Effect of Sodium Salts and Added Water on Color of Dark Meat Turkey Patties Subjected to Long-term Storage

Patties from a Control (all meat), Treatment I (meat, 1.1% water, 1.0% NaCl and 0.5% STP) and Treatment II (meat, 11.1% water, 1.0% NaCl and 0.5% STP) were frozen for 0 to 24 wk, broiled, and analyzed for color attributes. Treated patties had lighter exterior surfaces with reduced redness and increased yellowness. The opposite effects were observed for the interior of patties. Treatment II had elevated values for internal yellowness as compared to Treatment I. Storage caused an increase in both external and internal color values. Sensory scores indicated that internal redness of treated patties was greater than that of the Control but gradually decreased during storage.     

Comparison of antioxidant effects of milk mineral, butylated hydroxytoluene and sodium tripolyphosphate in raw and cooked ground pork

The antioxidant effects of 0.5-2.0% milk mineral (MM) was tested in raw and cooked ground pork stored at 2?°C or -20?°C, compared to butylated hydroxytoluene (BHT) and sodium tripolyphosphate (STP). TBA numbers were low and not different between raw meat treatments. TBA numbers were lower (P<0.01) for cooked treatments with MM or STP compared to controls or treatments with BHT. Experiments were also done to determine acceptability of pork samples with various TBA values, and to determine effect of holding time before serving on TBA values. Cooked pork patties held at 71?°C for 90 or 120 min had higher (P<0.05) TBA values than patties held for 0-60 min. Thus patties could be warmed for 60 min after cooking without significantly increasing TBA number. For paired-preference sensory testing, patties were cooked and stored at 2?°C for 0, 1, 2 and 3 days to obtain TBA numbers of 0.4, 1.5, 3.4 and 3.9 respectively. Panelists preferred (P<0.001) patties with TBA number <0.5, compared to patties with TBA numbers >1.4.     

Factors Affecting Properties of Precooked-Frozen Pork Sausage Patties Made with Various NaCl/Phosphate Combinations

Whole hog sausage patties made with (1) no phosphate, (2) 0.375% sodium tripolyphosphate (STP) and (3) 0.441% Lem-0-Fos® in combination with salt levels of 1.5, 1.0, 0.5 and 0.0% NaCl were precooked, frozen and packaged. Use of phosphates increased pH values, cooking yield, saltiness and juiciness scores and decreased the formation of off-flavor and rancidity. Higher NaCl levels increased saltiness scores and maintained juiciness scores and reheating yields over extended periods of frozen storage. Sodium chloride alone increased TBA values but did not affect (P > 0.05) off-flavor scores. The use of phosphates or vacuum packaging reduced the development of off-flavor and rancidity during extended periods of frozen storage.     

Quality characteristics and storage stability of patties from buffalo head and heart meats

The study was conducted to evaluate the suitability of using buffalo head and heart meat in emulsion based products preparation and to assess their quality during refrigerated storage. The whole study was carried out in three phases. In phase I, head meat patties (HMP) (treatment I, II and III) were prepared in which head meat was substituted with 15%, 20% and 25% skeletal meat and compared with patties from skeletal meat (control). Treated patties had higher emulsion stability, cooking yield, pH and lower shrink percentage and chewiness than control. Sensory attributes of control and treated patties did not differ significantly. In phase II, HMP were prepared in which head meat was substituted with 20%, 30% and 40% heart meat and similarly compared with control as in phase I. Addition of heart meat in HMP had significantly (P < 0.05) increased pH, cooking yield, moisture, lower protein and fat content than control patties. Hardness, gumminess and chewiness values of control patties were higher than treated patties. HMP with heart meat had higher tenderness than control. Control patties rated better than treated patties during sensory evaluation. In phase III, quality of patties was assessed at refrigerated storage (4 ± 1 °C) for 15 days. The patties remained stable with minor changes in physico‐chemical, microbiological and sensory quality during refrigerated storage for 15 days. Buffalo head and heart meat effectively be utilised in developing patties.     

Effects of Various Phosphates on the Palatability, Appearance and Storage Traits of Flaked and Formed Restructured Beef Steaks

Seven blends (9.1 kg raw meat) were formulated with 0.75% NaCl and 0.25% or 0.5% sodium tripolyphosphate (STP), sodium hexa-metaphosphate (SHMP) or sodium acid pyrophosphate (SAPP). Steaks from all blends were “slightly” to “moderately” desirable in flavor and overall satisfaction scores. Steaks made with STP had higher shear force values and work required to shear values than all other restructured steaks indicating an increase in binding occurred with added STP. Restructured steaks formulated with 0.5% STP or SHMP had more desirable raw color scores than the control or steaks made with SAPP. Storage life of all phosphate added restructured steaks was past 90 days frozen storage, and steaks containing STP had thiobarbituric acid values below 1.0 at 120 days storage.     

PHYSICAL AND SENSORY PROPERTIES OF LEAN GROUND BEEF PATTIES CONTAINING METHYLCELLULOSE AND HYDROXYPROPYLMETHYLCELLULOSE1

Broiled, lean ground beef patties containing no additives, two levels of methylcellulose (MC, 0.5 or 1.0%) and two levels of hydroxypropylmethylcellulose (HPMC, 0.5 or 1.0%) were evaluated for raw and cooked composition, cooking losses, sensory attributes and Instron compression measurements. MC or HPMC addition did not significantly affect the fat, moisture or protein content of the raw and cooked patties. Patties containing HPMC received greater tenderness, juiciness and off-flavor sensory scores when compared with patties containing MC or no additive. MC or HPMC addition increased patty gumminess sensory scores and decreased Instron compression values. Sensory cooked meat flavor decreased with gum addition.     

Factors Affecting Properties of Raw-Frozen Pork Sausage Patties Made with Various NaCl/Phosphate Combinations

Whole hog sausage patties made with (1) no phosphate, (2) 0.375% sodium tripolyphosphate (STP) and (3) 0.441% Lem-O-Fos® in combination with salt levels of 1.5, 1.0, 0.5, and 0.0% NaCl were frozen and packaged. Use of phosphates decreased off-flavor and rancidity development, improved binding, and increased pH values, cooking yields and scores for saltiness and juiciness. The prooxidant effect of NaCl was masked by the antioxidant properties of STP and Lem-O-Fos®. Extended periods of frozen storage reduced cooking yields, juiciness and texture scores and enhanced development of off-flavor and rancidity. However, use of phosphates or vacuum packaging exhibited an antioxidant effect during extended periods of frozen storage.     

Effects of salt and ammonium hydroxide on the quality of ground buffalo meat

The objective of this study was to evaluate the effects of ammonium hydroxide (AH) and sodium chloride on the quality of ground buffalo meat patties. Ground buffalo meat was treated with distilled water (control), 0.5% v/w AH, 1.0% v/w AH, 2.0% v/w AH and 1.0% w/w sodium chloride was added for all the samples. Treatment with AH increased (P<0.05) the pH and water holding capacity (WHC) of ground buffalo meat patties during storage relative to their controls. Hunterlab a* (redness) and chroma values increased (P<0.05) and hue decreased (P<0.05) in all AH treated samples in comparison to controls during storage. Ammonium hydroxide significantly (P<0.05) inhibited metmyoglobin formation compared to control after 3rd day of storage. There was a significant (P<0.05) reduction in thiobarbituric acid reactive substances (TBARS) values in all AH treated samples compared to control throughout storage. These results indicate the potential antioxidant and myoglobin redox stabilizing effect of AH in ground buffalo meat patties.     

Effect of Fragmentation Method and Formulation on the Quality of Patties Made from Restructured Spent Layer Meat

Poultry patties were prepared from spent layer meat fragmented by flake cutting or grinding (0.64 cm and 2.54 cm openings). The formulation consisted of either 100% breast meat, 50–50 breast and leg meat combination or 100% leg meat. Acceptability scores for both flavor and texture were highest for breast meat patties and lowest for leg meat patties. TBA (2-thiobarbituric acid) values showed increases for all treatments at all storage periods. Water-holding capacity (WHC) was highest for breast meat patties. Shear and resistance-to-tear (RTT) values showed that flaked-cut breast meat patties had the lowest shear values but the highest level of cohesiveness. The coarsely ground patties had higher shear values and lower RTT values.     

Composition and Stability of Goat Meat Patties as Affected by Breed Type and Feeding Regimen

Ground meat patties were made using knife-separable lean (frozen-thawed) composites from meat-type (Spanish, Spanish Boer) goats assigned to two feeding regimens (feedlot or range) and fiber-type (Angora, Spanish Angora) goats assigned to the feedlot regimen. Weight losses from pan-frying (mainly moisture loss) were 17.7 to 21.6%. Range meat-type goat samples had a higher proportion of total saturated fatty acids than the feedlot counterparts. After refrigerated storage, raw or cooked patties (aerobically packaged) from the range goats had lower TBA values than those from the feedlot goats. At – 20°C, all samples, raw or cooked, exhibited low TBA values throughout 120 days of storage.     

Effect of enrobing and antioxidants on quality characteristics of precooked pork patties under chilled and frozen storage conditions

Enrobed or coated pork patties containing a (50:50) mixture of butylated hydroxyanisole (BHA) and butylated hydroxytoluene (BHT) at a level of 100 ppm in the batter mix and meat emulsion were cooked and stored chilled (4±1?°C) and frozen (-18±1?°C) for evaluation of quality. Test samples were compared to control patties (neither enrobed nor antioxidant treated). After 35 days of refrigerated storage no significant difference (P>0.05) was found in pH, 2-thiobarbituric acid (TBA) and Warner-Bratzler shear force (WBSF) values between uncoated and treated samples. Similarly, enrobed patties showed no significant (P<0.05) decrease in TBA values compared to control patties, but had lower relative moisture loss at the 45th day of frozen storage. However, control patties had significantly (P<0.05) higher overall shear values than coated patties under the same storage conditions. Coated samples had higher microbial loads but below the acceptable limit. Total plate counts (TPC) in enrobed and control patties were around 3.48 and 3.05 log(10) cfu/g, respectively, whereas in frozen stored samples these numbers were 2.77 and 2.69 log(10) cfu/g at the end of storage. Sensory scores viz appearance and color, flavor, juiciness, texture, and overall acceptability were higher in treated samples than controls during the entire storage period.     

Effect of grind size and fat levels on the physico-chemical and sensory characteristics of low-fat ground buffalo meat patties

Two experiments were carried out to investigate the influence of grind size (3, 4 or 6 mm) and fat levels (6, 8, 10 or 20%) on the physico-chemical and sensory characteristics of low-fat ground buffalo meat patties prepared using a combination of carrageenan (0.5%) and sodium alginate (0.1%). At a constant fat level of nearly 8%, there was no significant difference (P>0.05) in the cooking yield, pH, proximate composition and dimensional changes of patties prepared at different grind sizes. However, shear force value increased significantly (P<0.05) with an increase in grind size. The sensory scores were significantly (P<0.05) higher for patties prepared using 3 mm grind size as compared to those prepared at 4 and 6 mm grind sizes and hence it was adopted as the optimum grind size for low-fat ground buffalo meat patties. At a constant grind size of 3mm, cooking yield, moisture, protein and gain in height were significantly (P<0.05) higher and shear force values were significantly (P<0.05) lower for patties at all low-fat levels as compared to the control with 20% fat. Based on its significantly higher (P<0.05) sensory scores, 10% fat level was selected as optimum for low-fat ground buffalo meat patties, although even at 8% fat level sensory rating remained between good to very good.     

Effect of Selected Sodium and Potassium Salts on TBA Values of Dark Meat Turkey Patties

Thiobarbituric acid (TBA) values were determined on stored, uncooked and cooked patties containing dark ground turkey meat and selected sodium and potassium salts. No clear association between pH of slurries made from patties and TBA values was observed. Factor analysis showed significant (P < 0.05) main effects due to formulation, heating, storage and day of test and significant (P < 0.05) interactions for heating x storage, heating x day, heating x formulation, heating x storage x formulation, storage x day and storage x formulation. Results indicated that polyphosphates added alone were effective in retarding lipid oxidation in cooked products. There was no synergistic effect of polyphosphates combined with NaCl.     

Effect of various additives to marinating baths on some properties of cattle meat

Longissimus dorsi (LD) muscles obtained from young bull carcasses (Holstein Friesian) were marinated, using solutions containing 0.5% sodium tripolyphosphate (STP), 0.5% dicalciumhydrogen phosphate (CHP) and 0.5% citric acid (CA). All solutions, including a blank, contained 2% NaCl. Expressible moisture, cooking loss, marinade uptake, area gain (increase in slice size), colour coordinate values (L*, a*, b*), marinade and meat pH, and the textural properties of samples were evaluated. Marinating with STP and CHP solutions resulted lower cooking losses. Marinade uptake and area gain were lower for control steaks and steaks marinated with the CA solution. The highest lightness was found in steaks marinated with the CA solution. Steaks marinated with STP and CHP solutions were darker. The CA solution resulted in yellowness of steaks. All treatments significantly affected hardness, chewiness and resilience values of steaks. The lowest hardness value was found in steaks marinated with CA. STP and CHP treatments also improved tenderness.     

RESTRUCTURED BEEF AND TURKEY STEAKS

Raw Materials from U.S. Choice beef chucks boned 24 h postmortem and frozen boneless turkey thighs stored approximately 120 h were flaked and incorporated in four restructured formulations with each containing 1.0% NaCl and 0.25% sodium tripolyphosphate (STP). Formulations included beef (B), beef plus 0.5% sugar (BS), 50% turkey (BT) and 50% beef and 50% turkey plus 0.5% sugar (BTS). At 0, 21 and 84 day, subjective evaluations were conducted for discoloration, cohesiveness, muscle cut resemblance and overall appearance. Objective measurements included Hunter Color and TBA values. Overall appearance and discoloration (measured visually and objectively) were affected more by storage time than by raw materials and flavor adjuncts. The effect of raw materials and sugar on the sensory attributes was minimal except that the formulations containing turkey had higher TBA values.     

A modified hot processing strategy for beef: functionality of electrically-stimulated and hot-boned meat preblended with different NaCl concentrations

Chucks from 20 electrically-stimulated hot-boned (HB) and cold-boned (CB) beef carcasses were preblended with different concentrations of NaCl (0, 0·5, 1·0, 1·5 and 2·0% w/w). Preblends were analysed for pH, 2-thiobarbituric acid (TBA) values, protein extraction and emulsifying capacities. Bologna (with and without added sodium tripolyphosphate) and ground meat patties prepared from these preblends were also evaluated for cooking yield, color and texture parameters. Ultimate pH values of HB preblends increased with increasing NaCl concentration. At 1% NaCl, HB had higher ultimate pH than CB preblends (P ≤ 0·05) but preblending HB meat with 2% NaCl reduced TBA values (P ≤ 0·05) because the pH was maintained above 6·0. Higher amounts of protein were extracted from HB than from CB preblends (P ≤ 0·01), but boning and salting treatments did not affect their emulsifying capacities (P > 0·05). Two percent NaCl was required to fully achieve the prerigor salting effect. At this concentration, cooking yields of bologna prepared from HB preblends and phosphate containing bologna prepared from CB preblends were not different (P > 0·05) and were higher than those of bologna without added phosphate made from CB preblends (P ≤ 0·05). No meaningful effects were observed on color and texture parameters. Cooking losses were lower in patties made from HB than CB preblends (P ≤ 0·05) independent of NaCl concentration, but boning and salting treatments had no further effects on color or textural parameters (P > 0·05). Therefore, the superior functional properties of electrically stimulated prerigor meat can be maintained by the addition of 2% NaCl up to 2 h post-mortem.     

Effects of Salt and Tripolyphosphate on Some Quality Characteristics of Breaded Patties made from Catfish Trimmings

Breaded patties formed from mechanically deboned and dewatered catfish mince were treated with 1% NaCl and 0.3% TPP (tripolyphosphate) alone and in combination. NaCl-TPP treated patties were firmer (P <; 0.05) than the untreated controls and patties treated with NaCl or TPP alone as determined by Kramer shear press and trained panelists. Untrained panelists scored NaCl-TPP patties higher (P < 0.05) than NaCl-only and TPP-only patties for flavor and acceptance. Although the moisture/fat ratio was affected by treatment, cook yields of frozen patties were not. Treatment did, however, affect cook yields of fresh patties. Untreated mince averaged 75.2% moisture, 20.6% protein, 3.5% fat, 0.04% calcium, 0.08% phosphorus, 0.76% ash, 705,000/g total plate count and 2.82 mg/kg 2-thiobarbituric acid value.     

Evaluation of Brining Ingredients and Antimicrobials for Effects on Thermal Destruction of Escherichia coli O157:H7 in a Meat Model System

ABSTRACT: Escherichia coli O157:H7 may become internalized during brine injection of meat. This study evaluated the effect of brining ingredients on E. coli O157:H7 in a meat model system after simulated brining, storage, and cooking. Fresh knuckles (5.3 ± 2.4% fat) or beef shoulder (15.3 ± 2.2% fat) were ground individually, mixed with an 8-strain composite of rifampicin-resistant E. coli O157:H7 (7 log CFU/g) and brining solutions. Treatments included no brining, distilled water, sodium chloride (NaCl, 0.5%), sodium tripolyphosphate (STP, 0.25%), sodium pyrophosphate (SPP, 0.25%), NaCl + STP, NaCl + SPP, NaCl + STP + potassium lactate (PL, 2%), NaCl + STP + sodium diacetate (SD, 0.15%), NaCl + STP + PL + SD, NaCl + STP + lactic acid (0.3%), NaCl + STP + acetic acid (0.3%), NaCl + STP + citric acid (0.3%), NaCl + STP + EDTA (20 mM) + nisin (0.0015%) or pediocin (1000 AU/g), NaCl + STP + sodium metasilicate (0.2%), NaCl + STP + cetylpyridinium chloride (CPC; 0.5%), and NaCl + STP + hops beta acids (0.00055%). Samples (30 g) were analyzed for pH, and total microbial and rifampicin-resistant E. coli O157:H7 (inoculum) populations immediately after mixing, storage (24 h at 4 °C), and cooking to 65 °C. Fat and moisture contents and water activity were measured after storage and cooking only; cooking losses also were determined. The effect of beef type on microbial counts, pH, and water activity was negligible. No reductions in microbial counts were obtained by the brining solutions immediately or after storage, except for samples treated with CPC, which reduced (P < 0.05) pathogen counts after storage by approximately 1 log cycle. Cooking reduced pathogen counts by 1.5 to 2.5 logs, while CPC-treated samples had the lowest (P < 0.05) counts compared to any other treatment. These data may be useful in developing/improving brining recipes for control of E. coli O157:H7 in moisture-enhanced beef products.     

Comparison of Color and Thiobarbituric Acid Values of Cooked Hamburger Patties after Storage of Fresh Beef Chubs in Modified Atmospheres

ABSTRACT: Cooked meat color is an important quality attribute for consumers. This study compared color and thiobarbituric acid (TBA) values of cooked ground beef (internal temperatures of 49 to 79 °C), after storage of raw product in atmospheres of 0.4% carbon monoxide (CO), 80% oxygen, or vacuum at 2 °C for 7 to 21 d. Premature browning, observed as a brown cooked color at internal temperatures as low as 49 °C, was found in patties made from meat stored in 80% oxygen. At all cooking temperatures, samples stored in high oxygen had less internal red color, higher myoglobin denaturation values, and were more rancid with higher TBA values than CO or vacuum-packaged ground beef. Raw ground beef held in 0.4% CO modified-atmosphere packaging (MAP) remained bright red throughout the 21-d storage period. Premature browning and high TBA values in cooked patties were avoided by use of this packaging system. However, internal patty color remained somewhat red even at the highest internal cooking temperature of 79 °C. The persistent pink color observed in CO-treated patties cooked to 79°C internal temperature was likely due to development of heat-denatured CO-hemochrome, rather than the presence of undenatured CO myoglobin. The problems of PMB and high TBA values of cooked patties were also avoided by vacuum packaging. However, the development of dark purple color associated with vacuum packaging of raw beef limits the use of this packaging method for products in retail display. Keywords: beef, packaging, carbon monoxide, oxygen     

Influence of Sodium Tripolyphosphate and Sodium Chloride on Moisture-Retention and Textural Characteristics of Chicken Breast Meat Patties

Chicken patties containing various levels of sodium tripolyphosphate (STPP) and NaCl were tested for moisture retention characteristics and instrumentally texture profiled. Both additives tended to increase moisture retention. Both additives also affected the textural quality of the patties. In the absence of NaCl, the STPP increased the product cohesiveness, springiness and chewiness at the highest phosphate level; but, in the presence of NaCI, the phosphate tended to increase these textural attributes, especially cohesiveness and chewiness, at lower phosphate levels. Improved meat quality might be achievable through a better understanding of relationships between NaCI, STPP, moisture retention and texture of poultry meat products.