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Fish Oil For Fat Loss

Fish oil is most known for its beneficial cardiovascular and cardiac health effects, and continues to top the list of health promoting supplements. In 2004 FDA approved a prescription fish oil preparation for treatment of high blood triglycerides (hypertriglyceridemia) (1). Recently several studies have shown that fish oil also has other beneficial effects, which might appeal more to the younger crowd, and especially to fitness and bodybuilding enthusiasts. One of these effects is fat loss.

Fish Oil Induced Fat Loss

In the 80s early 90s, several animal studies showed that fish oil reduces body fat (2-5) and weight gain (6-9), and limits adipose tissue expansion (10-12). These effects have been seen during both a decreased (3, 7), constant (5) or even increased energy intakes (6). This indicates that the fatty acids in fish oil, notably EPA (eicosapentaenoic acid) and DHA (docosahexaenoic acid), have an effect on the partitioning of fat between oxidation (fat burning) and storage in the body.

Mechanism – how does it work?

In search for the mechanisms behind fish oil induced fat loss, it has been found that fish oil exerts favorable metabolic effects by modulating gene expression (which is the process by which the information encoded in a gene is converted into protein)(2, 13-26). While we inherit our genes (or blueprints) from our parents, what determines the way in which our blueprints are interpreted is largely dictated by a collection of environmental factors. The nutrients we consume are among the most influential of these environmental factors (27, 28). One dietary constituent that has a strong influence on our genetic makeup is dietary fat (2, 13, 14, 16-19, 21-23, 25, 29). Fatty acids from dietary fat not only influences hormonal signaling events, but also have a very strong direct influence on the molecular events that govern gene expression.

More specifically, it has been shown that the fatty acids EPA and DHA from fish oil (by affecting gene expression) inhibit the activities of fat synthesizing (lipogenic) enzymes (30-37), while at the same time stimulating the activities of key enzymes that govern fat oxidation (fat burning) (2, 38-46).

Fish oil also has been shown to increase levels of adiponectin and decrease levels of cortisol (47, 48). Adiponectin is a novel adipose tissue-specific protein that circulates in human plasma at high levels (49). It is one of the physiologically active polypeptides secreted by adipose tissue, whose multiple functions have started to be understood in the last few years. Some of its beneficial effects are enhanced insulin sensitivity, and lowered plasma glucose (blood sugar) and triglyceride levels (49, 50). A reduction in adiponectin expression is associated with insulin resistance (49), and adiponectin levels are inversely related to the degree of adiposity (50). The activity of adiponectin has also been associated with steroid and thyroid hormones, glucocorticoids, and nitric oxide, and has anti-atherogenic and anti-inflammatory properties (50). Thus, it is plausible that fish oil induces some of its effect by affecting adiponectin levels.

While the functions of adiponectin are just starting to emerge, it is likely to become a target for therapeutic applications in the future.

It is interesting that fish oil lowers cortisol. While the exact role of cortisol in obesity isn’t fully elucidated (51, 52), it is known that excessive cortisol levels result in substantial fat mass gain (53, 54). Thus, the reduction in cortisol levels after fish oil supplementation could contribute at least partly to the fat loss observed with fish oil supplementation. In another article I’m covering the anti-catabolic/muscle growth effects of fish oil in more detail.

Fish Oil for Muscle Growth

Does it work in humans – what’s in it for me?

At this point you might be thinking “ok, that all sounds nice, but I’m not a rat. Does it work in humans”?

Yes! Read on…

Non-dieting

Recently several studies have shown that fish oil also can help people to get in shape. In a landmark study in healthy young non-obese males, 6 g of fat from butter, olive oil, sunflower oil and peanut oil was replaced with 6 g fish oil (corresponding to 1,100 mg EPA and 700 mg DHA) per day (55). After 3 weeks the researchers noted a significantly increased resting fat burning (fat oxidation) and a 1.94 lb (0.88 kg) decrease in body fat (measured by the golden standard method DEXA). There was no change in body weight. This fat loss was seen despite that subjects were told not to change their usual exercise and food habits.

Other studies have confirmed the fat loss effects of fish oil when added to people’s usual lifestyle habits.

One study gave healthy men and women (mean age 33 yrs), who were told to maintain their current food and exercise practices 4 g fish oil, providing 1,600 mg EPA and 800 mg DHA (48). After 6 weeks, the placebo group, which was given 4 g of safflower oil, showed a tendency towards fat gain. In contrast, the fish oil group experienced a significant reduction in fat mass of 1.1 lb (0.5 kg) and increase in fat-free mass of 1.1 lb (0.5 kg) (measured by air displacement plethysmography), with no change in body weight.

A 1.1 lb reduction in fat mass combined with a 1.1 lb increase in fat-free mass, without changes in subject’s typical food and exercise habits is pretty remarkable body composition improvement. It also underscores the importance of investigating fat mass and lean mass separately, since just measuring body weight will not tell anything about potential body composition changes, which after all is what is interesting from both a health, esthetic and physical performance viewpoint. For more into on the anti-catabolic and lean mass gaining effects of fish oil, see Fish Oil for Muscle Growth

Another study, also against a background of constant food and exercise routines, gave obese type 2 diabetic female subjects 1,080 mg EPA and 720 mg DHA for 2 months, or placebo paraffin oil (56). Even though there was no change in body weight, the fish oil group demonstrated a significant reduction in fat mass by 3.6 lb (1,614 kg). This fat mass reduction was mainly due to a decrease in trunk (belly) fat. In addition, fish oil group experienced a reduction in fat cell size by 6.3 % (56).

It has also been found that supplementing with fish oil for 3 weeks (1,100 g EPA and 700 g DHA daily) significantly decreases insulin levels and increases fat burning after consumption of carbohydrate rich meals (57). Supplementation with fish oil providing 2,400 mg EPA and 1,600 mg DHA for 3 weeks also boosts fat burning during jogging exercise (58).

Combined with exercise

Fish oil seems to be even more effective when combined with exercise. In obese men and women, the effects of the addition of 6 g of fish oil daily (providing 360 mg EPA and 1,560 mg DHA) in combination with regular aerobic activity (walking 45 min three times per week at an intensity of 75% of age-predicted maximal heart rate) for 12 weeks, was investigated (59). The results showed that the combination of fish oil and regular aerobic activity not only improved several risk factors for cardiovascular disease, but also significantly reduced body fat mass with 4.4 lb (2 kg) (59). The finding that

body weight and body fat percentage didn’t change in the placebo group (which was put on the same exercise program but received 6 g sunflower oil instead of the fish oil) underscores the efficacy of fish oil for fat loss.

It is interesting that the fat loss seen in the fish oil – exercise group occurred even though the subjects did not change their usual food habits; they just added the fish oil supplement and exercise program to their regimen. This indicates the great potential benefits of fish oil combined with regular physical activity for improving body composition and cardiovascular health.

In this study, no fat loss was seen in fish oil only group (which didn’t exercise). This is probably due to the very low dose of EPA. Most studies showing that fish oil increases fat loss have use fish oil products that provide 1.5-2 times more EPA than DHA, like Lean Lipid Complex does.

Combined with a calorie restricted diet

Fish oil supplementation can boost calorie restricted diets as well. This was found in a study that investigated the effect of including fish oil as part of an energy-restricted diet, on weight loss (60). Young obese adults were put on a calorie restricted diet (30 % less calories than their usual intake, about 600 calorie deficit), supplemented with 6 g fish oil providing 1,500 mg EPA + DHA, or placebo (sunflower oil capsules). It was found that the fish oil enriched diet resulted in 2.2 lb (1 kg) more weight loss and greater reductions in waist circumference after only 4 weeks, than the same diet without fish oil (60).

Combined with a calorie restricted diet and exercise program

In a study that tested the effect of adding 2,800 mg/day fish oil (EPA:DHA ratio 2:1) to a low-calorie diet combined with an exercise program, severely obese women (61). After 3 weeks the fish oil group lost 3.3 lb (1.5 kg) more weight and slashed almost 1 inch (2.3 cm) more fat from their hips, than the non-supplemented group.

While body fat changes were not reported, the researchers did find a greater increase in blood beta-hydroxybutyrate (a ketone body) in the fish oil supplemented group compared with control group, and interpreted this as providing evidence of greater fat oxidation in the fish oil group (61). These findings indicate that the addition of fish oil to a relatively short (3 week) weight loss program comprising severe caloric restriction and exercise, may increase fat oxidation and lead to greater improvement in body composition.

Perspective on fish oil and fat loss

In contrast to the positive studies, there are a few that didn’t show any fat loss with fish oil supplementation (62-65). This could be due to differences in subject characteristics (age, initial body fat mass, baseline physical activity), methodological differences, and differences in fish oil preparations.

As outlined above, several high quality studies have shown that fish oil supplementation has a significant fat loss effect in addition to all its other health promoting effects. The majority of evidence thus supports fish oil’s ability to shift fat metabolism away from storage towards burning of body fat, even in humans.

It’s getting better – fat loss combined with lean mass (muscle) gain

In one of the most recent studies on fish oil’s fat loss effect, men and women (mean age 33 yrs) where given 4 g of fish oil corresponding to 1600 mg EPA and 800 mg DHA (48). After 6 weeks, the placebo group, which was given 4 g of safflower oil, showed a tendency towards fat gain. The fish oil group instead had lost 0.5 kg of fat mass and gained 0.5 kg of lean mass, with no change in body weight.

This is a very beneficial body composition effect and underscores the importance of investigating fat mass and lean mass separately, since just measuring body weight will not tell anything about changes in body composition. After all, it’s not weight loss per see, but fat loss and muscle gain that’s interesting from both a health, esthetic and physical performance viewpoint. I cover the muscle growth stimulating and anti-catabolic effect of fish oil in another article

Fish Oil for Muscle Growth

Bottom Line

Whether you are on a diet or not, adding a fish oil supplement to your regimen can effectively help you get in shape. The additional calories from the fish oil will not get stored (66); quite to the contrary, fish oil will help you get rid of calories you already have stored in your body fat. What’s interesting is that fish oil supplementation seems to reduce body fat and waist circumference despite unchanged exercise and/or other dietary practices.

Aim for a daily fish oil intake that provides you with at least 1600 mg EPA and 800 mg DHA, but a higher dose, 2400 mg EPA and 1600 mg DHA (a total of 4 g EPA and DHA total), might result in a larger fat loss. To achieve this high intake of EPA and DHA it is advisable to take a fish oil concentrate. In an upcoming article I will go into more detail about fish oil concentrates, different ratios of EPA to DHA in fish oil preparations, their relative effectiveness, safety aspects of high dose fish oil supplementation, and sort through the myriad of fish oil supplements currently available on the market, to help you find a good fish oil supplement that will give you the best bang and effectiveness for your buck.

References:

1. Mason CM, Long J, Conroy C 2011 Prescription Omega-3s: An Overview for Nurse Practitioners. The Journal of cardiovascular nursing 26:290-297

2. Baillie RA, Takada R, Nakamura M, Clarke SD 1999 Coordinate induction of peroxisomal acyl-CoA oxidase and UCP-3 by dietary fish oil: a mechanism for decreased body fat deposition. Prostaglandins, leukotrienes, and essential fatty acids 60:351-356

3. Hill JO, Peters JC, Lin D, Yakubu F, Greene H, Swift L 1993 Lipid accumulation and body fat distribution is influenced by type of dietary fat fed to rats. International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity 17:223-236

4. Ikemoto S, Takahashi M, Tsunoda N, Maruyama K, Itakura H, Ezaki O 1996 High-fat diet-induced hyperglycemia and obesity in mice: differential effects of dietary oils. Metabolism: clinical and experimental 45:1539-1546

5. Su W, Jones PJ 1993 Dietary fatty acid composition influences energy accretion in rats. The Journal of nutrition 123:2109-2114

6. Cunnane SC, McAdoo KR, Horrobin DF 1986 n-3 Essential fatty acids decrease weight gain in genetically obese mice. The British journal of nutrition 56:87-95

7. LeBoeuf RC, Veldee MS 1993 Genetically determined body weight loss in mice fed diets containing salmon oil. The Journal of nutrition 123:547-558

8. Mori T, Kondo H, Hase T, Tokimitsu I, Murase T 2007 Dietary fish oil upregulates intestinal lipid metabolism and reduces body weight gain in C57BL/6J mice. The Journal of nutrition 137:2629-2634

9. Pan DA, Storlien LH 1993 Dietary lipid profile is a determinant of tissue phospholipid fatty acid composition and rate of weight gain in rats. The Journal of nutrition 123:512-519

10. Belzung F, Raclot T, Groscolas R 1993 Fish oil n-3 fatty acids selectively limit the hypertrophy of abdominal fat depots in growing rats fed high-fat diets. The American journal of physiology 264:R1111-1118

11. Parrish CC, Pathy DA, Angel A 1990 Dietary fish oils limit adipose tissue hypertrophy in rats. Metabolism: clinical and experimental 39:217-219

12. Ruzickova J, Rossmeisl M, Prazak T, Flachs P, Sponarova J, Veck M, Tvrzicka E, Bryhn M, Kopecky J 2004 Omega-3 PUFA of marine origin limit diet-induced obesity in mice by reducing cellularity of adipose tissue. Lipids 39:1177-1185

13. Clarke SD 2000 Polyunsaturated fatty acid regulation of gene transcription: a mechanism to improve energy balance and insulin resistance. The British journal of nutrition 83 Suppl 1:S59-66

14. Clarke SD 2001 Polyunsaturated fatty acid regulation of gene transcription: a molecular mechanism to improve the metabolic syndrome. The Journal of nutrition 131:1129-1132

15. Clarke SD 2004 The multi-dimensional regulation of gene expression by fatty acids: polyunsaturated fats as nutrient sensors. Current opinion in lipidology 15:13-18

16. Clarke SD, Baillie R, Jump DB, Nakamura MT 1997 Fatty acid regulation of gene expression. Its role in fuel partitioning and insulin resistance. Annals of the New York Academy of Sciences 827:178-187

17. Clarke SD, Gasperikova D, Nelson C, Lapillonne A, Heird WC 2002 Fatty acid regulation of gene expression: a genomic explanation for the benefits of the mediterranean diet. Annals of the New York Academy of Sciences 967:283-298

18. Clarke SD, Jump DB 1994 Dietary polyunsaturated fatty acid regulation of gene transcription. Annual review of nutrition 14:83-98

19. Clarke SD, Thuillier P, Baillie RA, Sha X 1999 Peroxisome proliferator-activated receptors: a family of lipid-activated transcription factors. The American journal of clinical nutrition 70:566-571

20. Davidson MH 2006 Mechanisms for the hypotriglyceridemic effect of marine omega-3 fatty acids. The American journal of cardiology 98:27i-33i

21. Jump DB, Clarke SD, Thelen A, Liimatta M, Ren B, Badin M 1996 Dietary polyunsaturated fatty acid regulation of gene transcription. Progress in lipid research 35:227-241

22. Jump DB, Clarke SD, Thelen A, Liimatta M, Ren B, Badin MV 1997 Dietary fat, genes, and human health. Advances in experimental medicine and biology 422:167-176

23. Nakamura MT, Cho HP, Xu J, Tang Z, Clarke SD 2001 Metabolism and functions of highly unsaturated fatty acids: an update. Lipids 36:961-964

24. Ntambi JM, Bene H 2001 Polyunsaturated fatty acid regulation of gene expression. Journal of molecular neuroscience : MN 16:273-278; discussion 279-284

25. Price PT, Nelson CM, Clarke SD 2000 Omega-3 polyunsaturated fatty acid regulation of gene expression. Current opinion in lipidology 11:3-7

26. Raclot T, Oudart H 1999 Selectivity of fatty acids on lipid metabolism and gene expression. The Proceedings of the Nutrition Society 58:633-646

27. Moustaid-Moussa N, Berdanier CD 2001 Nutrient-Gene Interactions in Health and Disease. 2nd ed ed: CRC Press

28. Berdanier CD, Moustaid-Moussa N 2004 Genomics and Proteomics in Nutrition. 1st ed ed: CRC Press

29. Lapillonne A, Clarke SD, Heird WC 2004 Polyunsaturated fatty acids and gene expression. Current opinion in clinical nutrition and metabolic care 7:151-156

30. Hannah VC, Ou J, Luong A, Goldstein JL, Brown MS 2001 Unsaturated fatty acids down-regulate srebp isoforms 1a and 1c by two mechanisms in HEK-293 cells. The Journal of biological chemistry 276:4365-4372

31. Kim HJ, Takahashi M, Ezaki O 1999 Fish oil feeding decreases mature sterol regulatory element-binding protein 1 (SREBP-1) by down-regulation of SREBP-1c mRNA in mouse liver. A possible mechanism for down-regulation of lipogenic enzyme mRNAs. The Journal of biological chemistry 274:25892-25898

32. Mater MK, Thelen AP, Pan DA, Jump DB 1999 Sterol response element-binding protein 1c (SREBP1c) is involved in the polyunsaturated fatty acid suppression of hepatic S14 gene transcription. The Journal of biological chemistry 274:32725-32732

33. Nakatani T, Kim HJ, Kaburagi Y, Yasuda K, Ezaki O 2003 A low fish oil inhibits SREBP-1 proteolytic cascade, while a high-fish-oil feeding decreases SREBP-1 mRNA in mice liver: relationship to anti-obesity. Journal of lipid research 44:369-379

34. Shimano H, Yahagi N, Amemiya-Kudo M, Hasty AH, Osuga J, Tamura Y, Shionoiri F, Iizuka Y, Ohashi K, Harada K, Gotoda T, Ishibashi S, Yamada N 1999 Sterol regulatory element-binding protein-1 as a key transcription factor for nutritional induction of lipogenic enzyme genes. The Journal of biological chemistry 274:35832-35839

35. Worgall TS, Sturley SL, Seo T, Osborne TF, Deckelbaum RJ 1998 Polyunsaturated fatty acids decrease expression of promoters with sterol regulatory elements by decreasing levels of mature sterol regulatory element-binding protein. The Journal of biological chemistry 273:25537-25540

36. Xu J, Nakamura MT, Cho HP, Clarke SD 1999 Sterol regulatory element binding protein-1 expression is suppressed by dietary polyunsaturated fatty acids. A mechanism for the coordinate suppression of lipogenic genes by polyunsaturated fats. The Journal of biological chemistry 274:23577-23583

37. Yahagi N, Shimano H, Hasty AH, Amemiya-Kudo M, Okazaki H, Tamura Y, Iizuka Y, Shionoiri F, Ohashi K, Osuga J, Harada K, Gotoda T, Nagai R, Ishibashi S, Yamada N 1999 A crucial role of sterol regulatory element-binding protein-1 in the regulation of lipogenic gene expression by polyunsaturated fatty acids. The Journal of biological chemistry 274:35840-35844

38. Desvergne B, Wahli W 1999 Peroxisome proliferator-activated receptors: nuclear control of metabolism. Endocrine reviews 20:649-688

39. Kersten S, Desvergne B, Wahli W 2000 Roles of PPARs in health and disease. Nature 405:421-424

40. Latruffe N, Vamecq J 1997 Peroxisome proliferators and peroxisome proliferator activated receptors (PPARs) as regulators of lipid metabolism. Biochimie 79:81-94

41. Minnich A, Tian N, Byan L, Bilder G 2001 A potent PPARalpha agonist stimulates mitochondrial fatty acid beta-oxidation in liver and skeletal muscle. American journal of physiology Endocrinology and metabolism 280:E270-279

42. Nakatani T, Tsuboyama-Kasaoka N, Takahashi M, Miura S, Ezaki O 2002 Mechanism for peroxisome proliferator-activated receptor-alpha activator-induced up-regulation of UCP2 mRNA in rodent hepatocytes. The Journal of biological chemistry 277:9562-9569

43. Power GW, Newsholme EA 1997 Dietary fatty acids influence the activity and metabolic control of mitochondrial carnitine palmitoyltransferase I in rat heart and skeletal muscle. The Journal of nutrition 127:2142-2150

44. Schoonjans K, Staels B, Auwerx J 1996 The peroxisome proliferator activated receptors (PPARS) and their effects on lipid metabolism and adipocyte differentiation. Biochimica et biophysica acta 1302:93-109

45. Krey G, Braissant O, L’Horset F, Kalkhoven E, Perroud M, Parker MG, Wahli W 1997 Fatty acids, eicosanoids, and hypolipidemic agents identified as ligands of peroxisome proliferator-activated receptors by coactivator-dependent receptor ligand assay. Mol Endocrinol 11:779-791

46. Reddy JK, Mannaerts GP 1994 Peroxisomal lipid metabolism. Annual review of nutrition 14:343-370

47. Delarue J, Matzinger O, Binnert C, Schneiter P, Chiolero R, Tappy L 2003 Fish oil prevents the adrenal activation elicited by mental stress in healthy men. Diabetes & metabolism 29:289-295

48. Noreen EE, Sass MJ, Crowe ML, Pabon VA, Brandauer J, Averill LK 2010 Effects of supplemental fish oil on resting metabolic rate, body composition, and salivary cortisol in healthy adults. Journal of the International Society of Sports Nutrition 7:31

49. Diez JJ, Iglesias P 2003 The role of the novel adipocyte-derived hormone adiponectin in human disease. European journal of endocrinology / European Federation of Endocrine Societies 148:293-300

50. Nedvidkova J, Smitka K, Kopsky V, Hainer V 2005 Adiponectin, an adipocyte-derived protein. Physiological research / Academia Scientiarum Bohemoslovaca 54:133-140

51. Walker BR 2001 Activation of the hypothalamic-pituitary-adrenal axis in obesity: cause or consequence? Growth hormone & IGF research : official journal of the Growth Hormone Research Society and the International IGF Research Society 11 Suppl A:S91-95

52. Salehi M, Ferenczi A, Zumoff B 2005 Obesity and cortisol status. Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme 37:193-197

53. Bjorntorp P, Rosmond R 2000 Obesity and cortisol. Nutrition 16:924-936

54. Pasquali R, Vicennati V, Cacciari M, Pagotto U 2006 The hypothalamic-pituitary-adrenal axis activity in obesity and the metabolic syndrome. Annals of the New York Academy of Sciences 1083:111-128

55. Couet C, Delarue J, Ritz P, Antoine JM, Lamisse F 1997 Effect of dietary fish oil on body fat mass and basal fat oxidation in healthy adults. International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity 21:637-643

56. Kabir M, Skurnik G, Naour N, Pechtner V, Meugnier E, Rome S, Quignard-Boulange A, Vidal H, Slama G, Clement K, Guerre-Millo M, Rizkalla SW 2007 Treatment for 2 mo with n 3 polyunsaturated fatty acids reduces adiposity and some atherogenic factors but does not improve insulin sensitivity in women with type 2 diabetes: a randomized controlled study. The American journal of clinical nutrition 86:1670-1679

57. Delarue J, Couet C, Cohen R, Brechot JF, Antoine JM, Lamisse F 1996 Effects of fish oil on metabolic responses to oral fructose and glucose loads in healthy humans. The American journal of physiology 270:E353-362

58. Huffman DM, Michaelson JL, Thomas T, R. 2004 Chronic supplementation with fish oil increases fat oxidation during exercise in young men. . JEPonline 7:48-56

59. Hill AM, Buckley JD, Murphy KJ, Howe PR 2007 Combining fish-oil supplements with regular aerobic exercise improves body composition and cardiovascular disease risk factors. The American journal of clinical nutrition 85:1267-1274

60. Thorsdottir I, Tomasson H, Gunnarsdottir I, Gisladottir E, Kiely M, Parra MD, Bandarra NM, Schaafsma G, Martinez JA 2007 Randomized trial of weight-loss-diets for young adults varying in fish and fish oil content. Int J Obes (Lond) 31:1560-1566

61. Kunesova M, Braunerova R, Hlavaty P, Tvrzicka E, Stankova B, Skrha J, Hilgertova J, Hill M, Kopecky J, Wagenknecht M, Hainer V, Matoulek M, Parizkova J, Zak A, Svacina S 2006 The influence of n-3 polyunsaturated fatty acids and very low calorie diet during a short-term weight reducing regimen on weight loss and serum fatty acid composition in severely obese women. Physiological research / Academia Scientiarum Bohemoslovaca 55:63-72

62. Brilla LR, Landerholm TE 1990 Effect of fish oil supplementation and exercise on serum lipids and aerobic fitness. The Journal of sports medicine and physical fitness 30:173-180

63. Warner JG, Jr., Ullrich IH, Albrink MJ, Yeater RA 1989 Combined effects of aerobic exercise and omega-3 fatty acids in hyperlipidemic persons. Medicine and science in sports and exercise 21:498-505

64. Krebs JD, Browning LM, McLean NK, Rothwell JL, Mishra GD, Moore CS, Jebb SA 2006 Additive benefits of long-chain n-3 polyunsaturated fatty acids and weight-loss in the management of cardiovascular disease risk in overweight hyperinsulinaemic women. Int J Obes (Lond) 30:1535-1544

65. DeFina LF, Marcoux LG, Devers SM, Cleaver JP, Willis BL 2011 Effects of omega-3 supplementation in combination with diet and exercise on weight loss and body composition. The American journal of clinical nutrition 93:455-462

66. Bays HE, Maki KC, Doyle RT, Stein E 2009 The effect of prescription omega-3 fatty acids on body weight after 8 to 16 weeks of treatment for very high triglyceride levels. Postgraduate medicine 121:145-150

About Monica Mollica > www.trainergize.com

Monica Mollica has a Bachelor and Master degree in Nutrition from the University of Stockholm / Karolinska Institue, Sweden. She has also done PhD level course work at renowned Baylor University, TX. Today Monica works as diet/health counselor, medical writer, health journalist, and website developer. She is also a fitness model.

As a young athlete, Monica realized the importance of nutrition for maximal performance, and went for a major in Nutrition at the University of Stockholm. During her years at the University she was a regular contributor to Swedish fitness and bodybuilding magazines. She has written a book (in Swedish) for health professionals, “Functional Foods for Health and Energy Control” with over 700 scientific research citations, and authored several book chapters in Swedish popular press publications.

After having earned her Bachelor and Master degree in Nutrition, she completed one semester at the PhD-program “Exercise, Nutrition and Preventive Health” at Baylor University Texas, Department of Health Human Performance and Recreation.

Having lost her father in a lifestyle induced heart attack at an age of 49, she is specializing in cardiovascular health, and primordial/primary prevention. She is a strong advocate of early intervention in adolescence and young adulthood, and the importance of lifestyle habits for health promotion at all ages.

Today, Monica is sharing her solid academic knowledge, real-life hands on experience and passion by offering diet/nutrition/exercise/health consultation services, and working as a health journalist and medical writer, specializing in fitness, health promotion and anti-aging.

CLA Supplementation For Weight Management

By Ross Edgley, BSc Sports Science

Daily supplementation of Conjugated Linoleic Acid (CLA) may reduce body fat and favorably change body composition researchers at I-Shou University in China reveal. The study led by Chih-Kun Huang, MD took 63 subjects and randomly assigned them to receive daily supplements of CLA (3.4 grams) or a placebo (salad oil) in a milk product for 12 weeks. Results showed that after 12 weeks of supplementation participants in the CLA group displayed average decreases in bodyweight of 0.7kg, BMI of 0.31 kg/m2, body fat mass of 0.58kg and fat percentage of 0.6%. Chih-Kun Huang said ‘to our knowledge this is the first randomized, double-blinded, placebo-controlled clinical trial to evaluate the effect of CLA on body fat composition and the results seem promising.’ Concluding ‘the consumption of milk supplemented with CLA (3.4 grams per day) significantly decreased the body weight, BMI, body fat mass, fat percentage, subcutaneous fat mass and the waist-to-hip ratio in subjects over just 12 weeks.’

But what exactly is conjugated linoleic acid and what are the benefits for athletes, bodybuilders or gym goers? Well it’s a naturally occurring fatty acid found mainly in cheese and beef however it’s only found in these foods in very low doses (no way near the 3.4 grams used in the study at I-Shou University previously mentioned). Furthermore similar promising results were found at Uppsala University in Sweden where they found supplementing 4.2 grams of CLA a day in healthy, young subjects resulted in a 3.8% decrease in body fat compared with individuals not taking the supplement.

Whilst it’s clear studies support the use of CLA to lower your body fat, experts still aren’t entirely clear as to the mechanism by which it works. It’s been theorized that it reduces your body fat in 3 ways: firstly research conducted at the University of País Vasco found that conjugated linoleic acid interferes with a substance in your body called lipoprotein lipase, which aside from various other roles in the body is mainly responsible for storing fat in the body. Furthermore Simón. E et al 2005 of the same study found that CLA actually helped the body use its existing fat for energy. Therefore studies show CLA not only inhibits the storing of fat it also enhances the burning of fat.

Thirdly, and perhaps most important for athletes, bodybuilders or those training for aesthetics, it was found CLA supplementation actually increased muscle mass as well as lowering body fat. This in turn increases your basal metabolic rate and the amount of calories you burn at rest. Scientists concluded therefore that CLA doesn’t actually make you lose weight (like thermogenics do) but rather it favorably changes your body composition (i.e. body fat to muscle ratio). This notion is further supported by the 1 year human study published in the American Journal of Clinical Nutrition that found CLA supplementation produced a 9% reduction in body fat and 2% increase in muscle mass.

So in summation, CLA supplementation may prove effective for athletes wanting to change their body composition (such as American Football players wanting to get rid of unwanted fat and develop a more powerful and ‘functional’ physique) but perhaps not so effective for athletes wanting to lower their weight such as boxers, martial artists or anyone athletes needing to make a weight cut. Regarding dosage, there seems to be different amounts that have proved effective in various studies ranging from 1.4 grams to 6.5 grams. The most common dosage seems to be 3 grams per day, so it may be advisable to start with this dosage and increase or decrease depending on how your body responds.

About the Author: Ross Edgley is a Sports Scientist with a BSc Degree in Sports Science from Loughborough University. Ross Edgley was a Strength and Conditioning Coach at The English Institute of Sport working alongside Britain’s Olympic Physicians, Nutritionists and S&C coaches and is currently fitness and nutrition advisor to a range of athletes and the UK’s biggest online sports nutrition company Myprotein.com.

References:

Mougios V, Matsakas A, Petridou A, Ring S, Sagredos A, Melissopoulou A,Tsigilis N, Nikolaidis M. Effect of supplementation with conjugated linoleic acid on human serum lipids and body fat. J NutrBiochem 2001;12:585-94

Blankson H, Stakkestad JA, Fagertun H,Thom E, Wadstein J, Gudmundsen O.Conjugated linoleic acid reduces body fat mass in overweight and obese humans. J.Nutr. 130:2943-2948 (2000).

Roche HM, Noone E, Nugent A, Gibney MJ. Conjugated linoleic acid: a novel therapeutic nutrient? Nutr. Res. Rev. 187 (2001).

Smedman A,Vessby B.Conjugated linoleic acid supplementation in humans – Metabolic effects. Lipids 36:773-781 (2001).

Lowery L.M., Appicelli P.A. and Lemon P.W.R. (1998). Conjugated linoleic acid enhances muscle size and strength gains in novice bodybuilders. Medicine and Science in Sports and Exercise, 30.182.

Kreider RB, Ferreira MP,Greenwood M, Wilson M, Almada AL. Effects of conjugated linoleic acid supplementation during resistance-training on body composition. Bone density, strength, and selected hematological markers. J Strength Cond Res 2002; 3:325-34.

Berven G, Bye A, Hals O, Blankson H, Fagertun H, Thom E,Wadstein J, Gudmundsen O. Safety of conjugated linoleic acid (CLA) in overweight or obese human volunteers. European J. Lipid Sci.Technol. 102:455;462 (2000).

Thom E,Wadstein J, Gudmundson O. Conjugated linoleic acid reduces body fat in healthy exercising humans. J Int Med Res 2001;29:392-6.

Kamphuis MMJW, Lejeune MPGM, Saris WHM, Westerterp-Plantinga MS. The effect of conjugated linoleic acid supplementation after weight loss on body weight regain, body composition, and resting metabolic rate in overweight subjects. Int J Obesity 2003; 27: 840-847.

Gaullier Jm, Hasle J,Hoye K., Kristiansen K., Berven G., Blankson H and Gudmonson O. Effects of CLA in moderate overweights during one year supplementation. 94th AOCS annual meeting and Expo, Kansas,May 2003

A. Zabala et al (2006) ‘Trans-10,cis-12 Conjugated linoleic acid inhibits lipoprotein lipase but increases the activity of lipogenic enzymes in adipose tissue from hamsters fed an atherogenic diet.’ Br J Nutr. 2006 Jun;95(6):1112-9.

The Fab Five Fats for Getting Lean

by Melody Garza MS RD CISSN

Yup you heard right, the best fats for getting lean. You might think that to lose weight, you need to cut the fat out of your meals. After all, fat is higher in calories than protein and carbs, and low-fat diets have been popular since the Senate Nutrition Committee first recommended them in the late 1970s. But research shows that a moderate-fat diet (with about 35 percent of calories consumed coming from fat) will help you drop pounds permanently, feel full longer, and avoid bingeing. The trick is to eat the right kind of fat to increase satisfaction and boost weight loss. Here’s why it’s important to eat fat and the five of the best fat sources to add to your diet.

How eating fat will help you lose fat.

In 2008, researchers at Ben-Gurion University of the Negev in Israel found that people who followed low-fat diets lost less weight than people who followed low-carb or moderate-fat diets. The low-fat group lost an average of 6.5 pounds over 2 years, but the low-carb and moderate-fat groups lost about 10 pounds. Women did especially well on the moderate-fat diet, losing an average of 13 pounds during the study.

Fat is an important element in weight loss for several reasons:

Fat helps your body control blood sugar and insulin spikes after eating carbohydrates. Better sugar metabolism means less fat storage.
Fat slows down digestion and aids nutrient absorption. You’ll stay fuller longer and get more health benefits from the food you eat.
Essential fatty acids (like omega-3s) may boost your metabolic rate and increase fat burning.
Fat tastes good. It also provides a “mouthfeel” that is satisfying, which can help you be happy with less food.

Eating more fat may also help you stick to your diet longer. In a study conducted by Brigham and Women’s Hospital in Boston, participants got either 20 percent of their calories from fat or 35 percent of their calories from fat. After 6 months, both groups had lost weight. But after 18 months, only 20 percent of the people in the low-fat group were still following the diet, compared with 54 percent of the people in the moderate-fat group. Likewise, the subjects in the moderate-fat group had maintained their weight loss, while the low-fat group participants had gained most of the weight back.

If you reach for a box of low-fat or fat-free crackers or cookies because you want to lose weight, you may actually be sabotaging your diet. Manufacturers frequently replace fat with sugar in packaged food items to make them taste better. You think you’re making a good decision by eating fat-free products, but the excess sugar and refined flour can lead to fatigue, cravings, mood swings, and weight gain caused by the overproduction of insulin—the fat-storage hormone. As a snack, a sliced apple with some peanut butter or a salad with oil and vinegar dressing would be a better weight loss choice. The complex carbs and healthy fats will maintain your blood sugar levels, boost your energy, and keep you satisfied longer.

What kind of fat should you eat?

To get lean, you need to eat the right kind of fat. Avoid saturated and trans fats (which are found in red meat, full-fat dairy products, and many packaged foods), and instead choose monounsaturated and polyunsaturated fats. Here are some of the best sources of fat to help you reach your weight goal.

Fish – Fish like salmon, albacore tuna, herring, mackerel, and sardines contains beneficial amounts of omega-3 fatty acids. Most experts agree that eating two servings of fatty fish per week is safe for people who are worried about mercury or other toxins. (Pregnant women should consult with their doctors about consuming fish.) If you don’t like fish, a quality supplement like Beachbody’s Core Omega-3™ will give you the benefits without the fishy taste.

Olive oil – Heart-healthy oils like olive, canola, and peanut oil are excellent sources of fat for dieters. They have also been shown to lower bad cholesterol and reduce the risk of heart disease. Use them sparingly when sautéing, or drizzle them over your favorite salad or vegetables with a little vinegar and some herbs to maximize the absorption of nutrients. Moderation is important: You really only need about a teaspoon of oil to get all its benefits. Using more will add significant calories.

Avocados – Eat a spinach and carrot salad with a little avocado, and you’ll not only get a dose of good fat, but you’ll also absorb more phytonutrients like lutein and beta-carotene. Scientists at Ohio State University in Columbus found that more antioxidants were absorbed when people ate a salad containing avocados than when they ate a salad without this tasty fruit. One-quarter of an avocado will add flavor while only adding about 75 calories.

Nuts – Almonds, walnuts, pecans, and peanuts are powerhouses of good nutrition—full of antioxidants, minerals, and monounsaturated fat. The Nurses Health Study, where more than 86,000 nurses were followed for 14 years, found that those who ate nuts regularly (about an ounce per day) tended to weigh less than those who didn’t. The protein, fat, and fiber make nuts more filling, which helps dieters stay on track. Plus there’s a psychological bonus to eating nuts: Because they’re rich and satisfying, you probably won’t feel like you’re on a diet.

Flaxseeds Packing the triple wallop of fat, protein, and fiber, flaxseeds are a delicious and healthful addition to any diet. You can grind them up and add them to oatmeal, yogurt, salads, or vegetables, or pretty much anywhere you want a nutty crunch. They’re a plant source of omega-3 fatty acids, making them a good choice for vegetarians or the aforementioned non-fish-loving folks. Ground flaxseeds also have 3 grams of fiber per tablespoon, which helps slow digestion and keep your blood sugar stable.

Making room for fat Certain fats might be considered necessary for health, but that’s not a cue to overindulge. At 9 calories per gram, fat is a more concentrated energy source than either protein or carbohydrates (each has 4 calories per gram). You need to be mindful of your overall caloric intake if you want to eat more fat and lose weight. But when you feel full and satisfied after eating the right kinds of fat, you’ll probably find it a bit easier to manage your calories.

BIO – Melody Garza MS RD CISSN – First & foremost, Melody Garza is a daughter, sister, aunt, girlfriend, best friend, & athlete … without these core roles, there would be an inability for her to triumph as a successful entrepreneur. Melody was born in Mexico & grew up in Texas; however, her life is on the sunny beaches of Florida now. She is a Registered Dietitian with a Bachelors’ degree in Kinesiology and Sports Science, a Masters in Nutrition and Dietetics, licensed as a massage therapist/colon hydrotherapist, and a Certified Sports Nutritionist with the International Society of Sports Nutrition. Melody Garza was a 3-sport athlete at the high school level and continued as a 2-sport athlete in college. Now, she plays beach volleyball competitively; winning several women and coed tournaments. At 23 Melody co-owned an in-home personal training/massage therapy business in Naples, Fl. Although she left the company to pursue a higher education, entrepreneurship is a passion of hers, especially in the wellness industry. Now at 30,Melody offer services ranging from fitness coaching to nutrition counseling; sharing alternative forms of medicine to being environmentally friendly; and business consulting for those who want to work from home. Melody strongly believes in a holistic approach to wellness. Wellness is a life-style that adheres to a balance of health that decreases the likelihood of becoming ill physically, mentally, and spiritually. Comprised of seven dimensions and characteristics, wellness is achieved when a person’s like includes all seven elements in combination and in whole. She is committed to making a difference in people’s lives by helping them achieve total wellness. As a coach and mentor, Melody is more like an accountability partner. She’s been through the journey of seeking total wellness, so Melody doesn’t speak to you as a trainer but rather a voice of experience. For more info, go to www.LiveWellWithMel.com