Desenvolvimento de produto cárneo de tilápia com antioxidantes naturais

Larosa, Gisele [UNESP]

20 April 2011

Made available in DSpace on 2014-06-11T19:31:03Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-04-20Bitstream added on 2014-06-13T18:41:32Z : No. of bitstreams: 1 larosa_g_dr_arafcf.pdf: 673974 bytes, checksum: 4d2ce27e8e4be82a1d47bbc38eabfa9c (MD5) / Universidade Estadual Paulista (UNESP) / O objetivo deste trabalho foi elaborar um produto cárneo a partir da CMS de tilápia-do- Nilo contendo os antioxidantes naturais: alecrim, orégano, sálvia e moringa e o antioxidante sintético propil galato, visando sua utilização como recheio ou acompanhamento da refeição. As degradações químicas e microbiológicas constituem os principais fatores de deterioração dos alimentos, sendo a oxidação um dos mais importantes processos de degradação por gerar sabores e odores desagradáveis. Como forma de prevenir ou retardar a oxidação, são adicionados ao alimento substâncias antioxidantes, e os condimentos têm demonstrado certo poder antioxidante, oferecendo uma alternativa ao uso de antioxidantes sintéticos. A composição centesimal, avaliação microbiológica e análise sensorial foram realizadas no início e final do armazenamento e, periodicamente foram determinados TBARS, BNVT, pH, cor instrumental e contagem de microrganismos psicrotróficos. Os resultados mostraram que os diferentes antioxidantes influenciaram o índice de oxidação lipídica e os valores de pH durante o período de armazenamento da CMS. Os valores de pH ficaram compreendidos entre 6,17 e 6,55 e os valores iniciais de malonaldeído foram semelhantes no início e a com orégano apresentou a menor oxidação (0,158 mg de MDA.kg-1 ), a qual foi acompanhada pela que continha sálvia (0,186 mg de MDA.kg-1 ). A maior oxidação, neste período, foi verificada para a CMS sem antioxidante, e o alecrim e moringa foram os antioxidantes naturais menos efetivos. Os valores da intensidade de vermelho (a*) para as CMS elaboradas sem antioxidante e com alecrim não apresentaram alterações durante o armazenamento e os valores de BNVT (11,41 a 12,35 mgN.100g-1 ) não foram alterados com os condimentos. Considerando o efeito dos antioxidantes x armazenamento os recheios apresentaram valores diferentes de pH quando... / The aim of this study is to evaluate the efficiency of oregano, sage, moringa and rosemary as natural antioxidants and propyl gallate as artificial antioxidant used in stuffed food made with minced fish of tilapia and stored frozen for 120 days. Chemistry and microbiological degradations are the main causes of food deterioration, and oxidation is one of the most important process of degradation because it can generate unpleasant flavor. Lipid oxidation is one of the most important alterations that affect both oils or fats and foods that contain them, as a way to prevent or retard oxidation, antioxidant substances are added in the food. The condiments have demonstrated antioxidant activity and offer an alternative in order to replace synthetic antioxidants. Protein, fat, moisture and ashes determination, microbiological analysis and sensory evaluations were conducted in the beginning and the end of storage period. TBARS, BNVT, pH, instrumental color and psychrotrophic microorganism count were determined periodically. The antioxidants interfered in pH (6,17 and 6,55) and TBARS values during 120 days under freezing (-18 o C). The lowest TBA values were found for oregano (0,158 mg de MDA.kg-1 ) and sage (0,186 mg de MDA.kg-1 ). The stuffed food made with minced fish of tilapia, without antioxidant, had the most oxidation, and sage and moringa were not good source of antioxidant. Red color (a*), in products with rosemary and control, and BNVT values (11,41 - 12,35 mgN.100g-1 ) were not altered. The lowest pH value was found for the product with sage (6,20), but similar to the moringa and propyl gallate, while oregano and rosemary showed the highest values (6,63 and 6,29), at 5 days of storage. Microbiological analyses were in accordance with Brazilian legislation. Sensory evaluation indicated that the panelists preferred the formulations made with oregano and propyl gallate. The results showed ... (Complete abstract click electronic access below)

Oxidação

Carne - Armazenamento

Acceptance

Storage

Minced

Lipid oxidation

Conjugated linoleic acid reduces lipid oxidation in irradiated, cooked ground beef patties

Chae, Sung Hee

17 September 2007

This study was conducted to examine the antioxidative effect of conjugated linoleic acid (CLA) in irradiated, cooked ground beef patties. The hypothesis was that CLA would be retained during irradiation and would reduce lipid oxidation that is caused by irradiation. The objective was to evaluate the effects of CLA alone and in combination with irradiation on lipid oxidation, fatty acid composition, cooking loss, moisture and fat content, and trained panel sensory evaluations of beef patties. CLA was added at 0, 1, 2, or 4% level during the grinding process. Addition of CLA during the grinding process increased CLA cis-9,trans-11 and CLA trans-10,cis-12 isomers in both irradiated and non-irradiated cooked ground beef patties (irradiated at 1.6 kGy) (P = 0.0001). Weight loss during cooking was greater in irradiated beef patties than in non-irradiated patties (P = 0.004). Irradiation reduced the serumy/bloody aromatic attribute and increased browned aromatic attribute, browned aftertaste, and wet dog/hairy aromatic attribute (P < 0.05). There was no significant main effect of irradiation on the basic tastes. The linoleic acid, CLA cis-9,trans-11, and CLA trans-10,cis-12 were decreased by irradiation (P < 0.05). Although irradiation decreased the CLA isomers, higher percentages of CLA isomers were retained in irradiated patties containing a 4% free fatty acid preparation of CLA (FFA-CLA), reflecting the ability of the FFA preparation to reduce lipid oxidation that is caused by irradiation. The thiobarbituric acid reactive substances (TBARS) values were significantly higher in irradiated, cooked ground beef patties than in non-irradiated ground beef patties (P = 0.004). Although the FFA-CLA was effective in reducing lipid oxidation that is caused by irradiation, it increased painty aromatic attribute, bitter taste, and astringent aftertaste due to the soapy flavor of the free fatty acid (all P < 0.05). The FFA-CLA decreased cooked beef/brothy and serumy/bloody aromatic attribute and browned aftertaste (all P < 0.05). The 1% triacylglycerol (TAG) preparation of CLA reduced TBARS in irradiated, cooked patties to levels seen in control, non-irradiated patties. The 1% TAG concentration also provided good retention of CLA in the cooked ground beef.

CLA

Irradiation

Lipid oxidation

Fatty acid composition

SensoryEvaluation

Factors Influencing the Stability and Marketability of a Novel, Phytochemical-Rich Oil from the Açai Palm Fruit (Euterpe oleracea Mart.)

Duncan, Christopher Edward

2010 December 1900

The açai palm fruit has recently become the focus of numerous research endeavors due to its extraordinary antioxidant content. However, little is known about the fruit’s phytochemical rich oil, which is a by-product of the açai pulp. Therefore, the aim of this study was to investigate the phytochemical content of açai oil and its relation to oxidative stability. A total of 206 mg/kg of chlorophylls, which included chlorophyll a as well as four chlorophyll derivatives were tentatively identified by HPLC in crude açai oil (CAO). Two predominant carotenoids (216 mg/kg β-carotene and 177 mg/kg lutein) were also characterized in addition to α-tocopherol (645 mg/kg). Initial investigations into oil stability focused upon the photooxidation of açai oil due to its significant chlorophyll content and findings demonstrated that the increases of nonanal were observed when phospholipids and polyphenolics were reduced. Subsequently, investigations into the interactions between phospholipids and lipophilic antioxidants and their contributions to the stability of açai oil were also assessed by isolating phytochemicals and selectively reconstituting the oil. Findings demonstrated a potential relationship between phospholipids and lipophilic antioxidants, but this was not conclusive. Advances in the processing of the açai pulp by-product created from the clarification process yielded a partially refined açai oil (RAO). The stability of both RAO and CAO as a result of autoxidation were compared to other common food oils (olive, canola, and soybean) and primary and secondary oxidation data suggested CAO was most stable. The difference in the stability of the two açai oils was also investigated by blending these oils and assessing oxidation. An increased stability was demonstrated in the blended RAO, which suggested a significant antioxidant contribution from the CAO. With such similar lipophilic compositions in CAO and RAO, it is theorized that the driving factor behind the stability of CAO can be attributed to its water soluble antioxidant content. While further investigations are required to fully comprehend the interactions of açai oil phytochemicals, these experiments provide insight into the phytochemical content and stability of açai oil. The understanding and information obtained in these studies is geared at increasing the marketability of açai oil as a food ingredient.

Acai

Acai oil

lipid oxidation

crude oil

antioxidants

Sorghum Bran, Chestnut Wood Powder, and Chardonnay Grape Seed Flour Addition Effect on Lipid Oxidation and Color in Ground Beef Patties

Roybal, Tabitha Lynn

2010 December 1900

Natural, plant-based tannin antioxidants are capable of inhibiting lipid oxidation in ground beef and may be possible alternatives to industry synthetic and natural standards of BHA/BHT and rosemary extract, respectively. Ground beef was purchased on three different days, each defining a batch during study 1. Treatments, added based on meat weight, included a control, 0.2 percent rosemary (RM), 0.02 percent BHA/BHT, 0.5 percent Chardonnay grape seed flour (CG), 0.1 percent and 0.25 percent chestnut wood flour (CN), and 0.25 percent and 0.5 percent of four sorghum bran varieties: black (BS), black with tannin (BTS), white (WS), and high tannin (TS). Patties, formed in duplicate, were randomly designated as cooked or raw and by 0 to 5 day storage, and were aerobically stored at 4 degrees C. Cooked patties were analyzed using the TBARS method. Raw patties were analyzed for subjective and objective color, number of ingredient specks, and pH. In study 2, six treatments were chosen for sensory evaluation including a control, 0.2 percent RM, 0.02 percent BHA/BHT, 0.5 percent CG, 0.1 percent CN, and 0.5 percent BTS. Preparation, and raw and cooked analysis occurred similar to study 1. Additional patties were made for day 1 consumption by consumer panelists. In study 1, all treatments except 0.25 percent WS reduced TBARS values over time compared to 0.2 percent RM. Four treatments (0.5 percent BTS, 0.5 percent CG, 0.25 percent CN, and 0.1 percent CN) showed no significant increase in TBARS values over storage. BS and BTS yielded the lowest color space values (CIE L*, a*, and b*; P<0.0001). Ingredient specks were possible color measurement influences. In both studies antioxidant addition reduced TBARS values over time compared to the control (P<0.0001), and percent discoloration was highest in patties containing a sorghum treatment (P<0.0001). Patties containing 0.1 percent CN were significantly favored in terms of overall like (P<0.0002) and flavor like (P<0.0001). Patties containing 0.2 percent RM were ranked lowest in overall and flavor like, and ground beef-like bite. Patties containing 0.5 perent CG were least liked according to tenderness level (P<0.005). These results indicate that CG, CN, and certain varieties of sorghum bran can be added to pre-cooked ground beef products and provide better antioxidant protection than currently used ingredients of BHA/BHT and rosemary extract.

Tannins

Ground beef

Sorghum

Chestnut

Chardonnay grape

Lipid oxidation

Effect of sorghum bran addition on lipid oxidation and sensory properties of ground beef patties differing in fat levels

Hemphill, Susan Patricia

30 October 2006

Oxidation of lipids influences the color and sensory qualities of meat products. Meat with a high fat content, such as ground meat, is susceptible to lipid oxidation that leads to the development of negative flavor and color changes. Antioxidants, such as butylated hydroxanisole (BHA), butylated hydroxytolune (BHT) and extracts of rosemary, are used in meat products to control the effects of lipid oxidation. Awika (2000, 2003) found that sorghum bran phytochemicals have high antioxidant properties. Our objective is to evaluate the pH, color, sensory and antioxidant effect of 10, 20 and 30% ground beef patties containing rosemary, BHA/BHT, and three levels of sorghum bran during 5 d of aerobic storage at 4°C. Beef trimmings containing either 50% or 90% lean were formulated into three meat blocks containing either 10, 20 or 30% lipid. Within a fat content, ground beef was equally divided into one of six treatments: 1) control-no added ingredients; 2) BHA and BHT at .01% of the meat weight; 3) rosemary at 0.2% of the meat weight; 4) high level of sorghum at 1.0% of the meat weight; 5) medium level of sorghum at 0.5% of the meat weight; and, 6) a low level of sorghum at 0.25% of the meat weight. The ground beef was aerobically packaged and stored for 0, 1, 3, or 5 days at 4°C. pH, thiobarbituric acid reactive substances (TBARS), fatty acid methyl esters (FAME), sensory color, Minolta color space values and descriptive sensory evaluations were determined. Antioxidant addition reduced TBARS values and increased hardness (P<0.020) and springiness (P=0.002) over time compared to controls. The addition of the high sorghum bran level resulted in lower raw color scores (2.0 vs. 2.9) (P<0.0001) and slightly increased bitter basic taste (2.47 vs. 2.65) (P=0.0069) when compared to control patties. The high sorghum level slightly increased pH (6.33 vs. 6.41) (P<0.0001) and resulted in darker (P<0.0001) and less yellow colored (P<0.0001) patties. With storage, patties had higher pH (P<0.0001) and color space values decreased (P<0.0001). Sensory properties of the patties differed across fat levels (P<0.05); however, interactions between fat level and antioxidant treatment were not significant (P>0.05). Moreover, the addition of sorghum bran at low levels can retard oxidative rancidity in ground beef patties without causing detrimental color changes and negatively affecting sensory attributes.

sorghum bran

ground beef

lipid oxidation

color

sensory

Conjugated linoleic acid reduces lipid oxidation in irradiated, cooked ground beef patties

Chae, Sung Hee

17 September 2007

This study was conducted to examine the antioxidative effect of conjugated linoleic acid (CLA) in irradiated, cooked ground beef patties. The hypothesis was that CLA would be retained during irradiation and would reduce lipid oxidation that is caused by irradiation. The objective was to evaluate the effects of CLA alone and in combination with irradiation on lipid oxidation, fatty acid composition, cooking loss, moisture and fat content, and trained panel sensory evaluations of beef patties. CLA was added at 0, 1, 2, or 4% level during the grinding process. Addition of CLA during the grinding process increased CLA cis-9,trans-11 and CLA trans-10,cis-12 isomers in both irradiated and non-irradiated cooked ground beef patties (irradiated at 1.6 kGy) (P = 0.0001). Weight loss during cooking was greater in irradiated beef patties than in non-irradiated patties (P = 0.004). Irradiation reduced the serumy/bloody aromatic attribute and increased browned aromatic attribute, browned aftertaste, and wet dog/hairy aromatic attribute (P < 0.05). There was no significant main effect of irradiation on the basic tastes. The linoleic acid, CLA cis-9,trans-11, and CLA trans-10,cis-12 were decreased by irradiation (P < 0.05). Although irradiation decreased the CLA isomers, higher percentages of CLA isomers were retained in irradiated patties containing a 4% free fatty acid preparation of CLA (FFA-CLA), reflecting the ability of the FFA preparation to reduce lipid oxidation that is caused by irradiation. The thiobarbituric acid reactive substances (TBARS) values were significantly higher in irradiated, cooked ground beef patties than in non-irradiated ground beef patties (P = 0.004). Although the FFA-CLA was effective in reducing lipid oxidation that is caused by irradiation, it increased painty aromatic attribute, bitter taste, and astringent aftertaste due to the soapy flavor of the free fatty acid (all P < 0.05). The FFA-CLA decreased cooked beef/brothy and serumy/bloody aromatic attribute and browned aftertaste (all P < 0.05). The 1% triacylglycerol (TAG) preparation of CLA reduced TBARS in irradiated, cooked patties to levels seen in control, non-irradiated patties. The 1% TAG concentration also provided good retention of CLA in the cooked ground beef.

CLA

Irradiation

Lipid oxidation

Fatty acid composition

SensoryEvaluation

DEVELOPMENT AND EVALUATION OF OMEGA-3 FATTY ACIDS ENRICHED CHICKEN FRANKFURTERS

Srinivassane, Sadish

10 January 2011

Chemical, physical and sensory properties of omega-3 fatty acid enriched chicken frankfurters developed with flax oil and microencapsulated fish oil at 1.2%, 2.4% and 3.6% were evaluated. Four replicate batches of frankfurters were produced for texture profile analysis and TBARS for assessment of lipid oxidation over four weeks of refrigerated storage. Gas chromatograph analysis indicated that omega-3 fatty acid levels increased (p<0.05) with flax and fish oils treatments resulting in a shift in omega-6/omega-3 with no increase in lipid oxidation over the storage period. The two highest levels of fish oil resulted in increased redness, hardness, gumminess and chewiness (p<0.05) with the highest fish oil having the lowest rating for acceptability. 1.2 and 2.4% flax oil and 1.2% fish oil samples were softer and juicier than commercial frankfurters. Addition of oils high in omega-3 fatty acids to chicken-based frankfurters can result in product resistant to oxidation and acceptable to consumers.

Chemical Measures of Fish Oil Quality: Oxidation Products and Sensory Correlation

Sullivan Ritter, Jenna

19 June 2012

Although quality of commercial fish oil is of the upmost importance to both suppliers and consumers, it can be difficult to maintain due to rapid lipid oxidation attributable to the high levels of EPA and DHA. Fish oil quality can be assessed in a number of ways; this paper focuses on ethyl ester (EE) content and oxidation products. Fish oil supplements are sold as both triacylglycerols (TAG) and EE. TAG products are more resistant to oxidation, have better bioavailability and are generally considered to be of higher quality. Here, a method is described to quantify EE in fish oil using solid phase microextraction (SPME) headspace analysis and gas chromatography-mass spectrometry (GCMS). A related aspect of quality is state of oxidation and although the causes of oxidation in fish oil are well known, there is little research on the kinetics of the oxidation process. The work presented here monitors hydroperoxides to model the kinetics of oxidation in two commercially available fish oil supplements by fitting the data to the Arrhenius model. It was determined that the same mechanisms of oxidation hold at temperatures ? 40 °C and thus, this temperature was used in the final stages of this work where accelerated stability testing of fish oil was conducted. Currently, taste panels are the only reliable method to assess the sensory properties of fish oil, but these are costly and subjective. Described here is an alternative method using SPME-GCMS to monitor volatile oxidation products. Two different statistical methods were used to identify oxidative volatiles that correlate with sensory characteristics of fish oil. First, stepwise discriminant function analysis (DFA) was used to identify volatiles that could be used to classify oil as acceptable or unacceptable based on sensory analysis. Principal component analysis (PCA) and linear regression were then applied with greater success. Both techniques identified similar oxidative volatiles as being important to sensory properties. It is anticipated that these methods could be adopted by fish oil manufacturers as measures of quality.

lipid oxidation

fish oil

sensory panel

SPME

GCMS

Effects of seed moisture and micronizing temperature on lentil flour properties and the stabilities of colour and unsaturated lipids of beef-lentil systems

2014 June 1900

This study investigated the effect of seed moisture level of lentil and surface temperature of micronization (infrared heat treatment) on the physico-chemical and functional properties of resulting flours and how these flours affected colour and unsaturated lipid oxidation when incorporated into ground beef products. Flour from raw seed (non-tempered and non-micronized) was used as the control. Whole seeds of small green lentil (Lens culinaris L., var. Eston) without tempering (8% moisture) and tempered to 16% or 23% moisture was infrared heat treated (micronized) to 115, 130, 150 or 165 °C surface temperature. The decreased protein solubility (2-60%) and lipoxygenase (70-100%), peroxidase (32-100%) and trypsin inhibitory (up to 54%) activities of resulting flours indicated changes in the protein fraction due to heat-moisture treatment. Starch gelatinization was observed at the 23% moisture level and changes in pasting properties, and water and oil absorption capacities varied with treatment. The heat-moisture combinations modified properties of starch and protein to different degrees and, consequently, lentil flour functionalities. Incorporation of lentil flour as a binder in low fat (<10%) beef burgers at 6% (w/w) showed that flours from micronized lentil seeds enhanced retention of redness and suppression of lipid oxidation as indicated by Hunter a* values and thiobarbituric acid reactive substances values, respectively, in a retail display setting. Investigation of total phenolics in aqueous salt extracts of lentil flours showed a decrease in content with increased micronization temperature. The antioxidant assays showed no changes in the ferric ion reducing power or reduction of hydroxyl radical scavenging and superoxide radical scavenging activities with heat-moisture treatment. Reduction of lipoxygenase and peroxidase activities was evident in lentil flour aqueous salt extracts, and the enzyme activities were localized to seed cotyledons. The myoglobin-liposome model study showed that a flour extract from the 16% moisture and 150 °C treatment resulted in a slower rate of oxymyoglobin oxidation initiation than other treatments which had different levels of lipoxygenase and peroxidase activities. Unsaturated lipids accelerated oxymyoglobin degradation irrespective of the presence of lentil extract. The extended fresh red colour retention of ground beef due to addition of flours from micronized seed compared to that from non-micronized seed may be related to suppression of pro-oxidant activities and the activity of potential antioxidants. The putative antioxidative compounds in lentil that are available for meat components may include compounds other than lentil seed phenolics.

Lentil

Micronization

Tempering

Redness of fresh beef burgers

Lipid oxidation

Effects of naturally smoked sugar and frozen storage time on aerobically packaged bacon using a conventional and natural curing systems

Hobson, Allison Whitney

January 1900

Master of Science / Department of Animal Sciences and Industry / Terry Houser / Two studies were conducted to determine the effectiveness of naturally smoked sugar in a conventional and natural curing brines to inhibit lipid oxidation in frozen, aerobically packaged, layout style bacon. Commercial pork bellies were trimmed and cut in half creating anterior and posterior sections. Each section was randomly assigned to one of two treatments targeted 12% injection: control brine or a brine containing naturally smoked sugar (n =15/treatment). In the first study a conventional control brine consisted of 76.4% water, 11.8% salt, 8.00% sugar, 1.70% sodium phosphate, 1.60% sodium nitrite, and 0.450% sodium erythorbate. The treatment brine contained the same ingredients with the addition of 5.00% naturally smoked sugar. In the second study a natural control curing brine was utilized and contained 72.0% water, 13.4% sea salt, 8.00% cane sugar, and 6.67% celery juice. While treatment brine had the same ingredients as the natural control brine with the addition 5.00% smoked sugar. Bacon slices were randomly assigned to four sensory and GCMS frozen storage periods (0, 40, 80, and 120 day) or seven thiobarbituric acid reactive substances (TBARS) frozen storage times (0, 20, 40, 60, 80, 100, and 120 day). To measure lipid oxidation trained sensory evaluation, TBARS, and gas chromatography mass spectrometry (GCMS) was conducted after the assigned frozen storage periods. All bacon slices were stored aerobically at -18 ± 2 °C for their designated storage period. The first study panelist scores for oxidized flavor of the conventional control bacon increased from day 0 to 120; whereas the naturally smoked sugar treatment had decreased panelist scores (P > 0.16) for oxidized flavor intensity compared to the control bacon. Also, TBARS results values for the conventional control bacon increased (P < 0.01) from day 20 to day 120; while the conventional naturally smoked sugar treatment remained constant (P > 0.99). Hexanal content for conventional control increased (P < 0.003) during frozen storage; but naturally smoked sugar TBARS values were not different from day 0 of storage (P > 0.734). Concentration of heptanal in conventional control bacon was the highest (P < 0.003) at day 80 and 120 of frozen storage. Heptanal content in conventional bacon with naturally smoked sugar was not different from day 0 of frozen storage (P > 0.846). Conventional bacon formulated with naturally smoked sugar had greater concentrations of creosol and syringol than control bacon (P < 0.003). In the second study, naturally cured bacon had increased panelist scores for oxidized flavor from day 0 to 120 of frozen storage (P < 0.001). Natural bacon with smoked sugar had oxidized flavor scores that remained constant during frozen storage (P > 0.936). Naturally cured bacon displayed increased TBARS values from day 20 to 120 of frozen storage (P < 0.001). Naturally cured bacon with smoked sugar exhibited static TBARS values throughout the frozen storage period (P > 0.196). Thus, smoked sugar is an effective antioxidant in frozen sliced, aerobically packaged, conventionally cured and naturally cured bacon.

Frozen storage

Bacon

Lipid oxidation

Naturally smoked sugar

Sensory