Comparison of Sensory Properties and Headspace Volatiles of a Peanut Beverage Processed at Different Temperature and Time Conditions

Differences in sensory qualities of a peanut beverage processed at 85°, 100°, and 121°C for 5, 15 and 25 min were determined using analysis of variance (ANOVA) techniques. Temperature significantly affected cooked flavor, raw and cooked odors, viscosity and color. Time had significant effects only on cooked flavor and color. Factor analysis was used to determine relationships among sensory qualities and gas chromatographic peaks of the headspace volatiles. Seven factors accounted for 91% of data variance. Processing at 100°C yielded a peanut beverage with sensory quality better than the product processed at either 121°C or 85°C.     

Influence of high hydrostatic pressure processing on physicochemical characteristics of a fermented pomegranate (Punica granatum L.) beverage

The effect of high hydrostatic pressure at 500 MPa/10 min (HHP1), 550 MPa/10 min (HHP2) and 600 MPa/5 min (HHP3) on the microbiological, physicochemical, antioxidant and sensory characteristics of a fermented pomegranate (FP) beverage, stored for 42 days (4 ± 1 °C), was evaluated. The FP beverage was also pasteurized at 63 °C/30 min (VAT) and 72 °C/15 s (HTST). The high hydrostatic pressure (HHP) and VAT pasteurized beverages did not show microbial growth (<10 CFU/mL) throughout 42 days of storage. The physicochemical characteristics were not affected (p > 0.05) by HHP or pasteurization. Color of the samples showed significant differences (p ≤ 0.05) in all HHP processed and pasteurized beverages. Antioxidant activity, total phenolic compounds, flavonoids and anthocyanins increased slightly after HHP processing. Antioxidants decreased throughout the storage in all treatments. Both HHP processed and pasteurized beverages were well accepted by average consumers when evaluated using a 9-points hedonic scale.Industrial relevanceThe high hydrostatic pressure (HHP) improves the microbiological, antioxidant and sensorial stability of fermented pomegranate beverages during storage. The HHP is more common for processing fruit juices than for fermented beverages; therefore, it can be expanded to the fermented beverages industry, which could modify the today usual thermal processing methods and, or the addition of preservatives, that are not natural, for delivering high quality and healthier pomegranate fermented beverages to consumers.     

Effect of warm,chlorinated water on the microbial flora of shredded iceberg lettuce

An optimization technique was used to determine suitable times of exposure and temperatures for maximum destruction of microorganisms in shredded iceberg lettuce dipped in warm, chlorinated (100 μg/ml) water in a model system. Shredded lettuce washed for 3 min at 47°C and packaged in high oxygen transmission rate (6000–8000 cc m² 24 h) bags maintained an acceptable appearance after 7 days in storage at 1±1°C. Initial microbial loads were reduced by approximately 3 log cfu g⁻¹ in lettuce washed in chlorinated water at 47°C, and 1 log cfu g⁻¹ at 4°C. Pilot plant scale studies confirmed observations in the model system. The microbial flora of shredded lettuce packaged in the raw state and after a 3 min wash in 100 g ml⁻¹ chlorine at 4 or 47°C was dominated by psychrotrophic bacteria, particularly species of Pseudomonas, throughout the storage period. Numbers of these microorganisms were significantly lower than in raw lettuce or lettuce washed at 4°C until the 15th day in storage. Gas composition inside the bags was not affected by the washes.     

Grain Extract-Milk Beverage: Processing and Physicochemical Characteristics

Extracts from germinated barley, wheat, triticale, and corn showed compatibility when blended with milk in proportions of 30%, 40%, and 50%, respectively. The pH of grain extract-milk blends initially adjusted to 7.2 decreased to pH 6.2-6.4 when processed in bottles at 121°C for 15 min. The wheat and barley extract beverages scored highest preference followed by triticale and corn beverages. The beverage has excellent malty taste and smooth mouth feel.     

Suspension Stability, Texture, and Color of High Temperature Treated Peanut Beverage

A nondefatted peanut beverage (NDPB) and a partially defatted peanut beverage (PDPB) were processed under high temperature at 110°C or 121°C for 3 sec with homogenization pressures equivalent to 2000 or 3000 psi. Beverages were evaluated for suspension stability, viscosity, and color (L) values. Sensory ratings for color, viscosity and chalkiness were also determined. All processing conditions produced very stable emulsions. PDPB were rated significantly darker, more viscous (P ≤ 0.01) and more chalky (P ≤ 0.05) than NDPB. The NDPB samples homogenized at 3000 psi were rated lighter, and were characterized by greater particle size reduction than samples homogenized at 2000 psi. Sensory and objective measures were observed to be highly correlated.     

UHT-Sterilized Peanut Beverages: Kinetics of Physicochemical Changes during Storage and Shelf-Life Prediction Modeling

Strawberry-flavored (S04) and chocolate-flavored (C04 and C20) peanut beverages UHT-sterilized (137 °C, 4 sec or 20 sec) and aseptically filled in Tetra Briks were stored for 6 mo at 5, 20 and 35 °C. Sensory characteristics and kinetics of physicochemical changes were studied. The changes were of zero (pH of S04, and sedimentation and homogenization indices of all beverages) and first (pH of C04 and C20, viscosity and color lightness of all beverages) order. Reaction rate constant and Gibb's free energy increased with temperature. Activation energy followed Arrhenius equation. Deterioration in beverage sensory qualities highly correlated with increase in sedimentation index and decrease in pH and emulsion stability. Shelf-life prediction models were constructed based on sensory and kinetics data. The shelf-life was estimated to be 4–7 mo for beverages stored at 30–35 °C.     

Influence of Heat Treatment of Milk on the Flow Properties of Yoghurt

Milk was processed by vat heating (VAT, 85°C for 10 to 40 min), high temperature-short time heating (HTST, 98°C for 0.5 to 1.87 min) and ultra-high-temperature heating (UHT, 140°C for 2 to 8 sec) and made into yoghurt. Apparent viscosity (shear rate 57.75^5-1) ranged from 550–568 mPa.sec for VAT treatments, 260–462 mPa.sec for HTST treatments and 170–333 mPa.s for UHT treatments. Flow behavior indices for all treatments were between 0.55 to 0.65 while consistency index values ranged from 0.3 to 1. Milk processed by HTST systems appeared to be viable alternatives to vat processing. UHT processed milk, however, yielded yoghurts of low viscosity.     

UHT-Sterilized Peanut Beverages: Changes in Physicochemical Properties during Storage

Strawberry-flavored and chocolate-flavored peanut beverages were produced in a pilot plant, UHT sterilized at 137°C for 4 sec and 20 sec, aseptically filled and stored at 5, 20 or 35°C. Microbiological and physicochemical properties of the beverages were periodically assessed for up to 6 mos. No Microbial growth was observed. The pH decreased while homogenization and sedimentation indices increased with time in all beverages at all temperatures. Color lightness decreased during the first 6 wk and remained constant afterwards. Viscosity of strawberry-flavored beverage was constant whereas chocolate-flavored beverages gelled after 19 wk at all temperatures. Proteolysis was <6% in gelled beverages.     

Thermal inactivation of hepatitis A virus in suspension and in dried mussels (Mytilus edulis)

We examined the effects of three different temperatures (60, 85 and 100 °C) and durations of time (1 min at 100  ° C to 30 min at 60  ° C) on hepatitis A virus (HAV) in suspension and dried mussels (Mytilus edulis). In suspension, 3.61, 4.48, 5.06 and 5.66 log₁₀ tissue culture infectious dose (TCID)₅₀/mL were reduced by 60  ° C for 5 min, 60  ° C for 15 min, 60  ° C for 30 min and 85  ° C for 3 min, respectively. In dried mussels, 1.34, 1.94, 3.16, 2.36, 3.53 and 4.38 log₁₀TCID₅₀/mL were reduced by 60  ° C for 5 min, 60  ° C for 15 min, 60  ° C for 30 min, 85  ° C for 3 min, 85  ° C for 6 min and 85  ° C for 10 min, respectively. HAV inactivation from suspension and dried mussels was achieved by 85  ° C for 6 min and 15 min, respectively, and also by a 1 min at 100  ° C. At 60, 85 and 100  ° C, the 1‐log (D‐values) inactivation from both suspension and dried mussels was 6.33 and 7.93, 0.98 and 3.05, and 0.28 and 0.38 min, respectively. A higher temperature and/or a thermal treatment time shorter than 85  ° C for 6 min (100  ° C for 1 min) could be used for commercial target foods for complete HAV inactivation.     

Combined effects of postharvest heat treatment and chitosan coating on quality of fresh‐cut mangoes (Mangifera indica L.)

The influence of heat treatment combined with coating on sensory quality, physico‐chemicals characteristics (firmness, colour, pH, titratable acidity, total soluble solids and total carotenoids content) and microbiological quality of fresh‐cut mangoes were studied. Whole mangoes (Mangifera indica cv ‘Tommy Atkins’) were subjected to hot water dipping (HWD) at 50 °C for 30 min and cooled for 15 min. Heated and unheated fruits were minimally processed and mango cubes were coated with chitosan solution (0.25% w/v) dissolved in 0.5% (w/v) citric acid, and stored for 9 days at 6 °C under ambient atmosphere. This study showed that both HWD 50 °C for 30 min and chitosan coating, either alone or combined, did not affect the taste and the flavour of mangoes slices. The chitosan coating combined with HWD or not inhibited the microbial growth for 9 days at 6 °C. Indeed chitosan coating was used for his antimicrobial proprieties. HWD 50 °C for 30 min was the beneficial treatment to maintain firmness and colour during 9 days at 6 °C.     

Impact of γ‐irradiation and thermal processing on the antigenicity of almond,cashew nut and walnut proteins

Whole unprocessed almonds, cashew nuts and walnuts were each subjected to γ‐irradiation (1, 5, 10 and 25 kGy) followed by heat processing including autoclaving (121 °C, 15 psi for 15 and 30 min), dry roasting (138 and 160 °C for 30 min each, 168 and 177 °C for 12 min each), blanching (100 °C for 5 and 10 min), oil roasting (191 °C, 1 min) and microwave heating (500 W for 1 and 3 min). Rabbit polyclonal antibodies were raised against each major protein isolated from defatted, but not subjected to γ‐irradiation and/or any thermal processing, almond, cashew nut and walnut flours. Immunoreactivity of almond, cashew nut and walnut proteins soluble in borate saline buffer, normalised to 1 mg protein ml^?1 for all samples, was determined by inhibition enzyme‐linked immunosorbent assay (ELISA) and Western blotting. ELISAs and Western blotting experiments indicated that almond, cashew nut and walnut proteins exposed to γ‐irradiation alone or followed by various thermal treatments remained antigenically stable. Copyright © 2004 Society of Chemical Industry     

Stability to thermal treatment of dipeptidyl peptidase-IV inhibitory activity of a boarfish (Capros aper) protein hydrolysate when incorporated into tomato-based products

Biofunctional peptide ingredients should retain their stability following standard processing operations in food-based delivery vehicles. A boarfish protein hydrolysate, exhibiting anti-diabetic activity, was subjected to a range of thermal treatments following incorporation into tomato-based soup and juice products. The dipeptidyl peptidase-IV (DPP-IV) inhibitory activity and peptide profile of the hydrolysate within the products were assessed before and after thermal treatment. The treatments applied had no effect on the DPP-IV inhibitory activity or peptide profile of the protein hydrolysate. The heat-treated (90 °C × 1 min and 121 °C × 42 s) juice-fortified beverage had microbial counts within the acceptable limits for consumption when stored at 4 °C for 30 days. Furthermore, the hydrolysate within the beverage products was resistant to simulated gastrointestinal digestion (SGID) regardless of whether it was heat- or non-heat-treated, or stored for 30 days at 4 °C. Therefore, tomato-based beverages are suitable delivery vehicles for biofunctional peptide ingredients.     

Rapid Rehydration Methods for Dried Beans

Rapid methods of rehydrating dried kidney, pinto or navy beans by soaking at 82°C or 93°C for 5, 10 or 30 min were compared to standard 18 hr soaking at ambient temperature. Canned beans processed 21 min at 121°C had higher drained weights and softer texture with fewer split beans than those processed 41 min at 116°C. Kidney, pinto and navy beans soaked 30 min at 82°C had higher drained weight than those soaked 30 min at 93°C. Hydration coefficient (2.07) of controls (18-hr soak) and beans soaked 82°C (1.94) or 93°C for 30 min were not different. Pre soaking 30 min at 82°C provided adequate rehydration prior to canning.     

Effect of hydrothermal processing on colour,antioxidant and free radical scavenging capacities of edible Irish brown seaweeds

The effect of heat processing on change in colour (ΔE), level of bioactive compounds and overall antioxidant capacity in raw and heat‐processed edible Irish brown seaweeds was investigated. Raw seaweeds were heated at 85–121 °C for 15 min in an autoclave and extracted with 60% methanol. In comparison with raw seaweeds for all the species studied, heating increased total phenol (TPC) (1.6‐ to 1.9‐fold) and total tannin (TTC) (1.3‐ to 2.6‐fold) at 95 °C, while total flavonoid (TFC) (1.6‐ to 3.3‐fold) and total sugar (TSC) (1.9‐ to 4.3‐fold) at 85 °C. Similarly, EC₅₀ value reduced in case of DPPH^? scavenging (30.7–51.8%), metal chelating ability (FIC) (27–67.8%) and H₂O₂ scavenging capacity (13.3–16.1%) at 95 °C, while reduction in lipid peroxidation (10.8–31.5%) observed at 85 °C. Results showed that heating affects content of bioactive compounds as well as beneficial biological activity associated with these compounds, which can suggest new processing for application of seaweeds extract as nutraceutical.     

Processing‐induced changes in total phenolics and procyanidins in clingstone peaches

Clingstone peaches contain a wide array of complex secondary plant metabolites and polyphenolics, and increasing evidence indicates that many of these components are important in human health. Oligomeric flavan‐3‐ol metabolites (procyanidins) are particularly interesting owing to their potent antioxidant activity and protective cardiovascular effects. To date, little information is available on how postharvest and processing conditions impact levels of phenolics and procyanidins in fruit. This research addresses the impact of lye peeling, freezing, storage temperature (4 and 30 °C) and three different time–temperature sterilisation combinations on levels of total phenolics (TPs) in Ross clingstone peaches. Additionally, we describe the profile of procyanidin oligomers (monomers through heptamers) in clingstone and freestone peaches and demonstrate a dramatic decrease in procyanidins in thermally processed peaches. TP levels ranged between 316 and 397 mg kg^?1 in peeled peaches and between 376 and 609 mg kg^?1 in unpeeled peaches. Cold storage at 4 °C for 14 days or freezing and storing at ?12 °C for 3 months produced no loss in TPs. Peaches stored at 30 °C for 24 h resulted in a 1.7‐fold increase in TPs. Studies of TPs in peaches processed at temperatures of 213 °F for 40 min, 220 °F for 10 min and 230 °F for 2.4 min indicate that processing above 213 °F decreases levels of both TPs (up to 21%) and procyanidins (up to 100%). Processing at 213 °F for 40 min produced no significant loss in TPs. Furthermore, studies reveal that a 30–43% loss in phenolic levels occurs during the first 3 months in storage after canning. It is clear that both storage and thermal processing conditions profoundly impact the levels of polyphenolics in peaches. More interestingly, these studies indicate that peaches are a rich source of procyanidins, having profiles similar to those found in cocoa, apples, wine and tea. © 2002 Society of Chemical Industry     

Effect of Heat Treatment for Trypsin Inhibitor Inactivation on Physical and Functional Properties of Peanut Protein

Trypsin inhibitor (TI) inactivation in whole peanut kernels exposed to moist heat had a decimal reduction time (D) of 91 min at 100°C and 9.3 min at 120°C. When all processing times were converted to process time at 120°C using Z of 20°C, the composite D at 120°C was 10 min. Solubility decreased with heating to reach a minimum with 98% TI inactivation. Capacities to spontaneously absorb water and to gel were retained better on heating at 120°C than at 100°C for equal TI inactivation. The most functional protein was in kernels heated at 120°C for 10 min. When 20 or 30% meat protein in a meat loaf formulation was replaced with the latter peanut protein, the resulting loaf retained more fat and water and exhibited higher shearing strengths than all meat formulations.     

Breaking of structural dormancy in seeds of Tetrapleura tetraptera by Aspergillus niger

Aspergillus niger (strain UUF9202) significantly reduced the dormancy period and boosted aggregate germination percentage (AGP) in seeds of Tetrapleura tetraptera. A net reduction in mean germination time (MGT) to 12 days and an increase from 0 to 42% AGP were obtained in 32 days. The optimal spore inoculum of the fungus was 8.5 × 10≥10 ml^?1 per 100 seeds in 96 h pregermination incubation. The potential of some physical factors in combination with this fungal concentration in enhancing AGP was evaluated. The treatments were as follows: (i) hot water scarification at 30°C, 50°C, 80°C and 100°C plus A niger; and (ii) nicking by decoating at either the micropylar or chalazal ends plus A niger. Micropylar scarification plus A niger gave the highest AGP (94%) followed by chalazal scarification plus A niger (86%) and hot water dip at 80°C + A niger (82%). The control seeds which were soaked in presterilised (by autoclaving at 121°C for 15 min) A niger spore suspension at 30°C gave zero germination.     

Effect of storage temperature and packaging on quality and shelf‐life of high pressure processed black tiger shrimp (Penaeus monodon)

The effect of high pressure processing (361 MPa/12 min/46 °C) on the quality and shelf‐life of black tiger shrimp was investigated. Changes in physical, biochemical, microbiological, and sensory attributes of samples packed in low density polyethylene (LDPE), ethylene vinyl alcohol (EVOH), and multilayer metalized polyester (MMP) pouches were examined during storage at 4, 15, and 25 °C for 30 days. The estimated shelf‐life of pressure treated samples based on sensory, chemical, and microbiological data was found to be 30 days for EVOH and MMP samples and 18 days for LDPE samples at 4 °C. The control and high pressure samples at 15 °C reach the unacceptable limit by 3rd and 9th day of storage, respectively. However, the samples at 25 °C showed shelf‐life of less than 3 days. Among the packages employed in the study, EVOH film was adjudged to be best in maintaining the quality of shrimp.

Practical applications

In global seafood market, shrimp is a commercially traded important commodity. The conducted study detailed about the quality changes occurred due to microbial activity and biochemical reactions in high pressure processed black tiger shrimp under different storage and packaging conditions and their impact on the shelf‐life. The provided data will be useful in the selection of appropriate conditions to preserve the valuable catch, establish high quality and safety requirements to enhance the marketing potential of shrimp.     

Industrially Relevant Canning Trials with a Sterilisation Time–Temperature Integrator

Food sterilisation, i.e. heating to above 120 °C for several min, still remains a primary method of food preservation. Current time–temperature integrators (TTIs), used to assess the thermal impact, only work at pasteurisation temperatures (below 100 °C). The aim of this work was to develop and validate a sterilisation TTI using an α-amylase from the hyperthermophile Pyrococcus furiosus. Previous experiments have found that this α-amylase has a z value similar to that of Clostridium botulinum spores and the enzyme is sufficiently heat resistant to show a measurable residual activity after 30 min at 121 °C. Analysis found a D value of 24 min and a slightly variable z value of around 11 °C. The decrease in enzymatic activity from thermal processing was found after a F_121°C process of 5 min to be 67 %, and for a F_121°C of 30 min it was 12 %, thus making P. furiosus α-amylase a strong and relevant candidate for a sterilisation TTI. Trials with canned water and mango chutney as test materials have confirmed the potential application of the enzyme within an industrially relevant setting of a model reel and spiral retort. The thermal data showed that at low or marginal F_121°C values, of less than 15 min, the correlation between the TTI and thermocouple data was closely comparable (R ²?=?0.96). The applicability of these TTIs over the range of industrial processes is also shown.     

Gel‐forming ability of surimi from grass carp (Ctenopharyngodon idellus): influence of heat treatment and soy protein isolate

The effects of setting conditions and soy protein isolate (SPI) on textural properties of surimi produced from grass carp were investigated. Effects of setting temperature, setting time and protein concentration on the breaking force and distance were evaluated and compared utilizing response surface methodology. Models for breaking force and breaking distance of grass carp surimi were established. Protein concentration was the major factor affecting the gel strength of grass carp surimi. Breaking force and distance of grass carp surimi gels decreased with increase of protein ratio from SPI at 30 °C and 40 °C for 60 min setting and heating at 85 °C for 30 min, but the breaking force obtained for addition of 100 g kg^?1 SPI protein to grass carp surimi was higher than that for surimi alone at 60 °C for 60 min incubation and heating at 85 °C for 30 min. Copyright © 2005 Society of Chemical Industry