Weight management is a long-term approach to a healthy lifestyle. It includes a balance of healthy eating and physical exercise to equate energy expenditure and energy intake. Developing healthy eating habits while using tips and tricks that will keep us fuller longer can be useful tools in weight management. Knowing what your body needs is very important to weight management and can control the over/under consumption of food. Weight management does not include FAD diets that promote quick, temporary weight loss. It focuses on the long-term results that are achieved through slow weight loss (if necessary), followed be retention of an ideal body weight for age, sex and height. Weight management is important because rising obesity rates are a major concern in North America. About 60% of Canadians are overweight or obese [1]. Obesity is a risk factor for many chronic diseases such as Type 2 diabetes, hypertension and cardiovascular disease[2]. Managing one’s weight is one factor in preventing such chronic diseases.
Popular Diets
editWhen assessing popular diets, it’s important to understand that a person’s food preferences, lifestyle and medical conditions should be taken into account when choosing the correct diet. Adherence level to the diet is a bigger determinant of clinical benefits over the diet type itself [3] Also “dieting” needs to be a lifestyle change and can’t just be for a short term amount of time.
Weight Watchers
editOffers a variety of dieting products and services to assist weight loss and maintenance by a calorie restricting method. Weight watchers promote healthy habits, a supportive environment, exercise and healthy food choices [4]. A member to selects a goal weight that will result in a body mass index (BMI) generally accepted as healthy (18 – 24.9)[4]. Participants are encouraged to produce a rate of weight loss up to 2 pounds per week[4]. Their food guide promotes food choices that not only reduce calories, but also meet nutritional recommendations[4]. Exercise is also recommended for weight loss and is incorporated into their points system. They use a points system that incorporates calories, fat, and dietary fiber content of each food and you are given a certain number of points your suppose to consumer each day[4].
Strengths
- Their food guide promotes food choices that reduce calories, and also meet nutritional recommendations.
- They construct an activity plan along with nutritional guidelines to encourage exercise.
- They offer support and encouragement through weekly meetings
Limitations
- Can be quite expensive over time
- Is a slower weight loss than other more restrictive diets
The Atkins Diet
editInvolves the restriction of carbohydrates in ones diet causing the body's metabolism to switch from burning glucose as fuel to burning stored body fat, sending the body into a state of ketosis [5]. Ketosis causes a person to get their energy from ketones, which also causes you to feel less hungry [5]. Carbohydrate consumption must be <40 grams/day (= 1 slice of bread) for ketosis to occur[5].
Strengths
- Allowed to eat rich foods
- When in ketosis you feel less hungry and more satisfied
Limitations
- Ketosis causes unusual breath odor and constipation
- There is worry that the diet promotes heart disease and there is a potential loss of bone and it is not recommended for people with liver and kidney problems due to the high amounts of protein.
- The preferred source of energy for the brain is glucose, which is decreased in a low-carbohydrate diet
Ornish Diet
editIs a fat restricting diet (less than 10% of calories from fat) focusing on eating high amounts of fiber, and following a low-fat vegetarian diet[6]. The Ornish diet recommends combining the diet with exercise that allows the body’s fat burning mechanism to work most effectively[6]. The philosophy is focused less on restricting calories but by watching the ones consumed, by recommending foods that can be eaten all the time, some of the time and none of the time[6]. Foods that can be eaten whenever you are hungry, until you are full are:
- Beans and legumes, fruits, grains and vegetables
Foods eaten in moderation are:
- Nonfat dairy products – skim milk, nonfat yogurt, nonfat cheese, nonfat sour cream and egg whites
Foods to avoid
- Meats of all kinds – if can’t give up, only eat minimally
- Oils and oil-containing products (margarine and most salad dressings)
- Avocados, olives, nuts and seeds, dairy products (other than non-fat ones)
- Simple sugar and simple sugar derivatives (honey, molassess, corn syrup, and high-fructose syrup)
- Alcohol
- Anything commercially prepared that has more than 2 grams of fat per serving
Suggests eating a lot of little meals because this diet makes you feel hungry more often, which will help you feel full faster and you’ll eat more food without increasing the number of calories[6].
Strengths
- Does not restrict calories
- Doesn’t slow down metabolism
- Recommends regular exercise, yoga and meditation along with the diet
- Has been associated with a reversal of coronary blockage
Weakness
- Very restrictive
- You will feel hungrier and need to eat more food (but less calories)
Weight Management Tips
editIncrease protein especially at breakfast
editThe satiating property of dietary protein is influenced by the time of protein consumption. Studies have shown that protein intake at breakfast has a greater satiety effect than later meal times [7]. There are several explanations as to why this is the case. Firstly, protein has a greater thermogenic affect than carbohydrates and fat, which enables the body to burn more calories [8]. Secondly, a high protein breakfast appears to slow gastric emptying, which attributes to the fact that protein appears to be the most satiating macronutrient [9]. Finally, a high protein breakfast increases the activity of glucagon [9], which activates the pathways for glucose synthesis. One study showed that fat loss was approximately twice as much in the high-protein diet group than the moderate-protein diet group in overweight/ obese individuals [8].
Use a smaller plate
editUsing smaller plates helps to consume smaller portion sizes and this leads to the consumption of fewer calories[10]. Studies have shown that portion size does influence energy intake [11]. People who are presented with larger portions do not report to have a higher level of satiety, which suggests that hunger and satiety signals are ignored when a large portion of food is placed in front of them [11]. In particular, one study showed that participants consumed 31% less calories with the small portion sized of a 6-inch submarine sandwich compared with the large portion size of a 12-inch submarine sandwich [11]. Increased portion sizes have occurred simultaneously with the increase in obesity rates and hence, large portion sizes can be one he factors contributing to the current increase in body weight of the US [11].
Eat more soup
editSoups have a significant satiety effect and studies have demonstrated that compared to solid foods, soup ingestion decrease the amount of energy intake [12]. Compared to having no soup, it has been shown that eating soup reduces total energy intake of a meal [13]. When soup is consumed before a meal, a decrease of 20% of energy is consumed in the meal[13].
Choose the low calorie foods
editA moderate decrease in caloric intake will lead to a slow weight loss, which may be more beneficial for long term weight management [14]. For example, choosing a black coffee instead of a full fat latte will save calories that will add up in the long run. Low fat meats reduce the total amount of calories and cholesterol consumed [15]. For example, traditional beef patties have 19.2% fat and 272 kcal per 100 g of meat. On the other hand, lean beef patties have 9.8%fat and 196 kcal [15].
Eating more dairy can aid in fat loss
editStudies have shown that a diet high in dairy decreases total body fat [16]. This occurs because a high amount of dietary calcium increases the amount of energy and fat excreted from the body [17]. Studies have shown that saturated, monounsaturated and polyunsaturated fats all have a higher excretion rate with a high calcium intake [18]. In these studies, a high calcium intake is considered 2300 mg and a low calcium intake is considered 700 mg [18]. A possible explanation to this phenomenon is that high intakes of calcium cause calcium soap formation and/ or binding of bile acids in the intestine [18]. Other studies specifically show that dairy sources of calcium demonstrate greater weight loss than supplemental calcium intake [19]. This may be due to the other bioactive components present in milk, which may aid in metabolic efficiency and fat loss [19].
Incorporate more vegetables into your meals
editFruits and vegetables have been shown to increase satiety and decrease hunger [20]. These foods have a low energy density, which is mainly due to the high water content and partly due to the fiber content [20]. The reduction of energy density has been shown to enhance satiety. The water adds weight, without adding calories and the fiber slows gastric emptying. Both of these factors contribute to the satiating affect of vegetables and fruits. Studies have also shown that fiber decreases hunger and also decreases total energy intake [20].
Fiber
editDietary Fiber has been suggested to aid weight management by inducing satiety, decreasing absorption of macronutrients and promoting secretion of gut hormones [21]. Dietary fiber consists of non-digestible carbohydrates and lignin, which are a structural component in plants [22]. Fiber recommendations range from 10 – 13 grams/1000 calories, with slightly higher recommendations for men [23].
Due to the high volume or water content of fiber-rich foods, fiber displaces available calories and nutrients from the diet [24]. Consumption of viscous fibers delays gastric emptying, which may cause an extended feeling of fullness [25]. Satiety is also induced by increasing chewing, which limits food intake by promoting the secretion of saliva and gastric juice, resulting in an expansion of the stomach [26]. In addition, hormone secretion is affected during fiber ingestion [27]. Insulin response is reduced and cholecystokinin (CCK) in the small intestine is increased [21]. Insulin regulates blood glucose levels while CCK adjusts gastric emptying, pancreatic secretion and gall bladder contraction [21]. There is direct correlation between CCK and satiety after foods of different fiber contents are consumed [28]. Fiber may have the added benefit of helping consumers decrease food intake throughout the day. However, results of trials examining this possibility have been conflicting. In general, large intakes of dietary fiber at breakfast are associated with less food intake at a lunch [29].
Resistant Starch
editResistant starch is a type of non-digestible, fermentable fiber that is resistant to amylase digestion in the small intestine, and is broken down to short-chain fatty acids by microflora in the large intestine. It is commonly found in cooked and cooled potatoes, green bananas, beans and legumes [30]. Resistant starch dilutes energy density of food intake, has a bulking effect similar to non-fermentable fiber, and increases the expression of PYY and GLP-1 in the gut [31][32][30][33]. The increase in gut hormones can affect long-term energy balance by affecting neuronal pathways in the brain [34][35] as well as improved overall health of the intestines[36]. Based on developing research, consumption of resistant starch can be an effective means of weight management.
Capsaicin
editClinical research on capsaicin has showed that consumption of the spice during breakfast can increase energy expenditure by 23% immediately after meal ingestion [37]. Capsaicin, also known as hot pepper, is a primary ingredient in chilli peppers and red hot peppers [38]. Hot peppers have been reported to induce thermogenesis at the cellular level[39][40].
As well, capsaicin induces satiety as a result of oral and gastro-intestinal contribution [38]. Lower energy and fat intake were observed under short-term conditions; however, the effect of the spice was reduced over prolonged exposure. Increased satiety was observed when oral contribution of capsaicin was measured in addition to the gastro-intestinal exposure, indicating the sensory effect of hot peppers plays a significant role[38].
Caffeine
editCaffeine and black coffee have been associated with increased energy expenditure and subsequent weight loss [41]. Caffeine belongs to a class of compounds called methylxanthines, and is present in coffee, tea, cocoa, chocolate and some cola drinks [42]. Caffeine induces a thermogenic effect in the body by increasing Sympathetic Nervous System activity, which is an important regulator of energy expenditure [43][44][45].
Green Tea
editGreen tea is has been associated with decreasing blood glucose[46], inhibiting hepatic and body fat accumulation[47][48], and stimulating thermogenesis[49] due to the catechins that are present. Catechins are polyphenols that are a major component of green tea extract [50]. Green tea has also been shown to increase energy expenditure and fat oxidation in humans, independent of the caffeine content([49][51]. In a human study conducted, 690mg of catechins daily for 12 weeks reduced body fat, suggesting that green tea might be useful in the prevention of chronic disease, particularly obesity [52]. Moreover, catechins in the brain play a major role in satiety [52][53]. As a result of the physiological effects that result from catechin intake, it can be inferred that consuming green tea on a regular basis can lead to decreased body weight.
Also See
editReferences
edit- ^ Tiepkema, M. (2004) Measured Obesity: Adult obesity in Canada: Measured height and weight. Nutrition: Findings from the Canadian Community Health Survey 1: 1-10
- ^ Klein, K., Sheard, N. F., Pi-Sunyer, X., Daly, A., Whylie-Rosett, J., Kulkarni, K. and Clark, N. G. (2004) Weight Management Through Lifestyle Modification for the Prevention and Management of Type 2 Diabetes: Rationale and Strategies. Diabetes Care 27 (8): 2067-73
- ^ Dansinger, M. L., Gleason, J. A., Griffith, J.L., Selker, H.P. and Schaefer, J. (2005) Comparison of the Atkins, Ornish, Weight watchers and Zone Diets for weight loss and heart disease risk reduction: A randomized trial. JAMA; 293(1): 43-53
- ^ a b c d e How Weight Watchers Works, http://www.weightwatchers.ca/plan/index.aspx & October 15, 2010.
- ^ a b c The Atkins Diet, http://cauk.atkins.com/science & October 15, 2010.
- ^ a b c d The Ornish Diet & October 15, 2010.
- ^ Leidy, H. J., Bossingham, M.J., Mattes, R.D. and Campbell, W.W. (2009) Increased dietary protein consumed at breakfast leads to an initial and sustained feeling of fullness during energy restriction compared to other meal times. British Journal of Nutrition 101: 798-803
- ^ a b Paddon-Jones, D., Westman, E., Mattes, R.D., Wolfe, R.R., Astrup, A. and Westerterp-Plantenga, M. (2008) Protein, weight management, and satiety. Am J Clin Nutr 87(suppl):1558-61S
- ^ a b Blom, W.A.M, Lluch, A., Stafleu, A., Vinoy, S., Holst, J.J., Schaafsma, G. and Hendriks, H.F.J. (2006) Effect of a high-protein breakfast on the postprandial ghrelin response. American Journal of Clinical Nutrition 83(2):211-220
- ^ Rolls, B.J., Morris, E.L. and Roe, L.S. (2002) Portion size of food affects energy intake in normal-weight and overweight men and women. American Journal of Clinical Nutrition, 76(6):1207-13
- ^ a b c d Ello-Martin, J.A., Ledikwe, J.H. and Rolls, B.J. (2005). The influence of food portion size and energy density on energy intake: implications for weight management. American Journal of Clinical Nutrition 82(1) 236-241
- ^ Mattes, R. (2005). Soup and satiety. Physiology & Behavior; 83(5): 739-747
- ^ a b Flood, J.E. and Rolls, B.J. (2007). Soup preloads in a variety of forms reduce meal energy intake. Appetite 49(3):626-634
- ^ Klein S., Sheard N. F., Pi-Sunyer, X., Daly A., Wylie-Rosett J., Kulkarni, K., Clark N.G. (2004). Weight Management Through Lifestyle Modification for the Prevention and Management of Type 2 Diabetes: Rationale and Strategies. Diabetes Care; 27(8) 2067-2073
- ^ a b Chizzolini, R., Zanardi E., Dorigoni V. and Ghidini S. (1999). Calorific value and cholesterol content of normal and low-fat meat and meat products. Trends in Food Science & Technology,10 (2-5):119-128
- ^ Zemel, M.B., Richards, J., Milstead, A. and Campbell, P. (2005). Effects of Calcium and Dairy on Body Composition and Weight Loss in African-American Adults. Obesity Research 13:1218-1225
- ^ Jacobsen, R., Lorenzen J.K., Toubro, S., Krog-Mikkelsen, I. and Astrup, A. (2005). Effect of short-term high dietary calcium intake on 24-h energy expenditure, fat oxidation, and fecal fat excretion. International Journal of Obesity. 29: 293-301
- ^ a b c Bendsen, N.T., Hother, A.L., Jensen S.K., Lorenzen J.K. and Astrup, A. (2008). Effect of dairy calcium on fecal fat excretion: a randomized crossover trial. International Journal of Obesity. 32: 1816-1824
- ^ a b Zemel, M.B., Thompson, W., Milstead, A., Morris, K. and Campbell, P. (2004). Calcium and Dairy Acceleration of Weight and Fat Loss during Energy Restriction in Obese Adults. Obesity Research 12:582-590
- ^ a b c Rolls, B.J., Ello-Martin, J.A., and Tohill, B.C. (2004). What Can Intervention Studies Tell Us about the Relationship between Fruit and Vegetable Consumption and Weight Management? International Life Sciences Institute 62(1) 1-17
- ^ a b c Slavin, J.L., (2005) Dietary Fiber and Body Weight. Nutrtion 21(3): 411-418
- ^ Institute of Medicine of the National Academies, Dietary reference intakes. Proposed definition of dietary fiber, National Academies Press, Washington, DC (2001).
- ^ Pilch S., Physiological effects and health consequences of dietary fiber (1987). Life Sciences Research Office, Federation of American Societies for Experimental Biology, Bethesda, MD
- ^ Saris, W.H.M. (2003) Glycemic carbohydrate and body weight regulation, Nutr Rev 61:0–16
- ^ Schneeman, B.O. (2002) Gastrointestinal physiology and functions, Br J Nutr 88(2):159–163
- ^ Heaton K.W. (1973). Food fibre as an obstacle to energy intake. Lancet 2: 1418–1421
- ^ Korner J. and Leibel R.L. (2003) To eat or not to eat—how the gut talks to the brain. N Engl J Med 349: 926–928
- ^ Holt, S.H.A., Brand-Miller, J.C. and Stitt, P.A. (2001). The effects of equal-energy portions of different breads on blood glucose levels, feelings of fullness and subsequent food intake, J Am Diet Assoc 101:767–773
- ^ Levine, A.S., Tallman, J.R., Grace, M.K., Parker, S.A., Billington C.J. and Levitt, M.D. (1989) Effect of breakfast cereals on short-term food intake. Am J Clin Nutr 50:303–307
- ^ a b Nugent, A. (2005) Health properties of resistant starch. Nutr Bull. 30: 27–54
- ^ Englyst, H.N., Kingman, S.M., Cummings, J.H. (1992) Classification and measurement of nutritionally important starch fractions. Eur J Clin Nutr.46(2):33–50
- ^ Higgins, JA. (2004) Resistant starch: metabolic effects and potential health benefits. J AOAC Int. 87: 761–768
- ^ Zhou, J, Hegsted, M, McCutcheon, KL, et al (2006) Peptide YY and proglucagon mRNA expression patterns and regulation in the gut. Obesity14: 683–689
- ^ Abbott, CR, Monteiro, M, Small, CJ, et al (2005) The inhibitory effects of peripheral administration of peptide YY(3–36) and glucagon-like peptide-1 on food intake are attenuated by ablation of the vagal-brainstem-hypothalamic pathway. Brain Res. 1044: 127–131
- ^ Badman, MK, Flier, JS. (2005) The gut and energy balance: visceral allies in the obesity wars. Science 307: 1909–1914
- ^ Davie, JR. (2003) Inhibition of histone deacetylase activity by butyrate. J Nutr. 133: 2485–293S
- ^ Kawada, T., Sakabe, S., Watanabe, T., Yamamoto, M. and Iwai, K. (1988) Some pungent principles of spices cause the adrenal medulla to secrete catecholamine in anesthetized rats. Proc Soc Exp Biol Med 188:229–233
- ^ a b c Westerterp-Plantenga M.S., Smeets A. and Lejeune M.P. (2005) Sensory and gastrointestinal satiety effects of capsaicin on food intake. Int J Obes 29:682–688
- ^ Yoshioka, M., Lim, K., Kikuzato, S., Kiyonaga, A., Tanaka H. and Shindo M. (1995) Effects of red-pepper diet on the energy metabolism in men, J Nutr Sci Vitaminol. 41:647–656
- ^ Eldershaw T.P., Colquhoun E.Q., Bennett K.L., Dora K.A. and Clark M.G. (1994) Resiniferatoxin and piperine: capsaicin-like stimulators of oxygen uptake in the perfused rat hindlimb, Life Sci 55:389–397
- ^ Acheson K.J., Zahorska-Markiewics B., Pittet P., Anantharaman K. and Jequier E. (1980) Caffeine and coffee: their influence on metabolic rate and substrate oxidation in normal weight and obese individuals. Am J Clin Nutr 33:989–997
- ^ Westerterp-Plantenga, M., Diepvens, K., Joosen, A.M.C.P., Berube-Parent, S. and Tremblay, A. (2006). Metabolic effects of spices, teas and caffeine. Physiology & Behavior 89(1):85-91
- ^ Dulloo, A.G. (2002) Biomedicine: A sympathetic defense against obesity. Science 297:780–781
- ^ Astrup A., Toubro S., Cannon S., Hein P., Breum L. and Madsen J. (1990) Caffeine: a double-blind, placebo-controlled study of its thermogenic, metabolic and cardiovascular effects in healthy volunteers. Am J Clin Nutr 51:759–767
- ^ Astrup A. and Toubro S. (1993) Thermogenic, metabolic and cardiovascular responses to ephedrine and caffeine in man. Int J Obes Relat Metab Disord 17(1):41–43
- ^ Matsumoto N, Ishigaki F, Ishigaki A, Iwashin H and Hara Y (1993) Reduction of blood glucose levels by tea catechin. Biosci Biotech Biochem 57:525–7
- ^ Chaudhari, P.N. and Hatwalne, V.G. (1977) Effect of epicatechin on liver lipids of rats fed with choline deficient diet. Ind J Nutr Diet 14:136–9
- ^ Ishigaki, A., Tonooka, F., Matsumoto, N. and Hara Y. (1991) Suppression of the accumulation of body and liver fat by tea catechin. Organizing Committee of International Symposium on Tea Science 309–13
- ^ a b Dulloo, A.G., Seydoux, J., Girardier, L., Chantre, P. and Vandermander, J. (2000) Green tea and thermogenesis: interactions between catechin-polyphenols, caffeine and sympathetic activity. Int J Obes Relat Metab Disord 24:252–8
- ^ Graham, H.N. (1992) Green tea composition, consumption, and polyphenol chemistry. Prev Med 21:334–50
- ^ Chantre P. and Lairon D. (2002) Recent findings of green tea extract AR 25 (Exolise) and its activity for the treatment of obesity. Phytomedicine 9:3–8
- ^ a b Kao Y.H., Hiipakka R.A. and Liao S. (2000) Modulation of endocrine systems and food intake by green tea epigallocatechin gallate. Endocrinology 141:980–987
- ^ Wellman P.J. (2000) Norepinephrine and the control of food intake. Nutrition 16:837–842