The tendency to use biocompatible packages, such as biodegradable films, is growing since they contain natural materials, are recyclable and do not cause environmental pollution. In this research, cold water fish gelatin and carboxymethyl cellulose were combined for use in edible films. Due to its unique properties, gelatin is widely used in creating gel, and in restructuring, stabilizing, emulsifying, and forming foam and film in food industries. This research for the first time modified and improved the mechanical properties of cold water fish gelatin films in combination with carboxymethyl cellulose. Cold water fish gelatin films along with carboxymethyl cellulose with concentrations of 0%, 5%, 10%, 20% and 50% were prepared using the casting method. The mechanical properties were tested by the American National Standard Method. Studying the absorption isotherm of the resulting composite films specified that the humidity of single-layer water decreased (p < 0.05) and caused a reduction in the equilibrium moisture of these films. In the mechanical testing of the composite films, the tensile strength and Young’s modulus significantly increased and the elongation percent significantly decreased with the increase in the concentration of carboxymethyl cellulose. Considering the biodegradability of the films and the improvement of their mechanical properties by carboxymethyl cellulose, this kind of packaging can be used in different industries, especially the food industry, as an edible coating for packaging food and agricultural crops.
Yoghurt is a popular dairy product in Iran because of its beneficial influence on human health and nutritional value. Aflatoxin M1 (AFM1) is the metabolite of potential carcinogen aflatoxin B1, which can contaminate milk through the feed and is not eliminated by common processing heat treatment. An analytical method using immunoaffinity column for extraction and a high-performance liquid chromatography (HPLC) for quantification was developed for AFM1 in this study. An HPLC method with fluorimetric detection for the determination of AFM1 in yoghurt milk has been optimized and validated according to Commission Decision BS EN ISO 14501: 2007 by using the conventional validation approach. The procedure for determining selectivity, recovery, precision, decision limit (CCα) and detection capability (CCβ) of the method has been reported. The results of the validation process demonstrate the agreement of the method with the provisions of Commission Regulation 401: 2006:EC. A new HPLC method with fluorescence detection was developed to determine aflatoxin M1. The detection limit was 1 ng/kg for yoghurt. The calibration curve was linear from 0.1 to 3.0 μg l⁻¹ injected. The method includes a preliminary clean-up and the average recoveries determined on three different days at the concentration levels of 0.025, 0.050 and 0.075 μg kg⁻¹ were in the range of 72.57%-86.66% with RSD in the range of 2.56%-8.41%. The interday and interlevel mean recovery value, which has been used to correct routine analysis results, was 80%. The method is rapid, easily automatable and therefore useful for accurate and precise screening of aflatoxin M1 in yoghurt.
The present study was aimed to determine the presence and levels of aflatoxin M(1) (AFM(1)) in 120 natural yoghurt samples consisting of 80 samples of commercial and 40 samples of traditional yoghurt in Guilan province in the north of Iran. The occurrence and concentration range of AFM(1) in samples were determined by immunoaffinity column extraction and high-performance liquid chromatography. Analysis of yoghurts showed that all the samples were contaminated with AFM(1) in concentration levels ranging from 4.2 to 78.9 ng/kg. In general, 16 samples (13.33%) had higher AFM(1) level than the maximum tolerance limit (50 ng/kg) accepted by European Union, but the contamination level was lower than 500 ng/kg in all the samples, which is accepted by Codex Alimentarius and National Standard. The concentration of AFM(1) in 26 samples (21.66) was lower than 10 ng/kg. The range of contamination of AFM(1) was comparatively higher in traditional yoghurt (average concentration of 32.9 ng/kg) than that in commercial yoghurt (average concentration of 21.6 ng/kg; p < 0.01). Because yoghurt is the most popular dairy product consumed in Iran, the AFM(1) contamination is a serious problem for public health. This study reports the data of a first survey on the presence of AFM1 in yoghurt in Guilan, Iran.
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