Changes in the composition of the fatty acids and aldehydes of meat lipids after heating

The effects of heating at 132°C on the fatty acids and fatty aldehydes of neutral lipids and phospholipids of lean beef, veal, lamb, pork and chicken were studied. Heating caused hydrolysis of the plasmalogens in the phospholipids, and varying amounts of the liberated fatty aldehydes were recovered in the neutral lipid fractions. Beef phosphatidyl choline lost more polyunsaturated fatty acids than that of the other meats. Beef and veal phosphatidyl ethanolamine lost more polyunsaturated fatty acid than that of lamb, pork or chicken, but the effect was obscured by the influx of fatty acids from elsewhere into this fraction after heating.     

Phospholipids of marine origin. IV. The abalone (Haliotis midae)

Phospholipids of the abalone were separated into component fractions by chromatography on silicic acid. The phospholipids were remarkable for the presence (6%) of an unusual sphingolipid liberating 2-amino-ethylphosphonic acid on hydrolysis, and for the high proportion of plasmalogens (23%). The presence of phosphatidyl ethanolamine plus ethanolamine plasmalogen (32%), phosphatidyl serine (5%), phosphatidyl inositol (5%), phosphatidyl choline (41%) and sphingomyelin (1%) were also demonstrated. The fatty acid distribhion in the phospholipids, the non-phosphorylated lipids and the unusual sphingolipid was determined by gas chromatography. In general these results show a similarity between the phospholipid and the non-phosphorylated lipid fatty acids, the former being richer in long chain polyunsaturated fatty acids. Fatty acids of the unusual sphingolipid were outstanding for the high palmitic (53%) and stearic acid (15%) content.     

Phospholipids of marine origin. I. The hake (Merlucius capensis, Castelnau)

The composition of hake flesh and hake liver phospholipids was determined by an hydrolytic procedure and by chromatography on silicic acid. The hydrolytic procedure involved determination of lecithin-choline, sphingornyelin-choline, lyso lecithin-choline, ethanolamine, serine, myo-inositol and the average equivalent weight of the liberated fatty acids. The composition of the flesh and liver phospholipids was very similar, the latter contained more sphingomyelins and cardiolipins at the expense of phosphatidyl choline. Phospholipid fatty acids had a markedly higher equivalent weight and unsaturation than the corresponding non-phosphorylated lipid fatty acids. The cephalin fractions contained more long chain polyunsaturated fatty acids, more stearic acid and less palmitic acid than the phosphatidyl choline fractions. Sphingomyelins were particularly rich in lignoceric and nervonic acid.     

A RESEARCH NOTE CHARACTERISTICS OF EXPANDED EXTRUDATES CONTAINING NONMEAT INGREDIENTS AND LAMB, PORK, OR BEEF

This study was conducted to evaluate chemical, physical, nutritional, and sensory properties and storage stability of expanded extrudates produced from blends of nonmeat ingredients and lamb, pork or beef. Raw material blends contained 24.2% lean meat, 22% corn starch, 49.75–50.24% defatted soy flour, 0–0.62% separable meat fat, and 3.40–3.58% added water, and processed at 162C. Total fat contents of dried extrudates containing lamb, pork, and beef (their extrudates designated as L, P, and B) were 4.51, 4.29, and 3.83%, respectively. Bulk density and sensory hardness scores were greater for L, the extrudates with more fat. L and P exhibited less lipid oxidation than B. This difference was not associated with product fat content or fatty acid composition; L and P contained more fat than B and the fat in P was more polyunsaturated.     

EFFECT OF TOTAL LIPIDS, TRIACYLGLYCEROLS AND PHOSPHOLIPIDS ON MALONALDEHYDE CONTENT IN DIFFERENT TYPES OF CHICKEN MUSCLES AND THE CORRESPONDING SKIN

Total lipid extracted from chicken breast, thigh, drumstick and wing muscles and the corresponding skin was analyzed for triacylglycerols and phospholipids as well as their fatty acid composition and also for malonaldehyde and lipid oxidation fluorescent products (LOFP) content.
Muscles consist of only 1.2–3.2% lipid, but lipid concentration in the skin ranges from 22.2–31.7%. The percentage of phospholipid in muscle lipid was 20 times more than that of the skin. The fatty acids of triacylglycerols from muscles and skin contained less than 2% of polyunsaturated fatty acids (PUFA). Fatty acids from phospholipid of the meat contained over 15% arachidonic acid and substantial amounts of PUFA with 22 carbon atoms. Skin phospholipid had 10.6–13.2% of all PUFA.
Differences in the lipid composition of muscles and skin resulted in a concentration of malonaldehyde in muscle lipids of 30–50 mg/g, a value more than 15 times greater than in lipids of the skin. However, the TBA number of the skin was the same or a little bit lower as compared to muscles. The relative levels of LOFP in the organic phase of Folch-extracted muscle and skin tissues paralleled the trend found for malonaldehyde concentrations.
It was concluded that the simultaneous determination of total lipid content and malonaldehyde concentration in lipid extracted from various chicken muscles and corresponding skin was the most informative method for evaluation of precursors of lipid oxidation in fresh tissue.     

Phospholipids of marine origin. V. The crab--a comparative study of a marine species (Cyclograpsus punctatus) and a fresh water species (Potamon)

A comparison has been made between phospholipids extracted from a marine crab and from a fresh water crab. Marine crab (body and viscera) contained a phospholipid fraction which liberated 2-aminoethylphos-phonic acid upon hydrolysis, while this substance was absent from the fresh water crab. Marine crab phospholipids had a higher content of phosphatidyl choline (57%), a higher content of phosphatidyl serine (5%) but a lower content of phosphatidyl ethanolamine (22%) than phospholipids from the fresh water crab (respective values: 52, 2 and 27%). Marine crab phospholipids and non-phosphorylated lipids were richer in C20 plus C22 fatty acids but poorer in C18: 2 acid, than were the corresponding lipids from the fresh water crab.     

The fatty acid composition of the main phospholipid fractions of the rumen and abomasum tissues of foetal and adult sheep

The fatty acid composition has been determined on phosphatidyl choline, phos-phatidyl ethanolamine and sphingomyelin fractions earlier isolated from the rumen and abomasum tissues of foetal and of adult Romney sheep. The major proportion of polyunsaturated fatty acids was found in the phosphatidyl ethanolamine (17 to 43%) fraction and this was reduced in the phosphatidyl choline (7 to 25%) and sphingomyelin (1 to 4%) fractions. These features are in keeping with the results for mammalian tissues generally. The phosphatidyl ethanolamine fractions were further characterised by the low content of palmitic acid (<8%) compared with 25 to 30 % in the phosphatidyl choline fractions and 29 to 52% in the sphingomyelin fractions and by the occurrence of cyclopropane fatty acids. Consistent with the findings of other workers on mammalian tissues, the sphingomyelin fractions contained a relatively high content (16 to 27%) of higher w-saturated fatty acids including 22:0,23:0,24:0 and 25:0 and of tetracos-14-enoic (24:1 ω9) acid (5 to 16%). The total amounts of acids above C₂₀ tended to vary inversely with the levels of palmitic acid whereas the levels of stearic acid were relatively constant at 13 to 17%. Changes in fatty acid composition with age were generally not marked but the tissues of the foetus were distinguished from those of the foetus were distinguished from those of the adult by their substantial amount of eicosa-5,8,11-trienoic (20:3 ω9) acid together with relatively low contents of linoleic (18:2 ω6) and linolenic (18:3 ω3) acids and to a leser extent by reduced level of acids of the ω3 series. This was particularly reflected by the ratios of ω6/ω3 C₂₀ + C₂₂ acids in the phosphatidyl ethanolamine fractions, the valucs for the foetal rumen and abomasum tissues being 1.03 and 1.07, respectively, compared with corresponding values of 0.78 and 0.72 found in adult sheep. The results are consistent with a requirement for C₂₀ and C₂₂ polyunsaturated acids of the ω3 and ω6 series and some penetration of maternal fatty acids through the placenta. The resemblance between the fatty acid make-up and composition of foetal and maternal phospholipids suggests the possibiligy of transference of intact or lyso-phospholipids from the mother to the foetus through the placenta. However, such a possibility is counter-indicated by consideration of previous work using labelled intermediates and by the mechanism of conversion of linoleic and linolenic acids requiring their CoA derivatives in the formation of the corresponding polyunsaturated C₂₀ + C₂₂ acids. Nevertheless, the sharp cut-off of exogenous maternal fatty acids from the foetal triglycerides and their inclusion in the foetal phospholipids are not readily explainable.     

Fatty acid content and composition of UK beef and lamb muscle in relation to production system and implications for human nutrition

Although ruminant meats normally have a low ratio of polyunsaturated fatty acids (PUFA) to saturated fatty acids (P:S ratio), the muscle contains a range of C(20) and C(22) PUFA of both the n-6 and n-3 series of potential significance in human nutrition. However, information on the amounts of these fatty acids in muscle and how they are modified by production system is limited In this study, the content and composition of fatty acids was determined in several muscles from beef steers fed grass (grazed) and bulls fed cereal concentrates. These are the two main types of beef production in the UK and Europe. Muscle fatty acids were also determined in lambs fed grass (grazed on pasture). The total fatty acid content of all muscles studied was less than 35 g kg(-1). The percentages in total fatty acids of all n-3 PUFA were higher in muscles from steers fed grass than from bulls fed concentrates whereas all n-6 PUFA were higher in the latter. The gluteobiceps muscle contained the largest amounts of fatty acids including PUFA and the m. longissimus dorsi the least amounts of PUFA in beef and lamb, and m. longissimus contained the lowest percentages of PUFA. Arachidonic acid was the major fatty acid in the C(20) + C(22) PUFA in beef from both production systems with twice as much in muscles from bulls fed concentrates. The P:S ratios were higher in the latter animals, range 0.21-0.34 compared with 0.08-0.13 in the steers fed grass. However, the n6:n-3 ratio was much less desirable in the bulls, 15.6-20.1 compared with 2.0-2.3 in the steers fed grass. These effects of production system in ruminants are larger than previously reported. Lamb muscle P:S ratios resembled those in grass-fed beef but the n-6:n-3 ratios were lower. The percentage of trans unsaturated 18:1 fatty acids was similar in both cattle production systems but lamb muscles contained twice as much as beef. Although the concentrations of the C(20) and C(22) PUFA are much lower than in fish, maintaining high n-3 levels in ruminant meats through grass feeding may be advantageous in human nutrition since meat is more widely consumed.     

鳄鱼肉主要营养成分及与其他畜禽肉的比较

为了充分了解鳄鱼肉的营养特性,更好地利用鳄鱼资源,本实验分析鳄鱼肉的主要组分、脂肪酸及氨基酸的构成,并与羊肉、猪肉、牛肉和鸡肉进行比较.结果表明:与其他畜禽肉相比,鳄鱼肉是一种高蛋白、低脂肪的优质肉品,多不饱和脂肪酸含量丰富,尤其是花生四烯酸、二十碳五烯酸(EPA)和二十二碳六烯酸(DHA).鳄鱼肉富含必需氨基酸,尤其是赖氨酸.且根据必需氨基酸指数,鳄鱼肉的营养价值高于其他畜禽肉.综合看来,鳄鱼肉是较理想的动物蛋白及脂肪来源.     

INFLUENCE OF FEED FAT SOURCE ON FATTY ACID COMPOSITION, UNSATURATION AND LIPID OXIDATION OF BACKFAT AND SENSORY QUALITY OF PORK

The effect of different fats in a 9% fishmeal feed on backfat fatty acid composition, oxidation and pork sensory attributes was studied. The hydrogenated fish oil group (HFO) had significantly increased uptake of certain fatty acids in contrast to the other groups. Iodine values were highest in the fish oil group, followed by the lamb tallow group (LT) with the control group, containing no added fat, tailing. Backfat from the HFO group had more polyunsaturated fatty acids compared to the other groups and stearic/linoleic acid ratio suggested more oxidative problems with this group. The HFO group led the LT group in oxidation with the control group being most stable. Sensory traits of fresh and frozen pork chops correlated with the oxidation results. Fat from pigs fed hydrogenated fish oil in their diet are therefore more susceptible towards oxidation possibly due to more polyunsaturated fatty acids and oxidation products in the backfat.     

Volatiles from interactions of Maillard reactions and lipids.

This article provides current information on the production of volatile compounds from interactions of Maillard reactions and lipids. It includes a brief introduction outlining the Maillard reactions, the Strecker degradation of amino acids, and the oxidation of lipids. It highlights those compounds derived from these reactions that could interact to form volatile flavor components during the processing or cooking of food. The article discusses results obtained from model systems involving interactions between (1) Maillard reaction products and carbonyl compounds, (2) amino acids and carbonyl compounds, (3) amino acids and derivatives of fatty acids, and (4) Maillard reaction products, triglycerides and phospholipids. The qualitative and quantitative effects that triglycerides and phospholipids have on the formation of volatile Maillard products are also discussed. Particular attention is given to those long-chain alkyl heterocyclic compounds formed during these reactions, proposed methods for their formation, and their aromas. The role that such compounds play in food flavors is discussed with reference to those volatile compounds identified in certain cooked foods, such as meat (beef, lamb, and pork), chicken, potatoes (baked, French-fried, and crisps), and beverages (coffee, tea, and cocoa).     

Lipid Oxidation Potential of Beef, Chicken, and Pork

Beef and pork longissimus dorsi and semimembranosus muscles and chicken breast and thigh muscles were excised 24 hr postmortem from carcasses of marketweight grain-finished feedlot beef cattle, marke-tweight hogs on a typical finishing diet, and broilers on a commercial grain diet. Muscle samples were immediately ground and formed into patties and stored raw or after cooking, at 4°C (cooked) or ?20°C (raw and cooked). TBA values (on sample weight basis) of frozen raw samples were higher for beef and pork than for chicken, as was heme iron content. However, TBA values of cooked samples were highest for chicken thigh muscles, which contained the most polyunsaturated fatty acids, at all storage temperatures.     

Fatty acid content and composition of english beef, lamb and pork at retail

We have determined the fatty acid content and composition of retail samples of meat and assessed them with respect to UK dietary recommendations. Fifty beef sirloin steaks, pork chops and lamb chops were purchased from four supermarkets on separate occasions. The percentage of muscle (boneless basis) in the samples was 84.4 ± 4.3, 69.8 ± 7.7 and 78.9 ± 7.1 for beef, lamb and pork, respectively, with fatty acid contents of 3.84 ± 1.3, 4.73 ± 1.66 and 2.26 ± 0.7 g per 100 g muscle, respectively. Adipose tissue fatty acid contents were 70.0 ± 8.2, 70.6 ± 8.6 and 65.3 ± 9.4 g per 100 g tissue. A range of C20 and C22 polyunsaturated fatty acids (PUFA) was present in the muscle of all three species and pork adipose tissue but their concentrations in lamb and beef adipose tissue were too low to measure. The mean P:S ratios for beef, lamb and pork muscle were (adipose tissue values in parentheses): 0.11 (0.05); 0.15 (0.09) and 0.58 (0.61), and the n−6:n−3 ratios were 2.1 (2.3), 1.3 (1.4) and 7.2 (7.6). We conclude that the muscles of red meat species are a valuable source of PUFA, particularly the C20 and C22 n−3 fatty acids, in the human diet and that, considered as part of a varied diet, the low P:S ratio of the ruminant muscle, the high n−6:n−3 ratio of pork and the total fatty acid contents do not detract significantly from the nutritional value of lean meat.     

驴肉主要营养成分及与其它畜禽肉的分析比较

本文测定了驴肉的水分、灰分、蛋白质、粗脂肪、脂肪酸、矿物元素、氨基酸的含量,并将驴肉与其他畜禽肉的营养成分作对比分析。结果表明:驴肉蛋白质含量比羊肉、牛肉、猪肉高,而脂肪含量比羊肉、牛肉、猪肉低。驴肉的氨基酸和脂肪酸组成是比较理想的,矿物元素中Fe含量明显高于其它畜禽肉。从营养学角度看,驴肉是比较理想的动物性食品原料。     

LIPID CHARACTERISTICS OF EMU MEAT AND TISSUES

Twenty four (24) samples of emu meat (drumstick) and fat (abdominal fat (AF) and back fat (BF)), liver and heart tissue were collected from three (3) farms, and twelve (12) samples of chicken (drumstick) and beef (steak) were collected from supermarkets. The AF and BF of emu contained over 99% triacylglycerols. Monounsaturatedfatty acids (MUFA) constituted to 56% in AF and BF, saturated fatty acids (SAFA) at 31% and polyunsaturated fatty acids (PUFA) constituted to 13%. Oleic acid (C18:1n-9) was the predominant MUFA at 48%. The emu leg meat total lipids were up to 3%. Phospholipid constituted the major lipid class in emu and chicken meat at 64%, higher (P<0.05) than beef meat (47%). The emu drumstick contained higher (P<0.05) linoleic (C18:2n-6), arachidonic (C20:4 n-6), linolenic (C18:3 n-3) and docosahexaenoic (C22:6 n-3) acids than chicken drumstick and beef steak. The ratio of polyunsaturated fatty acids to saturated fatty acids in emu meat was 0.72, higher (P<0.0001) than chicken meat, 0.57 and beef meat, 0.3. The ratio of n-6 to n-3 fatty acids did not differ (P>0.05) among the three sources of meat.     

Lead and cadmium in meat and meat products consumed by the population in Tenerife Island, Spain

The aim of this study was to determine the levels of lead and cadmium in chicken, pork, beef, lamb and turkey samples (both meat and meat products), collected in the island of Tenerife (Spain). Lead and cadmium were measured by graphite furnace atomic absorption spectrometry (GFAAS). Mean concentrations of lead and cadmium were 6.94 and 1.68 µg kg^-1 in chicken meat, 5.00 and 5.49 µg kg^-1 in pork meat, 1.91 and 1.90 µg kg^-1 in beef meat and 1.35 and 1.22 µg kg^-1 in lamb meat samples, respectively. Lead was below the detection limit in turkey samples and mean cadmium concentration was 5.49 µg kg^-1. Mean concentrations of lead and cadmium in chicken meat product samples were 3.16 and 4.15 µg kg^-1, 4.89 and 6.50 µg kg^-1 in pork meat product, 6.72 and 4.76 µg kg^-1 in beef meat product and 9.12 and 5.98 µg kg^-1 in turkey meat product samples, respectively. The percentage contribution of the two considered metals to provisional tolerable weekly intake (PTWI) was calculated for meat and meat products. Statistically significant differences were found for lead content in meats between the chicken and pork groups and the turkey and beef groups, whereas for cadmium concentrations in meats, significant differences were observed between the turkey and chicken, beef and lamb groups. In meat products, no clear differences were observed for lead and cadmium between the various groups.     

Characterization of Shrimp Lipids

Edible shrimp (Penaeus aztecus) tissue contains approximately 1.2% extractable lipids, the majority of which are phospholipids. Data from the gravimetric quantitation of lipid classes isolated by column chromatography indicated that phosphatidyl choline was the predominant phospholipid and cholesterol the predominant neutral lipid in edible shrimp tissue. Fatty acid distribution data indicated that sphingomyelins contained the greatest percent by weight of unsaturated fatty acids while cholesterol esters contained the greatest proportion of saturated fatty acids. Enzymatic hydrolysis followed by gas liquid chromatography of phosphatidyl choline, phosphatidyl ethanolamine, and phosphatidyl serine indicated that fatty acids located at the β position were more highly unsaturated than those at the α position.     

Metmyoglobin and inorganic metals as pro-oxidants in raw and cooked muscle systems

The pro-oxidant activities of metmyoglobin (Mb) and metal ions on the induction of lipid oxidation in raw and heated water-washed muscle systems from fish, turkey, chicken, pork, beef and lamb and during storage of these systems at 4°C, were investigated. Lipid oxidation was invariably faster in heated than in raw systems. In raw Mb-catalyzed systems, oxidation was slow over a 5-day period, except in fish, where significant (P < 0·05) increases in TBA values occurred; in contrast, significant (P < 0·05) increases in TBA values occurred in cooked fish, turkey, chicken and pork after 3 days of storage. Cooked beef and lamb, however, showed significant lipid oxidation only after 5 days of storage. Fe(2+) was found to be highly catalytic in cooked muscle. Cu(2+) and Co(2+) were less effective catalysts than Fe(2+); the overall pro-oxidant activity was in the order Fe(2+) > Cu(2+) > Co(2+) > Mb, and the susceptibility to lipid oxidation of the muscle systems was in the order: fish > turkey > chicken > pork > beef > lamb, probably reflecting the degree of unsaturation of the constituent triglyceride fractions.     

六种鱼鱼头磷脂的组成及脂质脂肪酸分析

为研究海水鱼和淡水鱼鱼头磷脂及脂质脂肪酸组成的差异,以海水鱼(马鲛鱼、巴浪鱼、金鲳鱼)和淡水鱼(罗非鱼、鲫鱼、鲢鱼)鱼头为研究对象,利用Floch法提取6种鱼鱼头总脂;硅胶柱层析法将总脂分离收集中性脂、糖脂和磷脂;薄层层析(thin layer chromatography,TLC)分析比较6种鱼鱼头磷脂种类的分布、组成;气相色谱(Gas chromatography,GC)分析6种鱼鱼头脂质的脂肪酸组成。结果表明,6种鱼鱼头中提取率最高的脂质类型为中性脂,占总脂的48.98%~77.84%,其次为磷脂,占总脂的5.93%~22.86%,糖脂提取率最低,占总脂的3.67%~15.91%。鱼头磷脂中共检出4种磷脂组分,分别为磷脂酰乙醇胺(Phosphatidylethanolamine,PE)、磷脂酰胆碱(Phosphatidylcholine,PC)、鞘磷脂(Sphingomyelin,SM)、溶血磷脂酰胆碱(Lysophosphatidylcholine,LPC),其中PC明显高于其他磷脂组分。脂质中均含有较高含量的多不饱和脂肪酸(Poly-unsaturated fatty acid,PUFA),其中以二十二碳六烯酸(docosahexaenoic acid,DHA)为主,且均含有二十碳五烯酸(eicosapntemacnioc acid,EPA),海水鱼和淡水鱼鱼头磷脂中DHA和EPA占总脂肪酸的比例最高,分别为18.39%~21.43%和5.61%~10.38%,且海水鱼鱼头中以DHA和EPA为主的PUFA含量高于淡水鱼鱼头。因此,海水鱼鱼头是提取n-3多不饱和脂肪酸的潜在资源,尤其是制备n-3多不饱和脂肪酸型磷脂的良好来源。     

Flavour studies with fish meals and with fish oil fractions in broiler diets

Fish meals extracted with ethanol, benzene and/or warm water or acidified water were included in diets for broilers at 20 % levels, while in some instances certain amines, phospholipids from the fish oil extracted from fish meal (here called “residual” fish oil) and triglycerides from such fish oil were added to broiler diets singly or in different combinations. The experimental diets were given to broilertype chickens from their fifth week until they were slaughtered when 81/2 weeks old. Carcasses from the different treatment groups were subjected to organoleptic evaluation and the fatty acid make-up of the fat in the carcasses and of the oils in the fish meals, determined by gas chromatography. Carcasses of chickens which received diets containing fish meal extracted with the fat solvents consistently had a chicken flavour. When the diets contained fish meal extracted with warm water or a warm, weak, acid solution the carcasses had a neutral flavour. Unextracted fish meal and the triglyceride fraction of fish oil (at a 2.0 % level) in the diet invariably produced carcasses with a “fishy” taint. The phospholipid fraction of “residual” fish oil had no effect on carcass flavour while additional amines (trimethylamine, ethanolamine and choline) in the diet in most instances aggravated the foreign taint. The high correlation between flavour score and the levels of certain highly unsaturated fatty acids in the chicken carcasses was confirmed.