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Guliford, W. Grant, et al. Food Sensitivity in Cats with Chronic Idiopathic Gastrointestinal Problems. Journal of Veterinary Internal Medicine, 15 (1), 7-13, 2008;Sebastian A, et al. Estimation of the net acid load of the diet of ancestral preagricultural Homo sapiens and their hominid ancestors. Am J Clin Nutr, 76(6):1308-16, 2002;Grundy, S. The Optimal ratio of fat-to carbohydrate in the diet. Annual Review of Nutrition, 19:325-341, 1999;Milton K. Hunter-gatherer diets -- a different perspective. American Journal of Clinical Nutrition, 71:(3) 665-667, 2000;Cordain L, et al. Plant-animal subsistence ratios and macronutrient energy estimations in worldwide hunter-gatherer diets. American Journal of Clinical Nutrition, 71(3) 682-692, 2000;Cordain L, et al. The paradoxical nature of hunter-gatherer diets: meat-based, yet non-atherogenic. European Journal Clinical Nutrition, 56 Suppl 1:S42-52, 2002;Cordain L, et al. Fatty acid analysis of wild ruminant tissues: evolutionary implications for reducing diet-related chronic disease. European Journal Clinical Nutrition, 56(3):181-91, 2002;Eaton SB, et al. Evolutionary health promotion: a consideration of common counterarguments. Preventive Medicine, 34(2):119-23, 2002;Eaton SB, et al. Evolutionary health promotion. Preventive Medicine, 34(2):109-18, 2002;Eaton SB, et al. An evolutionary foundation for health promotion. World Review Nutrition Diet, 90:5-12, 2001;Cordain L, et al. Macronutrient estimations in hunter-gatherer diets. American Journal Clinical Nutrition, 72(6):1589-92, 2000;Beasley, J., et al. Is protein intake associated with bone mineral density in young women? American Journal of Clinical Nutrition, 91, 1311-1316, 2010;Munger, R., et al. Prospective study of dietary protein intake and risk of hip fracture in postmenopausal women. American Journal of Clinical Nutrition, 69 (1), 147-152, 1999;Alpert, P.T. Bone Health: How to Maximize Bone Mineral Density. Home Health Care Management Practice, 22 (3), 207-210, 2010;Darling, A. L., et al. Dietary protein and bone health: a systemic review and meta-analysis. American Journal of Clinical Nutrition, 90 (6), 1674-1692, 2009;Bowen, J., et al. A High Dairy Protein, High-Calcium Diet Minimizes Bone Turnover in Overweight Adults during Weight Loss. Journal of Nutrition, 134, 568-573, 2004;Bonjour, J. -P. Dietary Protein: An Essential Nutrient For Bone Health. Journal of the American College of Nutrition, 24 (90006), 526S-536S, 2005;Kerstetter, J. E. Dietary protein and bone: a new approach to an old question. American Journal of Clinical Nutrition, 90 (6), 1451-1452, 2009;Bonjour, J.-P., and T. Chevalley. The Dietary Protein-Acidosis Hypothesis in the Pathophysiology of Osteoporosis. BoneKEy, 6 (7), 254-258, 2009;Lorincz, E., et al. Bone Health: Part 1, Nutrition. Sports Health, 1 (3), 253-260, 2009;Mazmanian, S. The Microbial Health Factor. The Scientist, 23 (8), 34-38, 2009;Mazmanian, S., et al. An immunomodulatory molecule of symbiotic bacteria directs maturation of the host immune system. Cell, 122, 107-118, 2005;Bach, J.F. The effect of infections on susceptibility to autoimmune and allergic diseases. New England Journal of Medicine, 347, 911-920, 2002;Mazmanian, S., et al. A microbial symbiosis factor prevents intestinal inflammatory disease. Nature, 453, 620-625, 2008;Lekcharoensuk, C., et al. Associations between dry dietary factors and canine calcium oxalate uroliths. American Journal of Veterinary Research, 63 (3), 330-337, 2002;Stoll BA. Upper abdominal obesity, insulin resistance and breast cancer risk. International Journal Obesity Related Metabolic Disorder, 26(6):747-53, 2002;Michaud, D. Dietary Sugar, Glycemic Load, and Pancreatic Cancer Risk in a Prospective Study. J Natl Cancer Inst, 94(17):1293-300, 2002;Michels, K.B., et al. Type 2 diabetes and subsequent incidence of breast cancer in the Nurses’ Health Study. Diabetes Care, 26 (6), 1752-1758, 2003;Hogstedt, B. Hyperinsulinemia: a prospective Risk Factor for Lethal Clinical Prostate Cancer. European Journal of Cancer. 41 (18), 2887-2895, 2005;Lee. J. E., et al. Fat, protein, and meat consumption and renal cell cancer risk: a pooled analysis of 13 prospective studies. Journal of the National Cancer Institute, 100 (23), 1695-1706, 2008;Fernandez-Twinn, D.S., et al. Compensatory mammary growth following protein restriction during pregnancy and lactation increases early-onset mammary tumor incidence in rats. Carcinogenesis, 28 (3), 545-552;Nothlings, U., et al. Meat and Fat Intake as Risk Factors for Pancreatic Cancer: The Multiethnic Cohort Study. Journal of the National Cancer Institute, 97 (19), 1458-1465, 2005;Hale, F. Dental caries in the dog. Canadian Veterinary Journal, 50 (12), 1301-1304, 2009;Shaw, J., and D. Griffiths. Dental Abnormalities in Rats Attributable to Protein Deficiency during Reproduction. Journal of Nutrition, 80, 123-141, 1963;Lingstrom, P, et al. Food Starches and Dental Caries. Critical Reviews in Oral Biology & Medicine, 11 (3), 366-380, 2000;Leray, V., et al. Protein Intake Does Not Affect Insulin Sensitivity in Normal Weight Cats. The Journal of Nutrition, 136, 2028S-2030S, 2006;Kettelhut, I.C., et al. Glucose homeostatis in a carnivore animal (cat) and in rats fed a high-protein diet. Am J Physiol Regul Integr Comp Physiol, 239, R347-R444, 1980;Rand, J.S., et al. Diet in the prevention of diabetes and obesity in companion animals. Asia Pac J Clin Nutr, 12 (S6), 2003;Willett W, et al. Glycemic index, glycemic load, and risk of type 2 diabetes. American Journal Clinical Nutrition, 76(1):274S-80S, 2002;Hu FB, et al. Diet, lifestyle, and the risk of type 2 diabetes mellitus in women. New England Journal Medicine, 345(11):790-7, 2001;Rand, J., et al. The Link Between Obesity and Diabetes in Cats and Dogs. The Role of Nutrition in Weight Management, 2003;Gannon, M., et al. An increase in dietary protein improves blood glucose response in persons with type 2 diabetes. The American Journal of Clinical Nutrition, 78 (4), 734-741, 2003;Parker, B., et al. Effect of a High-Protein, High-Monounsaturated Fat Weight Loss Diet on Glycemic Control and Lipid Levels in Type 2 Diabetes. Diabetes Care, 2001;Farnsworth, E., et al. Effect of high-protein, energy-restricted diet on body composition, glycemic control, and lipid concentrations in overweight and obese hyperinsulinemic men and women. American Journal Of Clinical Nutrition, 78 (1), 31-39, 2003;Baba, N. H., et al. High protein vs high carbohydrate hypoenergenic diet for the treatment of obese hyperinsulinemic subjects. International Journal of Obesity and Related Metabolic Disorders, 23 (11), 1202-1206, 1999;Fraga, M. R., et al. Epigenetic differences arise during the lifetime of monozygotic twins. Proceedings of the National Academy of Sciences, 2005;Wu. Q., and M. Suzuki. Parental obesity and overweight effect the body-fat accumulation in the offspring: the possible effect of a high-fat diet through epigenetic inheritance. Obesity Reviews, 7 (2), 201-208, 2006;Godfrey, K. and D. Barker. Fetal nutrition and adult disease. American Journal of Clinical Nutrition, 71 (5), 1344S-1352S, 2000;Han, H., et al. Maternal malnutrition induces different cardiac gene expression in pulmonary hypertensive steers at high elevation. Heart and Circulatory Physiology, 295 (1), H382-H389, 2008;Gorski, J.N., et al. Maternal obesity increases hypothalamic leptin receptor expression and sensitivity in juvenile obesity-prone rats. Regulatory, Integrative and Comparative Physiology, 292 (5), R1782-R1791, 2007;Han, H., et al. Maternal nutrient restriction alters gene expression in the ovine fetal heart. Journal of Physiology, 558 (1), 111-121, 2004;Cooney, C. Germ cells carry the epigenetic benefits of grandmother’s diet. Proceedings of the National Academy of Sciences, 2006;McGowan, P., et al. Diet and the epigenetic (re)programming of phenotypic differences in behavior. Brain Research, 1237, 12-24, 2008;Ling, C., and L. Groop. Epigenetics: A Molecular Link Between Environmental Factors and Type 2 Diabetes. Diabetes, 58 (12), 2718-2725, 2009;Ryan, F. P. An alternative approach to medical genetics based on modern evolutionary biology. Part 5: epigenetics and genomics. JRSM, 102 (12), 531-537, 2009;Negri, I., et al. Unraveling the Wolbachia evolutionary role: the reprogramming of the host genomic imprinting. Proc R Soc B, 276 (1666), 2845-2491, 2009;van der Maarel, S.M. Epigenetic mechanism in health and disease. Ann Rheum Dis, 67 (supp 3), iii97-iii100, 2008;Gluckman, P. D., et al. Effect of In Utero and Early-Life Conditions on Adult Health and Disease. New England Journal of Medicine, 359 (1), 61-73, 2008;Feinberg, A. P. Epigenetics at the Epicenter of Modern Medicine. Journal of the American Medical Association, 299 (11), 1345-1350, 2008;Esteller, M. Epigenetics in Cancer. New England Journal of Medicine, 358 (11), 1148-1159, 2008;Vogt, G., et al. Production of different phenotypes from the same genotype in the same environment by developmental variation. Journal Exp Biology, 211 (4), 510-523, 2008;Martin, F. L. Epigenomics and disease, 10th anniversary winter meeting of the UK Molecular Epidemiology Group (MEG), the Royal Statistical Society, London, UK, 8th December 2006. Mutagenesis, 22 (6), 425-427, 2007;Erhuma, A., et al. Prenatal exposure to a low-protein diet programs disordered regulation of lipid metabolism in the aging rat. American Journal of Physiology – Endocrinology and Metabolism, 292, E1702-E1714, 2007;Alexander, B. T. Epigenetic changes in gene expression: focus on “The liver X-receptor gene promoter is hypermethylated in a mouse model of prenatal protein restriction.” American Journal of Physiology – Regulatory, Integrative and Comparative Physiology, 298 (2), R272-R274, 2010;Chiu, CJ, et al. Dietary carbohydrate and the progression of age-related macular degeneration: a prospective study from the Age-Related Eye Disease Study. The American Journal of Clinical Nutrition, 86(4), 1210-1218, 2007;Benjaminov O. et al. The effect of a low-carbohydrate diet on the nonalcoholic fatty liver in morbidly obese patients before bariatric surgery. Surgical Endoscopy, 21(8):1423-1427, 2007. Available at: www.springerlink.com/content/b78n532r75t66282. Accessed May 21, 2010;Second Opinions. Cirrhosis of the liver: dietary causes. Available at: www.second-opinions.co.uk/cirrhosis.html. Accessed May 21, 2010;Solga S, et al. Dietary composition and nonalcoholic fatty liver disease (abstract). Digestive Diseases and Sciences, 49(10);1578-1583, 2004. Available at: www.springerlink.com/content/j5x175u643225546. Accessed May 21, 2010;Tendler D, Lin S, Yancy WS, Mavropoulos J, et al. The effect of a low-carbohydrate, ketogenic diet on nonalcoholic fatty liver disease: a pilot study. Digestive Diseases and Sciences, 52(2);589-593, 2007;Biourge, VC, et al. Effects of protein, lipid or carbohydrate supplementation on hepatic lipid accumulation during rapid weight loss in obese cats. Am J Vet Res, 55 (10), 1406-1415, 1994;Tucker KL, et al. Bone mineral density and dietary patterns in older adults: the Framingham Osteoporosis Study. American Journal Clinical Nutrition, 76(1):245-52, 2002;Evans, W.J. Exercise, nutrition and aging. Clin Geriatr Med, 11(4):725-734, 1995;Kurpad, A.V., and M. Vaz. Protein and amino acid requirements in the elderly. Eur J Clin Nutr, 54(suppl 3), S131-S142, 2000;Laflamme, D.P. Pet Food Safety: dietary protein. Top Companion Animal Medicine, 23 (3), 154-157, 2008;Ledi, Franz. New Aspects of the Maillard Reaction in Foods and in the Human Body. Angewandte Chemie, 29 (6), 565-594, 2003;Ludwig, D. S. Dietary glycemic index and obesity. Journal Nutrition, 130(suppl):280S-283S, 2000;Ludwig, D. S. The glycemic index: physiological mechanisms relating to obesity, diabetes, and cardiovascular disease. JAMA, 287(18):2414-23, 2002;Ludwig, D. S. et al. High glycemic index foods, overeating, and obesity. Pediatrics, 103(3):E26, 1999;Augustin, L. S., et al. Glycemic index in chronic disease: a review. European Journal Clinical Nutrition, 56(11):1049-71, 2002;Jenkins, D. J., et al. Glycemic index: overview of implications in health and disease. American Journal Clinical Nutrition, 76(1):266S-73S, 2002;Liu, S., et al. Relation between diet with a high glycemic load and plasma concentrations of high-sensitivity C-reactive protein in middle-aged women. American Journal of Clinical Nutrition, 75 (3), 492-498, 2002;Boler, B.M, Vester. Are niche diets backed by science? Pet Food Industry, 52 (4), 36-40, 2010;Bhasin, K. K. S., et al. Maternal Low-Protein Diet or Hypercholesterolemia Reduces Circulating Essential Amino Acids and Leads to Intrauterine Growth Restriction. Diabetes, 58 (3), 559-566, 2009;Fernandez-Twinn, D.S., et al. Maternal low-protein diet programs cardia beta-adrenergic response and signaling in 3-mo-old male offspring. Regulatory, Integrative and Comparative Physiology, 291 (2), R429-R436, 2006;Langley-Evans, S., et al. Fetal exposure to a maternal low protein diet impairs nephrogenesis and promotes hypertension in the rat. Life Sciences, 64 (11), 965-974, 1999;Sayer, A. A., et al. Prenatal Exposure to Maternal Low Protein Diet Shortens Life Span in Rats. Gerontology, 47, 9-14, 2001;Bennis-Taleb, N., et al. A Low-Protein Isocaloric Diet During Gestation Affects Brain Development and Alters Permanently Cerebral Cortex Blood Vessels in Rat Offspring. Journal of Nutrition, 129, 1613-1619, 1999;Gershwin, M. E., et al. Nutrition and Immunity. Proc Nutr Soc, 12, 1987;Abbasi F, et al. Relationship between obesity, insulin resistance, and coronary heart disease risk. Journal American College Cardiology, 40(5):937-43, 2002;Liu, S., and W. C. Willett. Dietary glycemic load and atherothrombotic risk. Current Atherosclerosis Report, 4(6):454-461, 2002;Leeds, A. R. Glycemic index and heart disease. American Journal Clinical Nutrition, 76(1):286S-9S, 2002;Sieri, S., et al. Dietary glycemic load and index and risk of coronary heart disease in a large italian cohort: the EPICOR study. Archives on Internal Medicine, 170 (7), 640-647, 2010;Grant, W.B. Reassessing the role of sugar in the etiology of heart disease. Journal of Orthomolecular Medicine. 13 (2), 95-104, 1998;Hu, F. B., et al. Dietary protein and risk of ischemic heart disease in women. American Journal of Clinical Nutrition, 70 (2), 221-227, 1999;Appel, L. J., et al. Effects of Protein, Monounsaturated Fat, and Carbohydrate Intake on Blood Pressure and Serum Lipids. The Journal of the American Medical Association, 294 (19), 2005;Ottoboni, F., and A. Ottoboni. Ascorbic acid and the immune system. The Journal of Orthomolecular Medicine. 20 (3), 179-183, 2005;Lochmiller, R. L., et al. Relationship between protein nutritional status and immunocompetence in northern bobwhite chicks. The Auk, 110 (3), 503-510, 1993;Coop, R.L., et al. Effect of dietary protein supplementation on the development of immunity to Ostertagia circumcincta in growing lambs. Research in Veterinary Science, 59 (1), 24-29, 1995;Finco, D.R., et al. Protein and calorie effects on progression of induced chronic renal failure in cats. American Journal of Veterinary Research, 59 (5), 575-582, 1998;Finco, D.R., et al. Effects of dietary phosphorus and protein in dogs with chronic renal failure. American Journal of Veterinary Research, 53, 172-183, 1988;Nwagwu, M.O., et al. Evidence of progressive deterioration of renal function in rats exposed to a maternal low-protein diet in utero. British Journal of Nutrition, 83, 79-85, 2000;Finco, D. R., et al. Effects of aging and dietary protein intake on uninephrectomized geriatric dogs. American Journal of Veterinary Research, 55 (9), 1282-1290, 1994;Rao AV, and S Agarwal. Role of antioxidant lycopene in cancer and heart disease. Journal American College Nutrition, 19(5):563-9, 2000;Baardseth, P., et al. Lactic Acid Fermentation Reduces Acrylamide Formation and Other Maillard Reactions in French Fries. Journal of Food Science, 71 (1), 2006;Mottram, D. S., et al. Food Chemistry: Acrylamide is formed in the Maillard reaction. Nature, 419, 448-449, 2002;Vester, B.M., et al. In utero and postnatal exposure to a high-protein or high-carbohydrate diet leads to differences in adipose tissue mRNA expression and blood metabolites in kittens. British Journal of Nutrition, 102 (8), 1136-1144, 2009;Leray, V., et al. Protein Intake Does Not Affect Insulin Sensitivity in Normal Weight Cats. The Journal of Nutrition, 136, 2028S-2030S, 2006;Rand, J.S., et al. Diet in the prevention of diabetes and obesity in companion animals. Asia Pac J Clin Nutr, 12 (S6), 2003;Nguyen, P. High Protein Intake Affects Lean Body Mass but Not Energy Expenditure in Nonobese Neutered Cats. The Journal of Nutrition, 134, 2084S-2086SA, 2004;Laflamme, D., and S. Hannah. Increased Dietary Protein Promotes Fat Loss and Reduces Loss of Lean Body Mass During Weight Loss in Cats. Intern J Appl Res Vet Med, 3 (2), 2005;Bierer, T. L., and L. M. Bui. High-Protein Low-Carbohydrate Diets Enhance Weight Loss in Dogs. The American Society for Nutritional Sciences, 134, 2087S-2089S, 2004;European Congress of Obesity. Helsinki, Finland. June 4, 2003;Grundy, S. M. Obesity, metabolic syndrome, and coronary atherosclerosis. Circulation, 105(23):2696-8, 2002;Ebbeling, C. B., et al. Childhood obesity: public-health crisis, common sense cure. Lancet, 360(9331):473-82, 2002;Brand-Miller, J. C., et al. Glycemic index and obesity. American Journal Clinical Nutrition, 76(1):281S-285S, 2002;Ludwig, D. S. Dietary glycemic index and obesity. Journal Nutrition, 130(suppl):280S- 283S, 2000;Ludwig, D. S., et al. High glycemic index foods, overeating, and obesity. Pediatrics, 103(3):E26, 1999;Eisenstein, J., et al. High-protein weight-loss diets: are they safe and do they work? A review of the experimental and epidemiologic data. Nutrition Reviews, 60(7 Pt 1):189-200, 2002;Brand-Miller, J. C., et al. Glycemic index and obesity. American Journal Clinical Nutrition, 76(1):281S-5S, 2002;Simoneau, J. A., et al. Markers of capacity to utilize fatty acids in human skeletal muscle: relation to insulin resistance and effects of weight loss. FASEB J, 13:2051- 2060, 1999;Reda, T. K., et al. Amylin, food intake, and obesity. Obesity Research, 10(10):1087-91, 2002;Flegal, K. M., et al. Prevalence and Trends in Obesity Among US Adults, 1999-2000. JAMA, 288(14):1723-7, 2002;Roberts, S. B. High-glycemic index foods, hunger, and obesity: is there a connection? Nutrition Reviews, 58(6):163-9, 2000;McCarty, M. F. The origins of western obesity: a role for animal protein? Medical Hypotheses, 54(3):488-94, 2000;Brehm, B., et al. A Randomized Trial Comparing a Very Low Carbohydrate Diet and a Calorie-Restricted Low Fat Diet on Body Weight and Cardiovascular Risks in Healthy Women. The Journal of Clinical Endocrinology and Metabolism, 88 (4), 1617-1623, 2003;Rand, J., et al. The Link Between Obesity and Diabetes in Cats and Dogs. The Role of Nutrition in Weight Management, 2003;Weigle, D. S., et al. A high-protein diet induces sustained reductions in appetite, ad libitum caloric intake, and body weight despite compensatory changes in diurnal plasma leptin and gherlin concentrations. American Journal of Clinical Nutrition, 82 (1), 41-48, 2005;Wu. Q., and M. Suzuki. Parental obesity and overweight effect the body-fat accumulation in the offspring: the possible effect of a high-fat diet through epigenetic inheritance. Obesity Reviews, 7 (2), 201-208, 2006;Srinivasan, M., et al. A high-carbohydrate diet in the immediate postnatal life of rats induces adaptations predisposing to adult-onset obesity. Journal of Endocrinology, 197 (3), 565-574, 2008;Krechowec, S. O., et al. Prenatal influences on leptin sensitivity and susceptibility to diet-induced obesity. Journal of Endocrinology, 189 (2), 355-363, 2006;Metges, C.C. Does Dietary Protein in Early Life Affect the Development of Adiposity in Mammals? Journal of Nutrition, 131 (7), 2062-2066, 2001;Westerterp-Plantenga, M. S., et al. High protein intake sustains weight maintenance after body weight loss in humans. International Journal of Obesity, 28, 57-64, 2004;Parker, B., et al. Effect of a High-Protein, High-Monounsaturated Fat Weight Loss Diet on Glycemic Control and Lipid Levels in Type 2 Diabetes. Diabetes Care, 2001;Farnsworth, E., et al. Effect of high-protein, energy-restricted diet on body composition, glycemic control, and lipid concentrations in overweight and obese hyperinsulinemic men and women. American Journal Of Clinical Nutrition, 78 (1), 31-39, 2003;Vasconcellos, R. S., et al. Protein Intake during Weight Loss Influences the Energy Required for Weight Loss and Maintenance in Cats. Journal of Nutrition, 139 (5), 855-860, 2009;Diez, M., et al. Weight Loss in Obese Dogs: Evaluation of a High-Protein, Low-Carbohydrate Diet. Journal of Nutrition, 132, 1685S-1687S, 2002;Spencer, H., et al. Do Protein and Phosphorus Cause Calcium Loss? The Journal of Nutrition, 28 January 1988;Spencer, H., and L. Kramer. Factors Contributing to Osteoporosis. The Journal of Nutrition, 116, 316-319, 1986;Spencer, H., and L. Kramer. Further studies of the effect of high protein diet as meat on calcium metabolism. American Journal of Clinical Nutrition, 37 (6), 924-929, 1983;Hunt, J., et al. High-versus low meat diets: Effects on zinc absorption, iron status, and calcium, copper, iron, magnesium, manganese, nitrogen, phosphorus, and zinc balance in postmenopausal women. American Journal of Clinical Nutrition, 62, 621-632, 1995;Cooper, C., et al. Dietary protein and bone mass in women. Calcified Tiss. Int., 58, 320-325, 1996;Hannan, M.T., et al. Effect of dietary protein on bone loss in elderly men and women: the Framinghan Osteoporosis Study. Journal of Bone and Mineral Research, 15 (12), 2504-2512, 2000;Reproductive disorders related to starch and sugar: Physorg.com, 11-10-07; Softpedia 11-10-07; The Journal of Clinical Investigation, 11-8-07;Funaba, M., et al. Evaluation of effects of dietary carbohydrate on formation of struvite crystals in urine and macromineral balance in clinically normal cats. American Journal of Veterinary Research, 65 (2), 138-142, 2004;Funaba, M., et al. Effects of a high-protein diet on mineral metabolism and struvite activity product in clinically normal cats. American Journal of Veterinary Research, 57 (12), 1726-1732, 1996;Tarttelin, M.F. Feline struvite urolithiasis: factors affecting urine pH may be more important than magnesium levels in food. The Veterinary Record, 121 (10), 2270230, 1987;Finke, M.D., and B.A. Litzenberger. Effect of food intake on urine pH of cats. Journal of Small Animal Practice, 33 (6), 261-265, 2008;Angel-Caraza, J. Del., et al. Mixed urolith (struvite and calcium oxalate) in a ferret (Mustela purorious furo). Journal of Veterinary Diagnostic Investigation, 20 (5), 682-683, 2008;Murray, S.M., et al. Evaluation of selected high-starch flours as ingredients in canine diets. Journal of Animal Science, 77 (8), 2180-2186, 1999;Kantor LS, et al Choose a Variety of Grains Daily, Especially Whole Grains: A challenge for consumers. The Journal of Nutrition, 131 (2S-I), 473S-486S, 2001;Bonagura, J. D. Kirk’s Current Veterinary Therapy XIII: Small Animal Practice. Saunders, 1999;Case, L., et al. Canine and Feline Nutrition: A Resource for Companion Animal Professionals. Mosby, 2010; Belisto, K. R., et al. Impact of ovariohysterectomy and food intake on body composition, physical activity, and adipose gene expression in cats. Journal of Animal Science, 87, 594-602, 2009;Finley, R., et al. The Occurrence and Antimicrobial Susceptibility of Salmonellae Isolated from Commercially Available Canine Raw Food Diets in Three Canadian Cities. Zoonoses and Public Health, 55 (8-10), 462-469, 2008;Freeman, L. M., and K. E. Michel. Evaluation of raw food diets for dogs. Journal of the American Veterinary Medical Association, 218 (5), 705-709, 2001;Kerr, K. R. et al. Compositional analysis and apparent macronutrient digestibility of four raw meat diets in domestic cats. The FASEB Journal, 23, 905.5, 2009;Lauten, S. D., et al. Body Composition of Growing and Adult Cats as Measured by Use of Dual Energy X-ray Absorptiometry. Comparative Medicine, 50 (2), 175-183, 2000;Lubbs, D. C., et al. Dietary protein concentration affects intestinal microbiota of adult cats: a study using DGGE and qPCR to evaluate differences in microbial populations in the feline gastrointestinal tract. Animal Physiology and Animal Nutrition, 93 (1), 113-121, 2008;Vester, B. M., et al. Ovariohysterectomy alters body composition and adipose and skeletal muscle gene expression in cats fed a high-protein or moderate-protein diet. Animal, 3, 1287-1298, 2009;Vester, B. M., et al. In utero and postnatal exposure to a high-protein or high-carbohydrate diet leads to differences in adipose tissue mRNA expression and blood metabolites in kittens. British Journal of Nutrition, 102, 1136-1144, 2009;Vester, B. M., Influence of feeding raw or extruded feline diets on nutrient digestibility and nitrogen metabolism of African wildcats (Felis lybica). Zoo Biology, 2010;Weese, J. S., et al. Bacteriological evaluation of commercial canine and feline raw diets. Canadian Veterinary Journal, 46 (6) 513-516, 2005;Amstberg, G., et al. Influence of food composition on the intestinal flora of the dog. In: R. S. Anderson (ed.), Nutrition of the dog and cat. Pergamon Press, Oxford, UK, pp. 181–188, 1980; Kunkle, G, and S. Horner. Validity of skin testing for diagnosis of food allergy in dogs. American Journal of the Veterinary Medical Association, 200 (5), 677-680, 1992;Blourge, V.C., et al. Diagnosis of Adverse Reactions to Food in Dogs: Efficacy of a Soy-Isolate Hydrolyzate-Based Diet. Journal of Nutrition, 134, 2062S-2064S, 2004;Rosser, E.J. Diagnosis of food allergy in dogs. Journal of the American Veterinary Medical Association, 203 (2), 259-262, 1993;Roudebush, P, et al. Protein Characteristics of Commercial Canine and Feline Hypoallergenic Diets. Veterinary Dermatology, 5 (2), 69-74, 2008; Schauss, A. Diet, Crime and Delinquency. Berkeley: Parker house, 1980;Fishbein, D., and S. Pease. Diet, Nutrition, and Aggression. Journal of Offender Rehabilitation, 21 (3&4), 117-144, 1995;Benton, D. Carbohydrate ingestion, blood glucose and mood. Neuroscience & Behavioral Reviews, 26 (3), 293-308, 2002;Massaro, T. F., et al. Protein malnutrition in the rat: Its effects on maternal behavior and pup development. Developmental Psychobiology, 7 (6), 551-561, 2004;Watkins, A. J., et al. Low protein diet fed exclusively during mouse oocyte maturation leads to behavioural and cardiovascular abnormalities in offspring. Journal of Physiology, 586, 2231-2244, 2008;D’Anci, K. E., et al. Low-carbohydrate weight-loss diets. Effects on cognition and mood. Appetite, 52 (1), 96-103, 2009; Selva, D., et al. Monosaccharide-induced lipogenesis regulates the human hepatic sex hormone–binding globulin gene. The Journal of Clinical Nutrition, 117 (12), 3979-3987, 2007;Pugeat, M., et al. Pathophysiology of sex hormone binding globulin (SHBG): Relation to Insulin. Journal of Steroid Biochemistry and Molecular Biology, 40 (4-6), 841-849, 1991; McMillan, D. E., and P. J. Geevarghese. Dietary cyanide and tropical malnutrition diabetes. Diabetes Care, 2 (2), 202-208, 1979;Manzano, H., et al. Effects of Long-term Cyanide Ingestion by Pigs. Veterinary Research Communications, 31 (1), 93-104, 2007;Powell, S. Detecting endogenous cyanide in common foodstuffs. Analytical Chemistry, 81 (23), 9535, 2009;Friedman, M., et al. Feeding of Potato, Tomato and Eggplant Alkaloids Affects Food Consumption and Body and Liver Weights in Mice. Journal of Nutrition, 1995;Morris, S. C., and T. H. Lee. The toxicity and tetratogenicity of Solanaceae glycoalkaloids, particularly those of the potato (Solanum tuberosum): A review. Food Technology, 36 (3), 118-124, 1984;Rayburn, J., R., et al. Role of Carbohydrate Side Chains of Potato Glycoalkaloids in Developmental Toxicity. Journal of Agricultural and Food Chemistry, 42 (7), 1511-1515, 1994;Swinyard, C. A., and S. Chaube. Are potatoes teratogenic for experimental animals? Teratology, 8 (3), 349-357, 2005; Chesterman, F. C., and A. Pomerance. Cirrhosis and liver tumours in a closed colony of golden hamsters. British Journal of Cancer, 19 (4), 802-811, 1965;Sanchez, A., et al. Role of sugars in human neutrophilic phagocytosis. American Journal of Nutrition, 26, 1180-1184, 1973;Yudkin, J., et al. Effects of high dietary sugar. British Medical Journal, 281, 1396, 1980;Johnson, R. J., et al. Potential role of sugar (fructose) in the epidemic of hypertension, obesity and the metabolic syndrome, diabetes, kidney disease, and cardiovascular disease. American Journal of Clinical Nutrition, 86 (4), 899-906, 2007; Blacklock, N. J. Sucrose and idiopathic renal stone. Nutrition and Health, 5 (1-2), 9-17, 1987; Ceriello, A. Oxidative stress and glycemic regulation. Metabolism, 49 (2), 27-29, 2000;Donnini, D., et al. Glucose May Induce Cell Death through a Free Radical-Mediated Mechanism. Biochemical and Biophysical Research Communications, 219 (2), 412-417, 1996;Dizdaroglu, M. Chemical determination of free radical-induced damage to DNA. Free Radical Biology and Medicine, 10 (3-4), 225-242, 1991;Floyd, R. A., and J. M. Carney. Free radical damage to protein and DNA: Mechanisms involved and relevant observations on brain undergoing oxidative stress. Annals of Neurology, 32 (S1), S22-S27, 2004;Chatgillaloglu, C., and P. O’Neill. Free radicals associated with DNA damage. Experimental Gerontology, 36 (9), 1459-1471, 2001; Couzy, F., et al. Nutritional Implications of the Interaction Minerals. Progressive Food and Nutrition Science, 17, 65-87, 1993;Kozlovsky, A., et al. Effects of Diets High in Simple Sugars on Urinary Chromium Losses. Metabolism. 35, 515-518, 1986;Lemann, J. Evidence that Glucose Ingestion Inhibits Net Renal Tubular Reabsorption of Calcium and Magnesium. Journal of Clinical Nutrition, 70, 236-245, 1976; Heaton, K. The Sweet Road to Gallstones. British Medical Journal, 288, 1103-1104, 1984;Misciagna, G., et al. Diet, physical activity, and gallstones—a population-based, case-control study in Southern Italy. American Journal of Clinical Nutrition, 69, 120-126, 1999; Lee, A. T. and Cerami, A. Modifications of Proteins and Nucleic Acids by Reducing Sugars: Possible Role in Aging. Handbook of the Biology of Aging. New York: Academic Press, 1990;Monnier, V. M. Nonenzymatic Glycosylation, the Maillard Reaction and the Aging Process. Journal of Gerontology, 45(4), 105-110, 1990;Cerami, A., et al. Glucose and Aging. Scientific American, 90, 1987;Appleton, Nancy. Lick the Sugar Habit. New York: Avery Penguin Putnam, 1988;Lee, A. T. and Cerami, A. The Role of Glycation in Aging. Annals of the New York Academy of Science, 663:63-67, 1992;Dyer, D. G., et al. Accumulation of Maillard Reaction Products in Skin Collagen in Diabetes and Aging. Journal of Clinical Investigation, 93 (6), 421-422, 1993; Acta. Ophthalmologica Scandinavica, 48, 25, 2002;Taub, H. Ed. Sugar Weakens Eyesight, VM Newsletter, 6, 1986;Veromann, S.et al. Dietary Sugar and Salt Represent Real Risk Factors for Cataract Development. Ophthalmologica, 217(4), 302-307, 2003;Goulart, F. S. Are You Sugar Smart? American Fitness, 34-38, 1991;Goldman, J., et al. Behavioral Effects of Sucrose on Preschool Children. Journal of Abnormal Child Psychology, 14(4), 565-577, 1986;Jones, T. W., et al. Enhanced Adrenomedullary Response and Increased Susceptibility to Neuroglygopenia: Mechanisms Underlying the Adverse Effect of Sugar Ingestion in Children. Journal of Pediatrics, 126, 171-177, 1995;Behar, D., et al. Sugar Challenge Testing with Children Considered Behaviorally Sugar Reactive. Nutritional Behavior, 1, 277-288, 1984;Molteni, R, et al. A High-fat, Refined Sugar Diet Reduces Hippocampal Brain-derived Neurotrophic Factor, Neuronal Plasticity, and Learning. NeuroScience, 112 (4), 803-814, 2002;Christensen, L. The Role of Caffeine and Sugar in Depression. Nutrition Report, 9 (3), 17-24, 1991;Christensen L., et al. Impact of A Dietary Change on Emotional Distress. Journal of Abnormal Psychology, 94 (4), 565-579, 1985;Girardi, N., et al. Blunted Catecholamine Responses After Glucose Ingestion in Children with Attention Deficit Disorder. Pediatrics Research, 38 (4), 539-542, 1995;Berdonces, J. L. Attention Deficit and Infantile Hyperactivity. Rev Enferm, 4 (1), 11-4, 2001;Schoenthaler, S. The Los Angeles Probation Department Diet-Behavior Program: Am Empirical Analysis of Six Institutional Settings. Int J Biosocial Res, 5 (2), 88-89, 1983;Sanchez, A., et al. Role of Sugars in Human Neutrophilic Phagocytosis, American Journal of Clinical Nutrition. Nov 1973;261:1180_1184;Bernstein, J., al. Depression of Lymphocyte Transformation Following Oral Glucose Ingestion. American Journal of Clinical Nutrition.1997;30:613;Crook, W. J. The Yeast Connection. TN: Professional Books, 1984;Takahashi, E., Tohoku University School of Medicine, Wholistic Health Digest, 41, 1982;Quillin, P. Cancer's Sweet Tooth, Nutrition Science News. 2000;Rothkopf, M. Nutrition, 6(4), 1990;Michaud, D. Dietary Sugar, Glycemic Load, and Pancreatic Cancer Risk in a Prospective Study. J Natl Cancer Inst, 94 (17), 1293-300, 2002;Moerman, C. J., et al. Dietary Sugar Intake in the Etiology of Biliary Tract Cancer. International Journal of Epidemiology, 2 (2), 207-214, 1993;The Edell Health Letter., 7, 1, 1991;De Stefani, E.“Dietary Sugar and Lung Cancer: a Case control Study in Uruguay.“ Nutrition and Cancer, 31 (2), 132-137, 1998;Cornee, J., et al. A Case-control Study of Gastric Cancer and Nutritional Factors in Marseille, France. European Journal of Epidemiology, 11, 55-65, 1995;Kelsay, J., et al. Diets High in Glucose or Sucrose and Young Women. American Journal of Clinical Nutrition, 27, 926-936, 1974;Thomas, B. J., et al. Relation of Habitual Diet to Fasting Plasma Insulin Concentration and the Insulin Response to Oral Glucose. Human Nutrition Clinical Nutrition, 36C(1), 49-55, 1983;Dufty, William. Sugar Blues. New York:Warner Books, 1975;Beck, Nielsen H., et al. Effects of Diet on the Cellular Insulin Binding and the Insulin Sensitivity in Young Healthy Subjects. Diabetes, 15, 289-296, 1978;Sucrose Induces Diabetes in Cat. Federal Protocol. Diabetes, 6 (97), 1974;Reiser, S., et al. Effects of Sugars on Indices on Glucose Tolerance in Humans. American Journal of Clinical Nutrition, 43, 151-159, 1986;Glinsmann, W., et al. Evaluation of Health Aspects of Sugar Contained in Carbohydrate Sweeteners.“ FDA Report of Sugars Task Force, 39, 123, 1986;Yudkin, J. and Eisa, O. Dietary Sucrose and Oestradiol Concentration in Young Men. Annals of Nutrition and Metabolism, 32(2), 53-5, 1988;Makinen K.K., et al. A Descriptive Report of the Effects of a 16-month Xylitol Chewing-gum Programme, Subsequent to a 40-month Sucrose Gum. Programme. Caries Research, 32(2), 107-112, 1998;Keen, H., et al. Nutrient Intake, Adiposity, and Diabetes. British Medical Journal, 1, 655-658, 1989;Ludwig, D. S., et al. High Glycemic Index Foods, Overeating and Obesity. Pediatrics, 103(3), 26-32, 1999;Stern, N. & Tuck, M. Pathogenesis of Hypertension in Diabetes Mellitus. Diabetes Mellitus, a Fundamental and Clinical Test. 2nd Edition. Philadelphia:Lippincott Williams & Wilkins, 943-957, 2000;Yudkin, J. Sweet and Dangerous. New York:Bantam Books,1974, 129;Darlington, L., Ramsey, N. W. and Mansfield, J. R. Placebo Controlled, Blind Study of Dietary Manipulation Therapy in Rheumatoid Arthritis. Lancet, 8475(1), 236-238, 1986;Powers, L. Sensitivity: You React to What You Eat. Los Angeles Times. (Feb. 12, 1985);Cheng, J., et al. Preliminary Clinical Study on the Correlation Between Allergic Rhinitis and Food Factors. Lin Chuang Er Bi Yan Hou Ke Za Zhi, 16(8), 393-396, 2002;Erlander, S. The Cause and Cure of Multiple Sclerosis, The Disease to End Disease. 1(3), 59-63, 1979;Fields, M. Journal of the American College of Nutrition, 17(4), 317-321, 1998;Christansen, D. Critical Care: Sugar Limit Saves Lives. Science News. June 30, 2001; 159:404;Tjäderhane, L. and Larmas, M. A High Sucrose Diet Decreases the Mechanical Strength of Bones in Growing Rats. Journal of Nutrition, 128, 1807-1810, 1998;Journal of Clinical Endocrinology and Metabolism. Aug 2000;Cleave, T. The Saccharine Disease. New Canaan, CT: Keats Publishing, 1974;Cleave, T. and Campbell, G. Bristol. Diabetes, Coronary Thrombosis and the Saccharine Disease. England: John Wright and Sons, 1960;Hodges, R., and Rebello, T. Carbohydrates and Blood Pressure. Annals of Internal Medicine, 98, 838-841, 1983;amplona, R., et al. Mechanisms of Glycation in Atherogenesis. Medical Hypotheses, 174-181, 1990;Vaccaro O., Ruth, K. J. and Stamler J. Relationship of Postload Plasma Glucose to Mortality with 19 yr Follow up. Diabetes Care, 10, 328-334, 1992;Tominaga, M., et al, Impaired Glucose Tolerance Is a Risk Factor for Cardiovascular Disease, but Not Fasting Glucose. Diabetes Care, 2(6), 920-924, 1999;Furth, A. and Harding, J. Why Sugar Is Bad For You. New Scientist, 44, 1989;Ceriello, A. Oxidative Stress and Glycemic Regulation. Metabolism, 49(2 Suppl 1), 27-29, 2000;Donnini, D. et al. Glucose May Induce Cell Death through a Free Radical-mediated Mechanism.Biochem Biohhys Res Commun, 219(2), 412-417, 1996;Yudkin, J. Metabolic Changes Induced by Sugar in Relation to Coronary Heart Disease and Diabetes. Nutrition and Health, 5(1-2), 5-8, 1987;Gardner, L. and Reiser, S. Effects of Dietary Carbohydrate on Fasting Levels of Human Growth Hormone and Cortisol. Proceedings of the Society for Experimental Biology and Medicine, 169, 36-40, 1982;Lenders, C. M. Gestational Age and Infant Size at Birth Are Associated with Dietary Intake among Pregnant Adolescents. Journal of Nutrition, 1113- 1117, 1997;Lechin, F., et al. Effects of an Oral Glucose Load on Plasma Neurotransmitters in Humans. Neuropsychobiology, 26(1-2), 4-11, 1992;Murphy, Patricia. The Role of Sugar in Epileptic Seizures. Townsend Letter for Doctors and Patients. May, 2001;Frey, J. Is There Sugar in the Alzheimer's Disease? Annales De Biologie Clinique, 59 (3), 253-257, 2001;Abrahamson, E. and Peget, A. Body, Mind and Sugar. New York Avon, 1977;Colantuoni, C., et al. Evidence That Intermittent, Excessive Sugar Intake Causes Endogenous Opioid Dependence. Obes Res, 10(6), 478-488, 2002;Sunehag, A. L., et al. Gluconeogenesis in Very Low Birth Weight Infants Receiving Total Parenteral Nutrition. Diabetes, 48, 791-800, 1999;Sandler, Benjamin P. Diet Prevents Polio. Milwaukee: The Lee Foundation for Nutritional Research, 1951;Grand, E. Food Allergies and Migraine. Lancet, 1, 955-959, 1979;Ouyang, X., et al. Fructose Consumption as a Risk Factor fro Non-alcoholic Fatty Liver Disease. Journal of Hepatology, 48 (6), 993-999, 2008;Bucala, R., et al. Modification of DNA by reducing sugars: a possible mechanism for nucleic acid aging and age-related dysfunction in gene expression. Proceedings of the National Academy of Sciences of the United States of America, 81 (1), 105-109, 1984;Lee, A. T., et al. In vitro and in vivo reactions of nucleic acids with reducing sugars. Mutation Research, 238 (3), 185-191, 1990;Persson P. G., et al. Diet and Inflammatory Bowel Disease. Epidemiology, 3, 47-52, 1992;Claudia, C., et al. Disaccharide Digestion: Clinical and Molecular Aspects. Clinical Gastroenterology and Hepatology, 4 (3), 276-287, 2006.