingiber officinale Roscoe): General aspects, essential oil and oleoresin. 2. Drying essential oil and oleoresin. Ciencia e tecnologia de Alimentos, 17 (2), 132-136.

Teisseire, P. (1991) Chimie des Substances Odorantes, Technique et Documentation, Lavoisier, 11, rue Lavoisier 75384 Paris Cedex 08. English translation.

Terhune, S.J., Hogg, J.W., Bromstein, A.C., and Lawrence, B.M. (1974) Int. Congr. Essent. Oils Paper 6th, 153: 9p. Allured Publ. Corp. Oak Park, CA: USA.

Terhune, S.J., Hogg, J.M., Bromstein, A.C., and Lawrence, B.M. (1975) Four new sesquiterpene analogs of common monoterpenes. Can. J. Chem., 53 (21), 3285-3293.

Thomas, A.F., and Willham, B. (1964) Mass spectra of monoterpenoid hydrocarbons. Helv. Chim. Acta, 47 (2), 475-88.

Thompson, E.H., Wolf, I.D., and Allen, C.E. (1974) Ginger rhizome a new source of proteolytic enzyme. J. Food. Sci., 38, 652—655.

Tjendraputra, E., Tran, V.H., Liu-Brennan, D., Roufogalis, B.D., and Duke, C.C. (2001) Effect of ginger constituents and synthetic analogues on cyclooxygenase. 2. Enzyme in intact cells. Bioorg. Chem., 29, 156—163.

Tomi, F., Bradest, P., Bighelli, A., and Casanova, J. (1995) Computer-aided identification of individual components of essential oils using carbon 13C-NMR spectroscopy. J. Magnet. Resol. Anal., 25-34.

Toofanian, F., and Stegeman, H. (1988) Comparative effect of ethylene oxide and gamma irradiation of the chemical, sensory and microbial quality of ginger, cinnamon, fennel and fenugreek. Acta Aliment., 17 (4), 271-281.

Tucker, A.O., and Maciarello, M.J. (1994) MS of some natural and synthetic flavor and fragrance compounds. In: Charalambous, G. (ed) Spices, Herbs and Edible Fungi, Elsevier, Amsterdam, pp. 605-656.

Vahira-Lechat, I., Menut, C., Lamaty, G., and Bessiere, J.M. (1996) Huiles essentielles de Polynésie Française. Rivista. Ital. EPPOS, (Special Edition), 627-638.

Van Beek, T.A. (1991) Special methods for the essential oil of ginger. In: Linkens, H.F. and Jackson, J.F. (eds.) Modern Methods of Plant Analysis: Essential Oils and Waxes, Springer Verlag, Berlin: Heidelberg, 12, 79-97.

Van Beek, T.A., Posthumus, M.A., Lelyveld, G.P., Hoang, V.P., and Yen, B.T. (1987) Investigation of the essential oil of Vietnamese ginger. Phytochemistry, 26 (11), 3005-3010.

Van den Dool, H., and Kratz, P.D. (1963) A generalization of the retention index system including linear temperature programmed gas-liquid partition chromatography. J. Chromatogr., 11, 463-471.

Variyar, P.S., Gholap, A.S., and Thomas, P. (2000) Estimation of pungency in fresh ginger: A new fluorimetric assay. J. Food Compos. Anal. 13 (3), 219-225.

Varma, K.R., Jain, T.C., and Bhattacharyya, S.C. (1962) Terpenoids. XXXIV. Structure and stereo chemistry of zingiberol and juniper camphor. Tetrahedron, 18, 974-984.

Verma, S.K., Singh, J., Khamesra, R., and Bordia, A. (1993) Effect of ginger on platelet aggregation in man. Indian J. Med. Res., 98, 240-242.

Vernin, G. (1970) La Chromatographie en Couche Mince. Techniques et Applications en Chimie Organique, Dunod, Paris. Hungarian translation, originally published in 1970 as Vekonyreteg-Kro-matographia: A Serves Kemiaban, Müskaki Konyvkiado, Budapest.

Vernin, G. (ed) (1982) The Chemistry of Heterocyclic Flavouring and Aroma Compounds. Ellis Horwood, Chichester, U.K.

Vernin, G., and Parkanyi, C. (1994) Ginger oil (Zingiber officinale Roscoe). In: Charalambous, G. (ed) Spices, Herbs and Edible Fungi, Elsevier Science, Amsterdam, 34, 579-594.

Vernin, G., and Petitjean, M. (1982) Mass spectrometry of heterocyclic compounds used for flavourings. In: Vernin, G. (ed) The Chemistry of Heterocyclic Flavouring and Aroma Compounds, Ellis Horwood, Chichester, U.K., pp. 305-342.

Vernin, G., Petitjean, M., Poite, J.C., and Metzger, J. (1986) Mass spectra and Kovats indices data bank of volatile aroma compounds. In: Vernin, G., and Chanon, M. (eds.) Computer Aids to Chemistry, Ellis Horwood, Chichester, U.K., 7, 294-333.

Vernin, G., Petitjean, M., Metzger, J., Fraisse, D., Suon, K.N., and Scharff, C. (1987) Gas Chromatography-Mass Spectrometry of essential oils. 1. Computer matching techniques. In: Sandra, P., and Bicchi, C. (eds) Capillary Gas Chromatography in Essential Oil Analysis, Huethig Verlag, Heidelberg, 10, 287-328.

Vernin, G., Debrauwer, L., Vernin, G.M.F., Zamkostian, R.M., Metzger, J., Larice, J.L., and Parkanyi, C. (1992) Heterocycles by thermal degradation of some Amadori intermediates. In: Charalambous, G. (ed) Off-Flavours in Foods and Beverages, Elsevier Science, Amsterdam, 567-624.

Vernin, G., Lageot, C., and Parkanyi, C. (1998) GC-MS (EI, PCI NCI, SIM, ITMS) data bank analysis of flavors and fragrances. Kovats indices. In: Wetzel, D., and Charalambous, G. (eds) Instrumental Methods in Food and Beverages Analysis, 39, Elsevier Science, Amsterdam, 245-301.

Von Soden, H., and Rojahn, W. (1900a) Abstr. Chem. Soc., 78, 605 (Cited from Eschenmoser, A. and Schinz, H., 1950).

Von Soden, H., and Rojahn, W. (1900b) Pharm. Ztg., Berlin, 45, 414 (Cited from Eschenmoser, A. and Schinz, H., 1950).

Von Sydow, E. (1963) Mass spectra of monoterpene alcohols. Acta Chem. Scand., 17, 2504-2512.

Von Sydow, E. (1964) Mass spectra of monoterpene aldehydes and ketones. Acta Chem. Scand., 18, 1099-1104.

Von Sydow, E. (1965) Mass spectra of monoterpene esters. Acta Chem. Scand., 19, 2063-2088.

Von Sydow, E., Anjou, K., and Carison, G. (1970) Archives of Mass Spectra Data, Swedish Institute for Food Preservation Research, Fack, Gothenburg, Sweden.

Wang, J., Chen, Z., Yan, B., and Ji, R. (1990) Synthesis of optically active sesquiterpenes R-(~) ar-curcumene and substituted zingiberenes. Zhongguo Yaowu Xuaxue Zasshi, 1 (1), 49-53.

Wang, W. (2001) Antioxidant properties of four vegetables with sharp flavor. Shipin Yu Fajiao Gongye, 27, 28-31.

Weidner, M.S. (2000) Novel pharmaceuticals, diaraty supplements and cosmetic containing fatty acids and zingiber extract for the treatment of prevention of inflammation, hypersensitivity reactions or pain. Pat. WO 2000,051,576, date 2000-09-08, Appl. WO 2000-DK87. PCI. Int. Appl.

Wen, Z., Yu, D., and Lu, Q. (2001) Study on antioxidation of ginger oil in concentrated fish oil. Zhongguo Youzhi, 26 (4), 58-60.

Wenninger, J.A., Yates, R.L., and Dolinsky, M. (1967) High resolution infrared spectra of some naturally occurring sesquiterpene hydrocarbons. J. Assoc. Off. Anal. Chem., 50 (6), 1313-1335.

Wiley & Sons. (1988) CD Rom System, DC Rom System for Mass Spectral Data, New York.

Wilkinson, J.M. (2000) Effect of ginger tea on the fetal development of SpragueDawley rats. Reprod. Toxicol., 14, 507-512.

Wu, P., Kuo, M.C., and Ho, C.T. (1990) Glycosidically bound aroma compounds in ginger (Zingiber officinale Roscoe) . J. Agric Food Chem., 38, 1553-1555.

Wu, H., Ye, D.J., Zhao, YZ., and Wang, S.L. (1993) Effect of different preparations of ginger on a blood coagulation time in mice. J. Chinese Mat. Med., 18, 147-149.

Wu, T.S., Wu, YC., Wu, P.L., Chem, C.Y., Leu, YL., and Chan, Y.Y. (1998) Structure and synthesis of (n)-dehydroshogaol from Zingiber officinale. Phytochemistry, 48, 889-891.

Yamada, H., Harada, K., Nakamura, S., and Mihara, S. (1987) Use of retention index. Mass spectral search for identification of the volatiles in fragrances. J. S.C.C.J., 21 (1), 30-35.

Yamahara, J., Hatakeyama, S., Taniguchi, K., Kawamura, M., and Yoshikawa, M. (1992) Stomach ache principles in ginger. II. Pungent and anti-ulcer effects of the low polar constituents isolated from ginger, the dried rhizoma of Zingiber officinale Roscoe, cultivated in Taiwan. The absolute stereo structure of a new diaryl heptanoid. Yakugaku Zasshi, 112, 645-655.

Yamahara, J., Matsuda, H., Yamaguchi, S., Shimoda, H., Murakami, N., and Yoshikawa, M. (1995) Pharmacological study on ginger processing. I. Antiallergic activity and cardiotonic action of gingerols and shogaols. Nat. Med. (Tokyo) 49 (1), 76-83.

Yamamoto, M., Takeda, F., and Maruo, T. (1990) Preservation of grated ginger. Jpn. Kokai Tokkyo Koho, Pat. JP 02,107,151 A2, date 1990-04-19; Pat JP 2,549,902 B2, date 1996-10-30.

Yamara, J., Mochizuki, M., Rong, H.Q., Matsuda, H., and Fujimara, H. (1988) The antiulcer effects in rats of ginger constituents. J. Ethnopharmacol., 23, 299—304.

Yang, X., Xiao, S., Yang, Z., Du, L., Bi, K., Chen, D., Wang, Z., and Zou, Y. (2001) Chemical constituents of refined Evodia rutaecarpa capsule. Beijing Daxue Xuebao, Yixuebar, 33 (3), 280-282.

Yao, Y., Jin, B., and Liu, H. (2000) Extraction and separation of effective components from ginger by supercritical carbon dioxide. Faming Zhuanli Shenqing Gongkai Shuomingshu, CN 1,251,367 (Cl. C07G17/00) date 26 Apr 2000, Appl. 99,117,040 date August 20, 1999.

Ye, D., Ding, A., and Guo, R. (1989) Research on the constituents of ginger in different preparations. Zhongguo Zhongyao Zasshi, 14 (5), 278-280.

Yonei, Y, Ohinata, H., Yoshida, R., Shimizu, Y., and Yokoyama, C. (1995) Extraction of ginger flavor with liquid or supercritical carbon dioxide. J. Supercritical Fluids, 8 (2), 156-161.

Yoshikawa, M., Hatakeyama, S., Chatani, N., Nishino, Y, and Yamahara, J. (1994) Qualitative and quantitative analysis of bioactive principles in Zingiberis rhizoma by means of high performance liquid chromatography and gas liquid chromatography. On the evaluation of Zingiberis rhizoma and chemical change of constituents during Zingiberis rhizoma processing. Yakugaky Zasshi, 114 (4), 307-310.

Yu, Z., Wu, H., and Ding, J. (1998) Volatile chemical components of fresh Zingiber officinale. Yunnan Zhiwu Yanjiu, 20 (1), 113-118.

Yukawa, Y, and Ito, S. (eds.) (1973) Spectral Atlas of Terpenes and Related Compounds. Hirokawa, Tokyo.

Yun, H.N., Kim, S.J., Jung, H.Y, Yun, S.W., Song, S.H., and Kong, W.Y Pateur, Repub. Korea KR 9,609,741 (Cl. A23D9/00) date 24 July 1996, Appli. 9,328,063 date 16 Dec. 1993.

Zaidi, J.H., Qureshi, I.H., Arif, M., and Fatima, I. (1992) Trace element analysis of food spices by instrumental neutro-activation analysis. II. Solanaceae, Lilliaceae, Zingiberaceae and Api-aceae families. Int. J. Environ. Anal. Chem., 48, 33-40.

Zang, Z.Q., Zhou, X.D., and Zhou, D.M. (2000) Equilibrium of ginger oil extracted by supercritical carbon dioxide. Fuzhou Daxue Xuebao, Ziran Kexueban, 28 (1), 87-90.

Zarate, R., Sukrasno, and Yeoman, M.M. (1992) Application of two rapid techniques of column chromatography to separate the pungent principles of ginger, Zingiber officinale Roscoe. J. Chromatogr., 609, 407-413.

Zhang, D., Lu, F., and Tai, J. (2001) Supercritical CO 2 fluid technology for extraction of ginger oleoresin. Shipin Gongye Keiji, 22 (1), 21-23.

Zhou, D., Zang, Z., and Lin, S. (1994) Study of ginger oil extracted with supercritical carbon dioxide. Fuzhou Daxue Xuebao Ziran Kexueban, 22 (3), 100-103.

Zhou, H., Wei, L., and Lei, H. (1998) Analysis of volatile oil from Rhizoma Zingiberis by GC-MS. Zhongguo Zhongyao Zazshi, 23, 234-236.

Zhu, H., Dong, B., Tang, W., and Zhang, M. (1999) Compound oil-resin flavoring. Faming Zhuanli Shenqing Gongkai Shuomingshu Chinese Pat. 1,254,520 (Cl. A 231 1/221) date, 31 May 2000, Appl. 99,112,516, date 1 Nov 1999.

Zhu, L.F., Li, YH., Li, B.L., Lu, B.Y, and Zhang, W.L. (1995) Aromatic plants and essential constituents. Chinese Acad. Sci., Suppl. 1, 68, Hai Feng Pub., Peace Book Co., Hong Kong.

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Aromatherapy Natural Scents that Help and Heal

Aromatherapy Natural Scents that Help and Heal

You have probably heard the term Aromatherapy and wondered what exactly that funny word, „aromatherapy‟ actually means. It is the use of plant oils in there most essential form to promote both mental and physical well being. The use of the word aroma implies the process of inhaling the scents from these oils into your lungs for therapeutic benefit.

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