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Nutritional composition of red meat

2007; Wiley; Volume: 64; Issue: s4 Linguagem: Inglês

10.1111/j.1747-0080.2007.00197.x

1839-3322

Peter Williams,

Fatty Acid Research and Health

The lean component of red meat is: An excellent source of high biological value protein, vitamin B12, niacin, vitamin B6, iron, zinc and phosphorus A source of long-chain omega-3 polyunsaturated fats, riboflavin, pantothenic acid, selenium and, possibly, also vitamin D Relatively low in fat and sodium A source of a range of endogenous antioxidants and other bioactive substances, including taurine, carnitine, carnosine, ubiquinone, glutathione and creatine The Food Standards Australia New Zealand (FSANZ) Food Standards Code defines meat as ‘the whole or part of the carcass of any buffalo, camel, cattle, deer, goat, hare, pig, poultry, rabbit or sheep, slaughtered other than in a wild state, but does not include eggs, or foetuses’.1 This definition does not include kangaroo meat, which is now widely available for purchase in Australia and is likely to be considered as meat. The term ‘meat’ may refer only to meat flesh (skeletal muscle plus any attached connective tissue or fat), but the FSANZ definition also includes offal (i.e. meat other than meat flesh, including brain, heart, kidney, liver, pancreas, spleen, thymus, tongue and tripe) although it excludes bone and bone marrow. In Australia, the term ‘red meat’ is used by the meat industry to refer to meat from cattle, sheep and goat (i.e. beef, veal, lamb, mutton and goat meat). It does not include meat from pigs (e.g. pork, bacon, ham) or kangaroo, nor less common game meats like buffalo and camel, although nutrient composition of some of these products is now becoming available.2 Purchased red meat usually consists of both lean tissue (muscle) and fat tissue, which can be either distributed throughout the muscle as marbling (internal fat) or surrounding the muscle meat as selvage or external fat. In trimmed lean meat, it is usually the external fat only that is removed.3 Processed meat means a product containing no less than 30% meat, that has undergone a method of preservation other than freezing, and includes manufactured meat and cured and/or dried meat flesh (e.g. sausages, salami, canned meats).1 This paper outlines the key nutrients for which red meat could be considered a significant dietary source based on data of relative composition. Red meat contains high biological value protein and important micronutrients that are needed for good health throughout life. It also contains a range of fats, including essential omega-3 polyunsaturated fats. Recent analyses have shown that there has been a significant trend to leaner cuts of meat over the past two decades.4 While the nutritional composition will vary somewhat according to breed, feeding regimen, season and meat cut, the following discussion will show that, in general, lean red meat has a relatively low fat content, is moderate in cholesterol, and is rich in protein and many essential vitamins and minerals. Table 1 presents the typical nutrient composition of samples of fat-trimmed Australian red meat (beef, veal, lamb and mutton), based on recent analyses of national retail samples,5-7 and compares this with the new Australian recommended dietary intakes (RDI).8 While there are some differences between the four meats, in general lean red meat is a particularly good source of protein, niacin, vitamin B6, vitamin B12, phosphorus, zinc and iron, with 100 gproviding more than 25% RDI of these nutrients. It also provides more than 10% RDI of riboflavin, pantothenic acid and selenium. Of the four meats, mutton is particularly nutrient-dense, and the richest source of thiamin, vitamins B6 and B12, phosphorus, iron and copper. Raw red muscle meat contains around 20–25 g protein/100 g. Cooked red meat contains 28–36 g/100 g, because the water content decreases and nutrients become more concentrated during cooking. The protein is highly digestible, around 94% compared with the digestibility of 78% in beans and 86% in whole wheat.9 Protein from meat provides all essential amino acids (lysine, threonine, methionine, phenylalanine, tryptophan, leucine, isoleucine, valine) and has no limiting amino acids. Protein Digestibility Corrected Amino Acid Score is a method of evaluating the protein quality, with a maximum possible score of 1.0. Animal meats like beef have a score of approximately 0.9, compared with values of 0.5–0.7 for most plant foods.10 The amino acid glutamic acid/glutamine is present in meat in the highest amounts (16.5%), followed by arginine, alanine and aspartic acid. Table 2 shows examples of the amount of separable fat found on typical retail cuts of red meat available for sale in Australia.4, 11 There is a wide variation in the amount of total separable fat between the different beef and lamb cuts, ranging from 37% in loin lamb chops to only 1% in veal steak. The gross composition values show that there generally appears to be less separable fat in the untrimmed raw retail samples collected in 2002 compared with those reported from 1983 to 1986.12, 13 For example, the percentage separable fat has declined from 18% to 12% in rump steak and from 10% to 6.6% in fillet steak. This trend to lower-fat cuts has been due to three factors: selective breeding and feeding practices designed to increase the carcase lean-to-fat ratio; meat classification and marketing systems designed to favour leaner products; and modern butchery techniques such as seaming out whole muscles and trimming away intermuscular fat.14 Given the trend to prepare and consume meat after trimming external fat, the most recent nutritional analyses show that all trimmed lean red meats are relatively low in fat ( 5. The copper content in raw lean cuts range from 0.055 to 0.190 mg/100 g in beef and veal, 0.090 to 0.140 mg/100 g in lamb, and 0.190 to 0.240 mg/100 g in mutton, all significantly higher than values reported in British meat.22 In addition to the traditional essential nutrients with defined requirements, there are a number of meat-based bioactive substances that have been studied for their potential beneficial effects.23 An amino acid in meat of particular interest is taurine. Meat is rich in taurine (110 mg/100 g in lamb and 77 mg/100 g in beef),24 and is the most abundant dietary source. While taurine can be derived from methionine and cysteine metabolism, there have been suggestions that it should be considered a conditionally essential amino acid during lactation, during times of immune challenge, and may offer protection against oxidative stress.25, 26 L-carnitine (beta-hydroxy-gamma-trimethyl amino butyric acid) transports long-chain fatty acids across the inner mitochondrial membranes to produce energy during exercise. Although not an essential nutrient, needs appear to be increased during pregnancy and after strenuous exercise, and a recommended intake of 24–81 mg/day has been proposed.27 It is found in skeletal muscle and is particularly abundant in sheep muscle at up to 209 mg/100 g28 and in beef at around 60 mg/100 g.29 Conjugated linoleic acid (CLA) has antioxidant and immunomodulatory properties and may also play a role in the control of obesity.30 As rumen bacteria convert linoleic acid to CLA, it is most abundant in the fat of ruminant animals, although CLA is also present in partially hydrogenated vegetable oils. The CLA content of meat is affected by several factors, including breed, age and food composition.31 It is mostly present in the fat component of red meat (approximately 1 g/100 g) but is also found in the muscle meat: 10–46 mg/100 g in raw meat and 30–100 mg/100 g in cooked red meat.15 Several endogenous compounds (including ubiquinone, glutathione, lipoic acid, spermine, carnosine, anserine) have been studied in skeletal muscle.32 Both carnosine and anserine are antioxidative histidyl dipeptides and the most abundant antioxidants in meat. Carnosine is present at around 365 mg/100 g in beef33 and 400 mg/100 g in lamb.24 Because carnosine is absorbed into the plasma intact, it is a potentially important dietary antioxidant.34 Coenzyme Q10 (ubiquinone) also has antioxidant properties, and supplements have shown beneficial effects in some studies.35 Levels in meat are estimated to be around 2 mg/100 g in both beef and sheep meat.33 Glutathione is a component of glutathione peroxidase enzymes, which have an important antioxidant role in the body. It may also play a role in immune response and enhancing iron absorption by contributing to the ‘meat factor’. Glutathione levels in red meat are estimated to be 12–26 mg/100 g in beef,36 and most meats contain approximately twice the level of glutathione of poultry and up to 10 times the content found in fish. Creatine and its phosphorylated derivative creatine phosphate play an important role in muscle energy metabolism and, under some circumstances, creatine supplements can enhance muscle performance.37 Red meat contains approximately 350 mg/100 g33 and is the principal dietary source for humans. Creatine in meat is readily absorbed,38 but typical intakes are unlikely to provide the levels of creatine used for supplementation of sports performance (up to 15 g/day). Table 5 provides a comparison of the nutrient content of liver, kidney, heart, brains and tripe from beef and lamb. From this table, the following general statements can be made: All organ meats (except tripe) are extremely rich in vitamin B12, with much more than 100% of the RDI in 100 g Liver is a rich source of protein, iron, zinc, riboflavin, niacin, vitamin A and folate Kidney is rich in protein, thiamin, riboflavin, iron and a source of folate Heart is a good source of iron and zinc, but not as good as liver and kidney Brains and tripe are not particularly good sources of vitamins or minerals All organ meats are high in cholesterol, especially brains, and mostly low in sodium Liver is such a rich source of retinol that consumption of large amounts is not recommended in pregnancy.40 The Australian Guide to Healthy Eating recommends that a healthy diet include 1–2 serves per day of meat or equivalents such as eggs, nuts or legumes.41 However, the vegetarian alternatives that are used as protein sources have very different nutritional profiles from red meat, as shown in Table 6, which compares the percentage of an adult male daily requirement provided by 100 g of food. Lean beef and lamb are better protein sources than all the options except cheese, and are mostly lower in sodium. The meats are higher in zinc and niacin than all the alternatives, and also higher in omega-3 fats than the vegetable sources; a better source of vitamin B6 (except for the walnuts); richer in selenium (except in comparison to eggs); and are the best source of vitamin B12, which is absent entirely from the vegetable products. Egg, cheese and nuts are also much higher sources of total fat than lean beef or lamb. Thus, data on the nutritional composition of lean red meat highlight the relative value of this food category in delivering essential nutrients in a reasonably balanced form.