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Effects of Irradiation Temperature on the Sensory Quality Improvement of Gamma-irradiated Ganjang-gejang, Korean Traditional Marinated Raw Crab Portunus trituberculatus in Soybean Sauce
Effects of Irradiation Temperature on the Sensory Quality Improvement of Gamma-irradiated Ganjang-gejang, Korean Traditional Marinated Raw Crab Portunus trituberculatus in Soybean Sauce
Fisheries and aquatic sciences. 2015. Jun, 18(2): 115-121
Copyright © 2015, The Korean Society of Fisheries and Aquatic Science
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial Licens (http://creativecommons.org/licenses/by-nc/3.0/)which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
  • Received : December 12, 2014
  • Accepted : March 03, 2015
  • Published : June 30, 2015
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About the Authors
Jae-Nam Park
Team for Radiation Food Science & Biotechnology, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, Jeongeup 580-185, Korea
Eui-Baek Byun
Team for Radiation Food Science & Biotechnology, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, Jeongeup 580-185, Korea
In-Jun Han
Team for Radiation Food Science & Biotechnology, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, Jeongeup 580-185, Korea
Beom-Seok Song
Team for Radiation Food Science & Biotechnology, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, Jeongeup 580-185, Korea
Hee-Sook Sohn
Department of Food Science & Human Nutrition, Chonbuk National University, Jeonju 561-756, Korea.
Sang-Hyun Park
Team for Radiation Food Science & Biotechnology, Advanced Radiation Technology Institute, Korea Atomic Energy Research Institute, Jeongeup 580-185, Korea
Eui-Hong Byun
Department of Food Science and Technology, Kongju National University, Yesan 340-800, Korea
Minchul Yoon
Food Safety Research Division, National Fisheries Research & Development Institute, Busan 619-705, Korea
Nak-Yun Sung
Department of Food Science and Technology, Kongju National University, Yesan 340-800, Korea
nig69@naver.com
Abstract
This study was conducted to confirm quality properties of sterilized Ganjang-gejang (marinated crab Portunus trituberculatus ) with Korean soy sauce using by gamma irradiation and to improve quality of sterilized Ganjang-gejang . The Ganjang-gejang was irradiated at dose of 3, 6, 9, 12, and 15 kGy by gamma irradiation and there was evaluated in microbiological, physicochemical, and sensory properties. Total aerobic bacteria and fungi contents of non-irradiated samples were about 6 and 4 log CFU/g level, respectively. Gamma-irradiated samples at above 9 kGy did not contain aerobic bacteria or fungi at detection limit less than 2 log CFU/g, but sensory scores were significantly decreased depending on the irradiation dose. To improve the sensory qualities of gamma-irradiated Ganjang-gejang , the temperature was adjusted during sample irradiation. When samples were irradiated under freezing temperatures, especially on dry ice, the TBARS and the deterioration of sensory qualities of Ganjan-Gejang were reduced. Different odor patterns were observed among samples, as observed using electronic nose analysis system. The results of this study indicated that treatment with irradiation under low temperatures may help to preparing high-quality Ganjang-gejang .
Keywords
Introduction
Traditional Korean cuisine includes many kinds of fermented foods, such as kimchi (fermented vegetables), Jang (soybean fermented food), and Jeotgal (fermented seafood). Kimchi is good source of vitamins and minerals, and Jang and Jeotgal are adequate source of protein. In particular, 54 kinds of Jeotgal using fish, crab, and clams with salt or soybean sauce are known in Korea ( Seo et al., 2008 ). Ganjang-gejang , a type of Jeotgal , is popular because of its racy flavor and taste and, is made of raw crab Portunus trituberculatus with Korean soybean sauce. Ganjang-gejang is fermented in a refrigerator of 7ºi with a mixture of raw crab, boiled soybean sauce, and vegetables. Crab, which is main ingredient in Ganjang-gejang , contains essential amino acid, such as leucine. In addition, crab is beneficial in combatting obesity, liver disorders, and hypertension. Korean soybean sauce contains variable bioactive substances resulting from the fermentation process, including peptides, polyphenols, and isoflavone ( Cheigh et al., 1993 ).
Serving to satisfied food to patient who wants their favorite food is a high priority in hospitals in Korea due to the focus on maintaining the patient’s nutritional health ( Han, 2011 ). However, serving certain foods like Ganjang-gejang to patients, especially seniors and immuno-compromised patients, has limitations due to the presence of bacteria, such as Escherichia coli and Bacillus cereus , derived from raw crab and soybean sauce; these bacteria can cause food poisoning, which may be detrimental to the health and recovery of patients. Therefore, adequate sterilization procedures are necessary to permit patients to consume their favorite foods while hospitalized.
Energy-efficient non-thermal sterilization is an advanced application of irradiation technology ( Byun, 1997 ). Pasteurization or sterilization of irradiated foods has been shown to effectively control biological hazards associated with foods made from raw materials by non-thermal or low-temperature cooking methods, without compromising nutritional properties ( Skala et al., 1987 ; Thayer et al., 1986 ). In addition, selective sterilization can be achieved using gamma irradiation technology applied to Korean traditional fermented food; indeed, studies using various fermented foods have reported successful sterilization of kimchi , fermented fish paste, red pepper-soybean paste, ssamjang, meju , and cheonggukjang ( Kim et al., 2000a ; Kim et al., 2000b ; Park et al., 2010 ).
Therefore, the objective of this study was to evaluate the microbiological and sensory characteristics of Ganjang-gejang sterilized with gamma irradiation or developed for serving to immuno-compromised patient.
Materials and Methods
- Sample preparation
Commercial Ganjang-gejnag [swimming crab Portunus trituberculatus 50%, soybean sauce 50% (dark soy sauce 55%, starch syrup 25%, soju 10%, sweet tangle laminaria japonica 2%, red pepper 2%, garlic 2%, onion 2%, green onion 2%) was purchased in frozen form from a local supermarket in Jeongeup-si, Jeollabuk-do, South Korea. All fermented Ganjang-gejang (swimming crab, Portunus trituberculatus, marinated with soybean sauce) samples with crab (50 g) and soybean sauce (50 mL). All samples with crab and soybean sauce (50 mL) were placed into a sterilized package (AL-LDPE, aluminum-laminated low-density polyethylene, Sunkyung Co., Ltd., Seoul, Korea). The packaged samples were kept in refrigerator at 4℃ before irradiation.
- Gamma irradiation
Samples were irradiated in a cobalt-60 irradiator (IR-7P, MDS Nordion Co., Ottawa, Ontario, Canada) at room temperature. The source strength was approximately 320 kBq, with a dose rate of 10 kGy/h, and the actual doses were within 2% of the target doses of 3, 6, 9, 12, and 15 kGy. To maintain temperature during irradiation, samples were placed in the container box filled with ice or dry ice for refrigeration and freezing conditions, respectively. The absorbed dose was monitored by using a 5-mm diameter alanine dosimeter (Bruker Instruments, Rheinstetten, Germany).
- Microbial analysis
Approximately 50 g of swimming crab samples containing the meat and shell were aseptically prepared, put in a sterilized bag with 50 mL of soybean sauce (50 mL) and stomacher (Tekmar Co., Los Angeles, CA, USA) for 5 min. For microbiological analysis of the samples, portions (10 g) of the samples were aseptically transferred into sterile bags containing 90 mL of sterile water diluents and pummeled in a stomacher (Tekmar Co., Los Angeles, CA, USA) for 1 min. The diluted solution (100 μL) was then placed on plate count agar (PCA, Difco Co., Detroit, MI, USA) for determination of total bacteria content, followed by addition to a 1 mL dilution solution in 9 mL thioglycollate medium (Difco Co.) to confirm the sterilization. Yeast and mold contents were determined using potato dextrose agar (PDA, Difco Co.) with a diluted solution (100 μL). PCA plates and thioglycollate medium tubes inoculated with samples were incubated at 35℃ aerobically for 48 h and seven days, and PDA inoculated with samples was incubated at 25℃ for up to two days. The colonies in all petri dishes were counted, revealing 30-300 colonies in each dish.
- Measurement of TBARS
In order to measure lipid oxidation of Ganjang-gejang, 2-Thiobarbituric acid (TBARS) measured as described by Ahn et al. (1999) to determine the lipid oxidation of the samples. Five gram of crap meat was homogenized in a 50 mL centrifuge tube with 50 μL of butylated hydroxyanisol (BHA; 7.2% in ethanol) and 15 mL of distilled water, using a homogenizer (D-91126, Heidolph Instruments, Schwabach, Germany). One-milliliter aliquots of the homogenates were mixed with 3 mL of 2-thiobarbiutric acid (20 mM TBA in 15% trichloroacetic acid), heated in boiling water (100℃) for 20 min, and cooled in ice water for 5 min. The cooled mixture was centrifuged for 10 min at 2,500 g , using a UNION 5 KR centrifuge (Hanil Science Industrial, Co., Ltd., Incheon, Korean). The absorbance of the supernatant was measured at 532 nm using a UV 1600 PC spectrophotometer (Shimadzu, Nagoya, Japan), and it was reported as mg of malondialdehyde per kg.
- Sensory evaluation
The sensory properties of Ganjang-gejang were evaluated using a descriptive 7-point scale (where 1 = extremely dislike or weak, 2 = dislike moderately, 3 = dislike slightly, 4 = neither like nor dislike, 5 = like slightly, 6 = like moderately, and 7 = extremely like or strong) with 10 taste panelists. Sensory evaluation of the samples was conducted by 10 panels (25 – 40 ages, 8 males and 2 females). A trained tenmember panel consisting of researchers from the department of Advanced Radiation Technology Institute at Korea Atomic Energy Research Institute in Korea evaluated the irradiated Ganjang-gejang. An orientation session was conducted before their participation. To research the consumer perception, the appearance, flavor, taste, texture, and overall acceptance were evaluated. In addition, saltiness, fishy, flavor, and off-flavor were tested to confirm the intensity of sensorial characteristics. Water was provided to the panelists for rinsing the mouth between sample testing.
- Flavor pattern analysis
The samples were frozen and stored in the deep freezer at –70℃ until electronic nose analysis was performed. Flavor pattern analysis was performed using a fast GC electronic nose (zNose 7100, Electronic Sensor Technology, Newbury Park, CA, USA) with surface acoustic wave (SAW) sensor (Electronic Sensor Technology). A 10 g aliquot of the Ganjang-gejang was placed into a 40 mL septa-sealed screw vial. The samples were kept at 20℃ for 1 h to analyze flavor pattern. The electronic nose was set to temperature conditions of 30, 60, 120, 150, and 220℃ for the SAW sensor, column, valve, inlet, and trap, respectively. The taste results of the flavor pattern with Ganjang-gejang were analyzed by using VaporPrint program (Microsense 4.88, Electronic Sensor Technology).
- Statistical analysis
The samples were analyzed in triplicate, and all results were expressed as the mean ± standard deviation (SD). The data for TBARS and sensory evaluation were analyzed using general linear models in SAS system version 9.2 software (SAS Institute Inc., Cary, NC, USA). Differences between means were considered significant when P ≤ 0.05
Results and Discussion
- Microbiological evaluation
To evaluate the effects of gamma irradiation on the total amount of aerobic bacteria, the D 10 value, and sterilization of Ganjan-Gejang , Ganjang-gejang was gamma irradiated at various dose ( Table 1 ). The total amounts of aerobic bacteria and fungi in untreated control samples were 6.2 and 4.1 log CFU/g, respectively, while no detectable bacteria or fungi were found following gamma irradiation. The D 10 value of Ganjang-gejang by gamma irradiation was 0.51 kGy for the total amount of aerobic bacteria, and 1.07 kGy for the total amount of fungi. In addition, Ganjang-gejang was sterilized when it was irradiated at 9, 12, and 15 kGy. Irradiation was considered effective in inhibiting the growth of microorganisms in Ganjang-gejang . With increasing fermentation times, fermented seafood contains increased numbers of microorganism, including Bacillus sp. and Staphylococcus saprophyticus , which can cause significant health problems ( Achi et al., 2007 ). In addition, fermented seafood in Korea, such as Jeotgal , has been shown to be highly contaminated with aerobic bacteria at approximately 7 log CFU/g ( Park et al., 2002 ; Jo et al., 2004 ). For this reason, a number of studies on seafood have researched the sterilization effects of gamma irradiation ( Jung et al., 2009 ; Kanatt et al., 2006 ; Jo et al., 2004 ; Kim et al., 2012 ). In addition, gamma irradiation is effective in controlling food-borne pathogenic microorganisms, such as Listeria monocytogenes , S. aureus , and Vibrio parahaemolyticus , in fermented and seasoned squid ( Song et al., 2010 ). Our result was consistent with these previous studies and indicated that irradiated (9 kGy) Ganjang-gejang can be considered microbiologically safety for consumption immuno-compromised patients.
Effect of gamma irradiation on total aerobic bacteria, yeast, molds, and sterilizationGanjang-gejang
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Values are mean ± standard deviation (n=5).*Not detected within the detection limit < 2 log CFU/g.Bacterial growth was detected (positive).Bacterial growth was not detected (negative).
- Sensory evaluation
The sensory characteristics of the Ganjang-gejang samples are shown in Table 2 . The control samples showed the highest scores among all the samples. The appearance, taste, texture, and overall acceptance scores of the samples significantly decreased following irradiation in comparison with control samples. However, there was no significant difference in saltiness, fishy flavor, flavor, and off-flavor between the non-irradiated and irradiated samples. While Ganjang-gejang was considered adequately sterilized when it was irradiated at 9 kGy ( Table 1 ), irradiation doses over 9 kGy induced a taste off-flavor and deteriorated sensory qualities of Ganjang-gejang . The deterioration of flavor and taste is related mainly to lipid oxidation, but can also be attribute to amino acids and/or carbohydrate breakdown ( Diehl. 1981 ; Murano, 1995 ). We also found that the intensities of fishy flavor and off-flavor were increased with rising doses by gamma irradiation. Overall acceptance of sterilized Ganjang-gejang (9 kGy gamma irradiation) scored 4.0 (acceptable) in the 7 point scale. However, gamma irradiation-sterilized Ganjang-gejang had lower sensory qualities than non-irradiated samples. Therefore, it is necessary to improve sensory qualities of gamma irradiation-sterilized Ganjang-gejang .
Effect of gamma irradiation on sensory properties forGanjang-gejang
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Values are mean ± standard deviation (n=10).*NS, Non-significantly.a-eMean values within a row follow by the different letter are significantly different (P < 0.05).
- Microbiological and sensory evaluation of gamma-irradiated Ganjang-gejang in different irradiating temperature
Table 3 and 4 show the microorganism, lipid oxidation (TBARS) and sensory properties of Ganjang-gejang irradiated under different temperature conditions. The TBARS values of all samples were increased by gamma irradiation ( Table 3 ). However, the dry ice sample had a low TBARS value compared with ice and room temperature samples, indicating that lipid oxidation could be inhibited through low temperature conditions. As supported by our data, lipid oxidation is generally increased during irradiation process, and different physicochemical treatments can also retard irradiation-dependent lipid oxidation. In our result of sensory evaluation, non-irradiated Ganjang-gejang scored 7.0 on a 7.0 point scale. With a decreasing in irradiation temperature, all of the preferred attributes increased with irradiated Ganjang-gejang . In particular, the overall acceptance of samples irradiated in dry ice had similar scores as non-irradiated samples at 5.8 (in dry ice) and 7.0 point (control). In addition, the intensities of saltiness, fishy flavor, and off-flavor were reduced among lower temperature samples. However, the saltiness, fishy flavor, and off-flavor score of the samples no significantly following irradiation (in dry ice) in comparison with control samples. The temperature during irradiation is important because the initial ionization, excitation event, and reactions of the active species are dependent on the temperature ( Swallow, 1997 ). In particular, the free radical, which is a major factor of chemical change, have a limited mobility in a frozen state and the production of more free radicals and radiolysis products is inhibited during gamma irradiation under a frozen state ( Furuta et al., 1992 ; Raffi and Agnel, 1983 ; Shultz et al., 1977). Thus, our results indicated that the irradiation of Ganjang-gejang under frozen conditions is able to control the growth of microorganisms and maintain sensory properties.
Effect of gamma-irradiated 9 kGy on total aerobic bacteria, yeast, molds, sterilization, and TBARS forGanjang-gejangin different temperature
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Values are mean ± standard deviation (n=5).*Irradiated 9 kGy for sterilization by gamma ray.Not detected within the detection limit < 2 log CFU/g.Bacterial growth was detected (positive).§Bacterial growth was not detected (negative).a-dMean values within a column follow by the different letter are significantly different (P < 0.05).
Effect of 9 kGy gamma-irradiated on relative sensory properties forGanjang-gejangin different temperature
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*Values are mean ± standard deviation (n=10).a-cMean values within a row follow by the different letter are significantly different (P < 0.05).
- Flavor patterns of gamma-irradiatedGanjang-gejangat different irradiating temperature
Fig. 1 show the polar graphs of frequency of Ganjang-gejang irradiated under different temperature conditions. Z-nose analysis based on SAW sensor has advantage of a rapid analysis and a simple sample preprocessing, although the measured data are greatly dependent on the retention time ( Cho and Noh, 2002 ). To detect and evaluate changes in flavor patterns of various foods from irradiation, most studies have used a metal oxide sensor (MOS), which respond to specific substances, and a conducting polymer sensor ( Cho and Noh, 2002 ; Kim and Noh, 1999 ). According to Han et al. (2009) , an electronic nose equipped with a SAW sensor can measure the flavor patterns of gamma-irradiated raw oyster rapidly. In this study, we investigated the effects of different temperature conditions on flavor patterns of irradiated Ganjang-gejang . Different flavor patterns were found in irradiated samples (room temperature) compared to the control. However, for samples irradiated at low temperature (in ice or in dry ice), flavor patterns were similar to those obtained for the control, indication that the odor of samples subjected to gamma irradiation on ice or dry ice was more acceptable in terms of sensory evaluation than sample subjected to gamma irradiation at room temperature ( Table 3 and 4 ). Flavor pattern analysis using an electronic nose with a SAW (surface acoustic wave) sensor determined that the main peak at retention time 6.4 sec was related with flavor induced by irradiated sample (room temperature). According to Han et al ., the irradiated oyster flavors were influenced by the both of lipid oxidation and amino acid breakdown. Thus, different flavor patterns were found in irradiated samples (room temperature) compared to the control.
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Polar graphs of frequency for gamma-irradiated Ganjang-gejang in different temperature.
Ganjang-gejang is a popular Korean fermented foods, made of raw crab and soy sauce. However, many cases of food poisoning due to consumption of Ganjang-gejang have been recently reported, and hygienic measures for fermented foods are needed. This study was conducted to evaluate the microbiological and sensory qualities of gamma-irradiated Ganjang-gejang and to improve its sensory qualities by adjusting the temperature during sample irradiation. The results of this study indicated that treatment with irradiation under low temperatures may help to prepare higher quality Ganjang-gejang .
Acknowledgements
This research was supported by the Nuclear Research & Development Program of the Korea Science and Engineering Foundation grant funded by the Korean Govermment (2012M2A2A6011320)
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