Food Technology
Maryam Zamanian; Hassan Sadrnia; Mehdi Khojastehpour; Fereshteh Hosseini; Jules Thibault
Abstract
Introduction: Among the different types of polymers used for packaging and coating, polyvinyl alcohol (PVA), given its very enviable properties, has been used in various industrial applications. It is used for instance as controlled release in pharmaceutical elements, paper, textile and food supplement ...
Read More
Introduction: Among the different types of polymers used for packaging and coating, polyvinyl alcohol (PVA), given its very enviable properties, has been used in various industrial applications. It is used for instance as controlled release in pharmaceutical elements, paper, textile and food supplement coating due to its good physical properties, chemical resistance, thermostability, film-forming capability, efficiency and biodegradability. The aim of this work was to examine the combined effect of montmorillonite (MMT) platelets and titanium oxide (TiO2) spherical nanoparticles on the physical and mechanical properties of PVA/ TiO2/MMT nanocomposites, and to determine the optimal combination to provide good properties, using response surface methodology (RSM). Materials & methods: PVA, PVA/TiO2, PVA/MMT and PVA/ TiO2/MMT nanocomposite films were prepared by the solution casting method. For each sample, 1.8 g of PVA was dissolved in 50 mL deionized water and maintained for 24 h at room temperature. The mixture was then heated to 90˚C and stirred using a magnetic stirrer up to 3 h to ensure the complete dissolution of PVA, followed by cooling down the solution to room temperature. Various amounts of TiO2 nanoparticles (1 and 2 w% on a dry basis) were added to deionized water and agitated with a stirrer for 12 h at 500 rpm. This method was also used for MMT (2 and 4 w% on a dry basis). The nanoparticle suspension was subjected to ultrasonic homogenization for 20 min to ensure a good dispersion. The 50 mL nanoparticle suspension was added to the PVA solution drop by drop during a period of 5 min while maintaining intense stirring (1000 rpm). Mixing was continued and glycerol (30 w% based on the polymer) was added. Vacuum with a rotary vacuum pump was applied to remove air bubbles from the solution. The solution was poured into a 15-cm internal diameter Petri dish with a perfectly flat bottom and carefully aligned horizontally. Homogeneous films were peeled off after drying in an air oven at 40˚C for 72 h. Scanning electron microscopy (SEM) and X-ray diffraction analysis (XRD) were performed for characterizing the morphology of nanocomposite films. The effect of these two nanoparticles on physical and mechanical properties, was evaluated by response surface methodology (RSM). A three-level factorial design was used to define the test points for the series of experiments. Among the various design alternatives suggested by theoretical algorithm, the selected design consisted of 13 experiments including five replicate central points used for variance calculation. Furthermore, PVA film data were analyzed using the Design-Expert program (Version 7.0, Stat-Ease Inc., Minneapolis, Minnesota) to find the optimum combination of constituents for the best properties. Results and discusions: X-ray diffraction patterns showed that the nanoparticles were well dispersed in the polymer matrix of PVA/ TiO2 and PVA / MMT films with layered microstructure. In addition, the linear effect of MMT nanoparticles and the interaction of TiO2 and MMT on tensile strength were significant. The linear, quadratic and interaction effects of both nanoparticles on Young's modulus were also significant. In general, the optimum values of TiO2 and MMT were 1% and 4% respectively for mechanical properties. The presence of both nanoparticles had a significant effect on transparency and ΔE. Results of nanocomposite films indicated that the film with 2% TiO2 and 4% MMT has higher WI and actually is darker than other samples. By analyzing different results with response surface method, the nanocomposite film with 0.5% TiO2 and 4% MMT was proposed as optimum combination for mechanical and physical properties
Fereshteh Hosseini; Zeynab Raftani Amiri
Abstract
In this study, the effect of stevia (0-0.04 g/100g) as a sucrose replacer, milk protein concentrate (mpc) (0-4 g/100g), and modified waxy corn starch (0-3 g/100g) as fat replacers on the physico-chemical and sensory characteristics of 15% fat cream were analyzed using a central composite rotatable design. ...
Read More
In this study, the effect of stevia (0-0.04 g/100g) as a sucrose replacer, milk protein concentrate (mpc) (0-4 g/100g), and modified waxy corn starch (0-3 g/100g) as fat replacers on the physico-chemical and sensory characteristics of 15% fat cream were analyzed using a central composite rotatable design. Response surface methodology was used for optimization of low calorie cream formulation. Results showed that an increase in sucrose substitution with stevia and mpc concentration was followed by an increase in cream acidity, while pH decreased. Increasing sucrose substitution with stevia in cream decreased firmness, apparent viscosity and consistency, whereas increasing concentration of milk protein concentrate and modified starch increased the cream firmness, apparent viscosity and consistency. However, according to multiple response optimization, the optimum levels of 0.034 g/100g stevia, 1.64 g/100g mpc and 2.30 g/100g modified starch predicted acidity 0.15% acid lactic, pH 6.5, firmness 1.4 N, apparent viscosity 28730.3 mPa.s and consistency 0.52 cm/30 s. The calorie value of formulated cream was 46.44% less than the control sample (cream with 30% fat and 12% sucrose), and no significant difference in total acceptance between them was found, while formulated cream had higher score for taste and creamy state.
Samaneh Rezaei; Mohammad Bagher Habibi Najafi; Fereshteh Hosseini; Reza Karazhyan
Abstract
Introduction: Nowadays, with the increasing awareness of the side effects of synthetic additives, consumer’s demand for colorants from natural sources has been increased. Annatto is an allowed natural colorant used in food industries, textiles, cosmetics and pharmaceutical products. The colorant is ...
Read More
Introduction: Nowadays, with the increasing awareness of the side effects of synthetic additives, consumer’s demand for colorants from natural sources has been increased. Annatto is an allowed natural colorant used in food industries, textiles, cosmetics and pharmaceutical products. The colorant is extracted from the seeds, which are covered by a red, resinous pericarp containing the pigments. The main pigment is bixin (methyl hydrogen 9′-cis-6, 6′-diapocarotene-6, 6′-dioate) which is responsible for the orange red color in the seeds (80% of total carotenoids). Smaller amounts of norbixin are also presented. Bioactive compounds like bixin and phenolic compounds reduce the risks of various chronic disorders, such as cancer, inflammation, cardiovascular, hypercholesterolemia, diabetes, and cataracts (Boschetto, et al., 2014; Somacal et al., 2015; Ezuruike & Prieto, 2014). Moreover many studies have proven antimicrobial activity of annatto extracts (leaves, capsules, seeds…) against several food spoilage and pathogenic bacteria such as Staphylococcus aureus, Escherichia coli and Bacillus subtilis, as well as few fungi such as Candida utilis, and Aspergillus niger. Annatto is a permitted natural food coloring with antioxidant properties, high therapeutic potential and antimicrobial effects. The aim of this study was to evaluate antimold activity of annatto natural dye on 3 important food pathogenic and spoilage molds, Aspergillus niger,Neurospora sitophila and Rhizopus stolonifer.
Material and Methods: Annatto dye was extracted by maceration method and after filtration it was dried by a vacuum oven. Anti-mold activity was evaluated by well diffusion and disk diffusion methods in 1 to 10 percent concentrations of acetone extract of annatto and minimum inhibitory concentration (MIC) was determined using agar dilution method at 48 and 72 h after incubation at 25 °C.
Results and Discussion: The results indicated promising anti-mold activity. The highest mean zones of inhibition in all concentrations were obtained for Aspergillus niger, Neurospora sitophila and Rhizopus stolonifer, respectively. This difference might be due to the more resistance and rapid growth of Rhizopus stolonifer and Neurospora sitophila compared to Aspergillus niger. No inhibitory effect was observed in the concentrations below than 1%, this result is in consistent with Irobi, et al., (1996) findings that proved annatto's organic extract has a weak effect on Aspergillus niger at low concentration (5 mg/ml).In all concentrations, Aspergillus niger showed the highest inhibition zone and the most sensitivity to annatto extract found at Aspergillus niger, Neurospora sitophila and Rhizopus stolonifer, respectively. Disk diffusion method was inefficient to inhibit mold growth. Minimum inhibitory concentration of annatto dye against Aspergillus niger and Neurospora sitophila was determined 6 percent while Rhizopus stolonifer showed 7 percent. According to the results annatto dye was effective to inhibit growth of Aspergillus niger, Neurospora sitophila and Rhizopus stolonifer. Therefore it can be concluded that annatto dye could be used as a functional and inhibitory agent against mold growth in the foods that are susceptible to mold spoilage (e.g. bakery goods).
Mahmoud Yolmeh; Mohammad Bagher Habibi Najafi; Reza Farhoosh; Fereshteh Hosseini
Abstract
IntroductionFood consumers tend to use natural products without any synthetic additives. Therefore, many studies have been conducted to investigate the possibility of replacing synthetic additives with natural substances in various food products.Annatto dye is a natural carotenoid pigment extracted from ...
Read More
IntroductionFood consumers tend to use natural products without any synthetic additives. Therefore, many studies have been conducted to investigate the possibility of replacing synthetic additives with natural substances in various food products.Annatto dye is a natural carotenoid pigment extracted from the pericarp of BixaorellanaL. seeds. The major fraction of the annatto extract is 9´-cis-bixin that is soluble in oil and 9´-cis-norbixin is the major dye fraction of the alkaline extract that is soluble in water. Annatto dye creates orange to red color in food and to be used as a natural pigment in a variety of food materials including cheese, butter, margarine, confectionary and bakery products, different kinds of drinks, snacks and jams. In addition, annatto dye has antioxidant and antimicrobial activity.Nowadays, the extraction of natural dye from plant resources has become a common technology. However, complementary information using new methods and optimization of the extraction conditions seems to be necessary in order to accomplish the highest yield of extraction. Response surface method (RSM) is effective and efficient in optimizing color extraction conditions.In this study, the different conditions of extraction process were optimized through RSM in order to obtain maximum yield and best quality of annatto dye.Materials and methodsMaterialsAnnatto seeds were purchased from Hyderabad, India. All solvents were analytical grade, Merck, Germany.Extraction of annatto dyeA certain amount of annatto seeds was soaked in n-hexane for 6 hours in order to remove oils. After filtration, the defatted seeds were used for dye extraction. Since chloroform and acetone showed the highest yields of extraction during preliminary experiments, these two solvents and their mixtures were exploited for the final experiments assigning 0 for pure acetone and 100 for pure chloroform. The extracts were filtered through Whatman filter paper NO.1 and then vacuum-dried in the 1410D-2E vacuum oven (Shel Lab, USA) to produce dye powder. Low temperatures (40°C) were applied to prevent thermal dissociation of conjugated double bonds during drying. Dye measurementThe coloring strength was measured according to Vasu et al. method; model UV-160A spectrophotometer Shimadzu, Japan, at 502 nm in which bixin has the maximum absorbance value when it is dissolved in chloroform.Determination of extraction efficiencyThe obtained powder was weighed and the mass ratio of the powder to the weight of the seeds was taken into account as the extraction yield.Experimental designIn this study, Minitab® software version 16.1.1 (Minitab Inc. USA. 2010), was used and a five level four factor central composition design was created to investigate the effect of the independent variables such as temperature, extraction time, seed to solvent ratio and chloroform concentration on the dependent variables namely the extraction efficiency and absorbance values.Results and DiscussionThe values of R2, R2-adj and R2-pred revealed that the full quadratic models were the most adequate for the extraction efficiency and absorbance values.The all of the linear terms show a significant effect except the extraction time (P< 0.05). The quadric term of extraction time and the seed to solvent ratio also had a significant effect (P< 0.05) on the extraction efficiency, however, the effect of other two quadric terms was insignificant (P> 0.05). The interactive terms of extraction temperature* seed to solvent ratio(X1X3) and the seed to solvent ratio*Chloroform concentration (X3X4) had a significant effect on the extraction efficiency (P< 0.05); however, the other two interactive terms was insignificant (P> 0.05).For the absorbance values, the all of the linear terms show a significant effect (P < 0.05); the quadric term of extraction temperature (X12) and the seed to solvent ratio (X32) also had a significant effect (P< 0.05) on absorbance values, but, the effect of other two quadric terms (X22 and X42) did not show a significant effect (P> 0.05). The all of interactive terms was insignificant (P> 0.05).An increase in the extraction efficiency was observed with the increasing temperature. Banik and Pandey while extracting oleanolic acid from Lantana camararoots demonstrated that as temperature increases extraction efficiency improves too. However, at temperatures higher than 70 °C, the annatto seed pigments were degraded and the response was reduced so the quadratic effect of temperature was negative. The absorbance value was increased by increasing the temperature; however, the absorbance value decreased at higher temperature by thermal decomposition and damage of the conjugate double bond.The absorbance value increased by increasing the chloroform concentration and seed to solvent ratio initially, however, subsequently decreased due to the damage of the conjugate double bond in higher chloroform concentration and saturation of solvent in higher seed to solvent ratio.Temperature of 48.33 ˚C, extraction time of 2 hr, the ratio of seed to the solvent of 12.88 and chloroform concentration of 100% were found to be as the optimum conditions of the process. The extraction efficiency of 3.95 percent of annatto seed and absorbance value of 0.597 were acquired as the predicted results.
Fereshteh Hosseini; Mohammad Bagher Habibi Najafi; Majid Hashemi; Shadi Bolourian; Fereshteh Zaman Zade
Abstract
Macaroni is one of the favorite dishes in Iranian,s family food program. In this study, effects of using different level of curcumin as a natural and functional component extracted from Curcuma Longa plant, against total count , total coliforms, psychrotrophic bacteria, yeasts and moulds and colorimetric ...
Read More
Macaroni is one of the favorite dishes in Iranian,s family food program. In this study, effects of using different level of curcumin as a natural and functional component extracted from Curcuma Longa plant, against total count , total coliforms, psychrotrophic bacteria, yeasts and moulds and colorimetric properties of macaroni in comparison with beta carotene and turmeric as commercial color additives has been investigated. Treatments were five different level of curcumin, C1:0/005, C2:0/01, C3:0/03, C4:0/05, C5:0/07, 0/07 turmeric and 0/01 beta carotene as positive controls and sample with no color additive as a negative control. PCA, VRBA and MEA mediums were used for microbial analysis. Colorimetric properties of macaroni in two form (powdered and non powdered ) was measured with a Hunter Lab Colorimeter and the color differences were recorded as CIE-LAB L*(lightness), a* (redness–greenness) and b* (yellowness–blueness) values and the colorimetric difference (ΔE) for each sample was calculated. Results showed that there is a linear relationship between %curcumin and total count, yeasts and moulds, so with increasing curcumin level in samples, total count, yeasts and moulds were decreased. Also, samples containing curcumin in comparison with the samples containing the same percent of beta carotene were lighter, less red and have the same yellowness. In fact, using %0/03 curcumin in macaroni formulation, produces the same ΔE as %0/07 turmeric and %0/01 beta carotene in comparison with non color additive samples. Also, by increasing the amount of curcumin in formulation, macaroni were being less light, redder and more yellow.
Keywords: Macaroni, Curcumin, Antimicrobial, Hunterlab, Turmeric
Sara Khoshnoudi; Fereshteh Hosseini
Abstract
In this study Lemon juice were packaged at three type of packaging ( PET , PE and Glass bottles ). The samples were stored ten weeks at 20 and 40 ◦C . Physicochemical (pH, acidity, brix, vitamin C , SO2 and formalin number ) and sensory properties of Lemon juice were evaluated on every two weeks. ...
Read More
In this study Lemon juice were packaged at three type of packaging ( PET , PE and Glass bottles ). The samples were stored ten weeks at 20 and 40 ◦C . Physicochemical (pH, acidity, brix, vitamin C , SO2 and formalin number ) and sensory properties of Lemon juice were evaluated on every two weeks. The results showed that the two storage temperatures(20 and 40 ◦C ) had not any significant effect on pH, acidity and brix of samples in different packaging (p≥0.05). The amount of vitamin C decreased on three type of packaging at the storage time that it was maximum in PE and minimum for glass bottles (p
Fereshteh Hosseini; Mohammad Bagher Habibi Najafi; Nasser Sedaghat
Abstract
In this study, a flexible package comprises of three layers, polyethylene (100μ), aluminium foil
(9μ) and polyester (12μ) was used for packaging blackcherry preserves. All packed preserves were
kept up to three months at 4 different storage temperatures (4, 23, 35 and 40°C). Physicochemical,
microbial ...
Read More
In this study, a flexible package comprises of three layers, polyethylene (100μ), aluminium foil
(9μ) and polyester (12μ) was used for packaging blackcherry preserves. All packed preserves were
kept up to three months at 4 different storage temperatures (4, 23, 35 and 40°C). Physicochemical,
microbial and organoleptical properties of all trials were determined monthly. As a result, the average
pH, °Bx, acidity, Fe and Pb content were 3.99, 17.49, 0.25, 3.16ppm and 387.98ppb. All
organoleptical properties of samples were acceptable. Temperature had statistically significant effect
on the physicochemical and organoleptical properties of samples. The samples stored at 4 and 23°c
were more acceptable due to their better quality. Flexible pouches have more advantages such as good
colour and constant level of heavy metal as well as low cost and..
Keywords: blackcherry, laminated flexible pouch, packaging, preserve
