References
- A Lang, and ES Froelicher. (2006). Management of overweight and obesity in adults: Behavioral intervention for long-term weight loss and maintenance. Eur J Cardio Nur 5 (2):102–114.
- DL McGee. (2005). Body mass index and mortality: A meta-analysis based on person-level data from twenty-six observational studies. Ann Epi 15 (2):87–97.
- KS Calderon, CB Yucha, and SD Schaffer. (2005). Obesity-related cardiovascular risk factors: Intervention recommendations to decrease adolescent obesity. J Ped Nur 20 (1):3–14.
- M Kilpeläinen, M Koskenvuo, H Helenius, and et al (2001). Wood stove heating, asthma and allergies. Resp Med 95 (11):911–916.
- AG Renehan, J Frystyk, and A Flyvbjerg. (2006). Obesity and cancer risk: The role of the insulin-IGF axis. Trends Endo & Met 17 (8):328–336.
- S Smith. (1952). Study in the development of the rainbow trout (Salmo Irideus): II. The metabolism of carbohydrates and fats. J Exp Biol 29:650–666.
- TM Loftus, DE Jaworsky, GL Frehywot, and et al (2000). Reduced food intake and body weight in mice treated with fatty acid synthase inhibitors. Science 288:2379–2381.
- WX Tian, LC Li, XD Wu, and et al (2004). Weight reduction by Chinese medicinal herbs may be related to inhibition of fatty acid synthase. Life Sci 74 (19):2389–2399.
- WX Tian, RY Hsu, and YS Wang. (1985). Studies on the reactivity of the essential sulfhydryl groups as a conformational probe for the fatty acid synthetase of chicken liver. Inactivation by 5,5′-dithiobis-(2-nitrobenzoic acid) and intersubunit cross-linking of the inactivated enzyme. J Biol Chem 260 (20):11375–11387.
- X Wang, and WX Tian. (2001). Green tea epigallocatechin gallate: A natural inhibitor of fatty-acid synthase. Biochem Biophys Res Commun 288 (5):1200–1206.
- YT Du, X Wang, XD Wu, and et al (2005). Keemun black tea extract contains potent fatty acid synthase inhibitors and reduces food intake and body weight of rats via oral administration. J Enz Inhib Med Chem 20 (4):349–356.
- GV Ronnett, EK Kim, LE Landree, and et al (2005). Fatty acid metabolism as a target for obesity treatment. Physiol Behav 85:25–35.
- SM Gale, VD Castracane, and CS Mantzoros. (2004). Energy homeostasis,obesity and eating disorders: Recent advances in endocrinology. J Nutr 134:295–298.
- PM Hellstrom, A Geliebter, E Naslund, PT Schmidt, EK Yahav, SA Hashim, and et al (2004). Peripheral and central signals in the control ofeating in normal, obese and binge-eating human subjects. Br J Nutr 92 (Suppl. 1):S47–S57.
- S Woods, R Seeley, DJ Porte, and M Schwartz. (1998). Signals that regulate foodintake and energy homeostasis. Science 280:1378–1383.
- PJ Magistretti. Brain energy metabolism Fundamental neuroscience. Academic Press. (2004); p 67–89.
- M Schwartz, S Woods, DJ Porte, R Seeley, and D Baskin. (2000). Centralnervous system control of food intake. Nature 404:661–671.
- BM Spiegelman, and JS Flier. (2001). Obesity and the regulation of energybalance. Cell 104:531–543.
- WX Tian, LC Li, XD Wu, and et al (2004). Weight reduction by Chinese medicinal herbs may be related to inhibition of fatty acid synthase. Life Sci 74:2389–2399.
- MK Na, JP Jang, BS Min, and et al (2006). Fatty acid synthase inhibitory activity of acylphloroglucinols isolated from Dryopteris crassirhizoma. Bioorg Med Chem Let 16:4738–4742.
- YH Kao, RA Hiipakka, and S Liao. (2000). Modulation of endocrine systems and food intake by green tea epigallocatechin gallate. Endocrinology 141 (3):980–987.
- AG Dulloo, J Seydoux, L Girardier, and et al (2000). Green tea and thermogenesis: Interactions between catechin-polyphenols, caffeine and sympathetic activity. Inte J Obes Rel Met Dis 24 (2):252–258.