بهینه‌سازی تولید پنیر سیاه‌مزگی حاوی غلظت‌های متفاوت اسانس خوشاریزه به دو شکل آزاد و نانوریزپوشانی شده و تأثیر آن بر ویژگی‌های فیزیکوشیمیایی، میکروبی و حسی آن

نوع مقاله : مقاله پژوهشی

نویسندگان

1 گروه علوم و صنایع غذایی، دانشکده علوم زیستی، واحد تهران شمال، دانشگاه آزاد اسلامی، تهران، ایران.

2 دانشیار گروه علوم و صنایع غذایی، دانشکده کشاورزی، واحد ورامین-پیشوا، دانشگاه آزاد اسلامی، ورامین، ایران

3 استادیار گروه علوم و صنایع غذایی، دانشکده علوم زیستی، واحد تهران شمال، دانشگاه آزاد اسلامی، تهران، ایران

چکیده

از قدیم استفاده از گیاهان در محصولات لبنی از جمله پنیر رایج بوده است. برخی از گیاهان به دلیل داشتن ترکیبات فرار از جمله ترکیبات فنولی دارای خواص ضد میکروبی در مقابل عوامل فساد می باشند. پنیر سیاه‌مزگی یک پنیر محلی ایرانی است که از شیر گوسفند یا ترکیبی از شیر گوسفند و شیر بز در حومه رشت در شمال ایران تولید می‌شود. به منظور بررسی تأثیر اسانس Echinophora platyloba بر خصوصیات فیزیکوشیمیایی، میکروبی و حسی پنیر سیاه‌مزگی، غلظت‌های مختلف اسانس خوشاریزه (0، 1/0، 3/0 و 5/0%) به دو شکل آزاد و ریزپوشانی شده به پنیر اضافه شد و نمونه-های پنیر در روزهای 1، 30، 60 و 90دوره نگهداری مورد آزمون قرار گرفتند. بر اساس نتایج بدست آمده تغییرات اسیدیته نمونه‌ها در طی 90 روز رسیدگی، افزایشی و pH کاهشی (05/0>P) بود. استفاده از اسانس خوشاریزه تأثیر معنی‌داری بر بافت و ترکیب پنیر شامل چربی، خاکستر و ماده خشک نداشت(05/0<P) اما در طی دوره رسیدگی میزان ماده خشک و سفتی بافت افزایش (05/0>P) یافت. در طی دوره رسیدگی میزان شاخص‌های رنگ L* کاهش و a* و b* افزایش یافت. اختلاف معنی‌داری بین تیمارهای حاوی اسانس آزاد با نمونه‌های حاوی اسانس ریز پوشانی شده بر فعالیت آنتی‌اکسیدانی پنیر وجود داشت (05/0>P) و فعالیت آنتی‌اکسیدانی در طی دوره رسیدگی کاهش یافت. در تیمارهای حاوی اسانس شدت رشد میکروبی کمتر از نمونه کنترلی بود. افزودن اسانس به پنیر موجب بهبود عطر و بو، طعم و مزه و پذیرش کلی گردید اما تأثیر معنی‌داری بر بافت پنیر نداشت و تیمار حاوی 5/0% اسانس ریزپوشانی شده از نظر ارزیابی حسی دارای امتیاز بالاتری بود.

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Optimizing the Production of Siahmazgi Cheese Containing Different Concentrations of Echinophora platyloba Essential Oil in Both Free and Nanocapsuated Forms and its Effect on its Physicochemical, Microbial and Sensory Characteristics

نویسندگان [English]

  • nasim hoseini 1
  • Alireza Shahab Lavasani 2
  • marjaneh sedaghati 3
1 Islamic Azad University, North of Tehran Branch
2 Associate Professor, Department of Food Science and Technology, College of Agriculture, Varamin-Pishva Branch, Islamic Azad University, Varamin, Iran
3 Department of Food Science and Technology, Faculty of Biological Sciences, North Tehran Branch, Islamic Azad University, Tehran, Iran.
چکیده [English]

Siahmezgi cheese is a type of sheep cheese that is prepared in the villages of Shaft city in Gilan province, specifically in Siahmezgi village. Siahmezgi cheese, which is made from goat or sheep milk, is one of the traditional ripened cheeses of Iran, which is produced in Gilan province and in the rural areas of this province (Siahmezgi village, (Shaft city) and has its own fans in the northern region of the country. and neighboring provinces. This cheese has a higher nutritional value than white salt water cheese due to the retention of nutrients in the curd, and it is comparable to famous French cheeses in terms of sensory characteristics, especially aroma and taste. Siahmezgi cheese is one of the most expensive cheeses in the market due to its good taste. Therefore, its commercial and industrial production is justified. Khosharizeh is a native plant that grows naturally in northwest Iran and is used as a food seasoning in yogurt and cheese. Khoshareze species, which are rich in plant essential oils, are used as spices in traditional medicine in many countries, including Iran. Local cheeses are produced by heating the milk below 50 degrees Celsius and a significant percentage of the microbes in it show resistance at such a low temperature and are not destroyed.
The use of plants in dairy products, including cheese, has been common. therefore, manufacturers use industrial or natural antibacterial materials in order to destroy pathogenic microbes. Recently, the extract and essential oil of these plants have been used as a natural preservative in the dairy industry, which, of course, was inspired by the traditional and long-term use of this plant as a flavoring in yogurt and cheese.Microencapsulation techniques increase the dispersion of essential oils in aqueous formulations, increase chemical stability during storage, minimize sensory changes, and in some cases even improve their antimicrobial effect.Some plants have antimicrobial properties due to their volatile compounds, including phenolic compounds, and can fight against spoilage agents. Following the prohibition of chemical preservatives and the use of natural and organic materials, the use of plant antimicrobial compounds in food products has received much attention.Echinophora platyloba plant was collected from different regions of Mahalat city in the spring season at the flowering stage. First, it was rinsed to remove dust, and after initial washing, the aerial parts of this plant were separated and completely dried in the shade, and after drying, it was powdered by an electric mill. To prepare the essential oil, a Clevenger machine was used by the water distillation method (Hashmi et al. 2013). The essential oil prepared in 2 cc dark colored vials was stored in the refrigerator to prevent light from penetrating and changing its properties. Sheep's milk was obtained from Gachsar region of Karaj, and chemicals and microbial culture media, including skimmed milk plate Kant agar and YGC agar, were obtained from Merck, Germany.First, Echinophora platyloba essential oil as an oil phase was mixed well with Tween 80 as a surfactant using a magnetic stirrer; Then the aqueous phase (distilled water) was slightly acidified with citric acid (0.3%) and the mixture of the oily phase and surfactant was slowly added to the aqueous phase on a magnetic stirrer with a rotation speed of 700 rpm in order to prepare the emulsion premix. . Then, the prepared emulsion premix was exposed to ultrasonic waves for 20 minutes in an ultrasound bath (power 100 watts and frequency 40 kHz) to reduce the particles and produce nanoemulsion.
First, the sheep's milk was heated for 5 minutes at a temperature of 80 degrees Celsius to destroy the bacteria and possible contaminants in it. Next, the milk was divided into 7 parts with three repetitions based on the treatments. 10 kg of milk was allocated for each treatment. After boiling the milk and making it lukewarm, 50 grams of special cheese curd (Enzymax industrial curd) was added, the cheese curd process takes place for 1 to 2 minutes after adding the curd. As soon as the first signs of scabbing started, essential oil was added to the cheeses based on the determined amount (0.1, 0.3 and 0.5% free and encased). Stirring the milk several times in the curd process will spread the essential oil evenly in the cheese. After the passage of time and partial closure of the cheese, the cheese was pressed and the whey was removed and the product was made into 200 gram molds. Salt water was added to the cheeses and stored in disposable containers in zip-top bags for 3 months in the refrigerator.

Acidity and pH were measured based on the national standard number 2852. The fat test was done by Vangulic method according to the national standard 8785 and the amount of dry matter was measured according to the Iranian national standard number 1753 by oven method and the ash of the samples was measured according to the Iranian national standard number 1755. The color characteristics of the cheese samples were investigated by using the Huntlab system and by measuring the color indices L*, a* and b*.

In order to evaluate the effect of Echinophora platyloba essential oil on physicochemical, microbial and sensory properties of cheese, different percentages of Echinophora platyloba essential oil (0, 0.1, 0.3 and 0.5%) in both free and nanocapsuated forms were added to cheese. Cheese samples were analyzed at days 1, 30, 60 and 90 of storage time.
Texture tests of cheese samples after cutting with dimensions of 2 x 2 x 2 cm, with a Brookfield texture analysis machine made in the United States with a cylindrical probe with a diameter of 36 mm and a penetration speed of 60 mm per minute. It was done to a depth of 1 cm. This experiment investigated the hardness with three repetitions and at a temperature of 6 degrees Celsius
Total phenol content of cheese was measured according to Folin-Ciocalto method. First, extract was extracted from cheese and one milliliter of extract was added to 5 milliliters of Fulin-Ciocalto reagent (1:10) and mixed for 6 minutes. 4 ml of 20% sodium carbonate was added to the mixture and kept for 2 hours at room temperature and its absorbance at 760 nm wavelength was measured using a UV-vis spectrophotometer and was equivalent to mg of gallic acid per gram of cheese.
Mold and yeast counting was done based on the microbial standard of milk and dairy products number 10154. The total microbial count was also done according to the national standard number 5272-1 by the purple plate method in milk agar skim culture medium (manufactured by Merck, Germany).
10 trained panelists were used for sensory evaluation of cheese samples. Sensory characteristics including taste, color, texture and overall acceptance were evaluated using a 5-point hedonic scale (1: very bad to 5: very good).
In order to analyze the data obtained from the tests, a completely random design was used and the average obtained from repeating each test 3 times, through Duncan's multi-domain test, at a confidence level of 95% and using SPSS software. was analyzed. Graphs were also drawn with Excel software.
The results showed that, changes in the acidity of the samples during 90 days of storage were increasing and pH were decreasing. The addition of essential oil, especially in the nanocapsuated form, controlled the increase in acidity and the decrease in pH during the storage period in cheese. The use of Echinophora platyloba essential oil had no significant effect on texture and approximate composition of cheese, including fat, ash and dry matter, but during the storage period, dry matter, salt content and hardness increased. During the storage period, L* index decreased and a* and b* index increased. Also, the use of essential oil decreased the L* index and increased a* and b* index. According to the results, there was a significant difference between the treatments containing free essential oil and the samples containing nanocapsuated essential oil on the antioxidant activity of cheese (P<0.05) and the antioxidant activity decreased during the storage period and in The sample contained nanocapsuated essential oil was higher than other treatments. During the storage period, mold and yeast and total microbial count increased significantly. However, in the treatments containing essential oil, the intensity of microbial growth was lower than the control sample, and no Salmonella and Escherichia coli contamination was found in any of the treatments. Adding essential oil to cheese improved the aroma, taste and overall acceptance, but it did not have a significant effect on texture of the cheese. In general the treatment, containing 0.5% nanocapsuated essential oil had higher score in terms of sensory evaluation.

کلیدواژه‌ها [English]

  • Siahmazgi cheese
  • Echinophora platyloba essential oil
  • Nanocapsulation
  • Physicochemical properties
  • sensory properties

مراجع

Abbasi, N., Mahdavi, S. 2016. Investigation of the antioxidant and antimicrobial properties of essential oil and extract of Eucalyptus oleracea on Escherichia coli and Staphylococcus aureus bacteria. Journal of Innovation in Food Science and Technology, 3.
Alqahtani, N.K., Alnemr, T.M., Alqattan, A.M., Aleid, S.M., and Habib, H.M. 2023. Physicochemical and sensory properties and shelf life of Block-type processed Cheeses Fortified with date seeds (Phoenix dactylifera L.) as a functional food. Foods, 12 (3): 679.
Azarashkan, Z., Motamedzadegan, A., Ghorbani-HasanSaraei, A., Biparva, P., and Rahaiee, S. 2022. Investigation of the physicochemical, antioxidant, rheological, and sensory properties of ricotta cheese enriched with free and nano-encapsulated broccoli sprout extract. Food Sci Nutr, 10: 4059–4072.
Baghdadi, F., Aminifar, M., Farhoodi, M., and Shojaee Aliabadi, S. 2017. Investigation on the Relation between FTIR Spectrum and Characteristics of Low Fat Iranian White Cheese Modified with Gum Tragacanth Species “Astragalus Parrowianus’’ . Iranian J Nutr Sci Food Technol, 12 (3): 109-120.
Bakhshi, F., Mirzaei, H., and Asefi, N. 2020. Effect of Basil Essential Oil on the Microbial and Sensory Characteristics of Iranian Traditional White Cheese During Ripening. Journal of Veterinary Research/Majallah-i Taḥqīqāt-i Dāmpizishkī University, 75 (1).
Barros, C.P., Guimarães, J.T., Esmerino, E.A., Duarte, M.C.K., Silva, M.C., Silva, R., Ferreira, B.M., Sant’Ana, A.S., Freitas, M.Q., and Cruz, A.G. 2020. Paraprobiotics and postbiotics: concepts and potential applications in dairy products. Current opinion in food science, 32: 1-8.
Bazvandi, L., Shokoohinia, Y., Ghiasvand, N., Mohajeri, P., Ashrafi, B., and Salimikia, I. 2017. The Antimicrobial Activity of Different Extracts from Echinophora platyloba DC. Herbal Medicines Journal, 2 (4): 153-157.
Bedoya-Serna, C.M., Dacanal, G.C., Andrezz Fernandes, M., and Pinho, S.C. 2018.  Microbiology Antifungal activity of nanoemulsionsencapsulating oregano (Origanum vulgare) essentialoil: in vitro study and application in Minas Padrãocheese. Brazilian Journal of Microbiology, 1-7.
Busetta, G., Ponte, M., Barbera, M., Alfonzo, A., Ioppolo, A., Maniaci, G., and Gaglio, R. 2022. Influence of citrus essential oils on the microbiological, physicochemical and antioxidant properties of Primosale cheese. Antioxidants, 11 (10): 2004.
Cui, J.H., Goh, J.S., Kim, P.H., Choi, S.H., and Lee, B.J. 2024. Survival and stability of Bifidobac-teria loaded in alginate poly-l-lysine micropar ticles. Int J Pharm, 210: 51-59.
Dervisoglu, M., and Yazici, F. 2018. Ripening changes of Kulek cheese in wooden and plastic containers. Journal of Food Engineering, 3: 243-249.
Dorosti, S., Bazmi, A., Ghanbarzadeh, B., and Ayaseh, A. 2010. Effect of partial replacement of NaCl with KCl in cheese-making brine on characteristics of Iranian white cheese. Iranian J Nutr Sci Food Technol, 5 (3) :67-74.
Ehsani, A., Hashemi, M., Hosseini Jazani, N., Aliakbarlu, J., Shokri, S., and Naghibi, S.S. 2016. Effect of Echinophora platyloba DC. essential oil and lycopene on the stability of pasteurized cream obtained from cow milk. Veterinary Research Forum, 7 (2): 139 – 148.
Entezari, M., Hashemi, H., Ashki, M., Ebrahimian, S., Bayat, M., Azizi Saraji, A.R., and Rohan, S.R. 2009. Studying the effect Echinophora platyloba extract on bacteria (Staphylococcus aureus and Pseudomonas aeroginosa) and fungi (Candidia albicans, Aspergilus flavus and Aspergilus niger) in vitro. World Journal of Medical Sciences, 4 (2): 89-92.
Esmaili, F. 2015. Production of fortified yoghurt with Olive leaf extract and investigation of its physicochemical and Antioxidant properties, 1-2.
Esmaeilzadeh, P., Ehsani, M.R., Mizani, P., and Givianrad, M.H. 2022. Investigating the effect of ripening time on physicochemical properties of traditional Kopeh cheese. FSCT, 19 (123) :275-288.
Farahani, G., Ezzatpanah, H., and Abbasi, S. 2014. Evaluation of Some Physicochemical, Rheological and Textural Properties of White-Brined Cheese (Golpayegan cheese) During Ripening.
Forgani, S., Peighambardoust, S. H., and Olad Ghaffari, A. 2017. Investigating organoleptic and physicochemical properties of functional set yogurt incorporating oat milk. Iranian Journal of Biosystems Engineering, 48 (3): 279-288.
Ghods Rohani, M., Mortazavi, S. A., Mazaheri Tehrani, M., and Razavi, M. A. 2008. Effect of processing conditions on chemical and sensory properties of ultrafiltrated Feta cheese made from cow's milk and soymilk blend. J. Food Sci. Technol, 6 (1): 85-96.
Ghodousi, H. 2005. Production of Feta Cheese by Industrial and Traditional Methods. (Bahador Ghodousi) Ferdowsi University of Mashhad, 2nd Edition, Ferdowsi University Press, 297-1.
Hamdy, S.M., and Hafaz, Y.M. 2018. The combined effect of dried rosemary, thyme and basil with fresh garlic on quality characteristics of ricotta cheese during storage. Egyptian Journal of Food Science, 46: 125–132.
Hasanzadeh, H., Alizadeh, M., and Rezazad Bari, M. 2017. Production and assessment of physicochemical characteristics and encapsulation efficiency of garlic essential oil nanoemulsions. Food Research Journal, 27 (4): 159-170.
Hashemi, M., Ehsani, A., Hosseini Jazani, N., Aliakbarlu, J., and Mahmoudi, R. 2013. Chemical composition and in vitro antibacterial activity of essential oil and methanol extract of Echinophora platyloba D.C. against some of food borne pathogenic bacteria. Veterinary Research Forum, 4 (2): 123-127.
Jooyandeh, H., Alizadeh behbahani, B., and Kazemianrad, F. 2025. Study on textural and color characteristics of UF-white cheese containing caffeine. FSCT, 21 (156): 211-225.
Kanmani, P., Kumar, R.S., Yuvaraj, N., Paari, K.A., Pattukumar, V., and Arul, V. 2020. Cryopreservation and microencapsulation of a probiotic in alginate-chitosan capsules improves survival in simulated gastrointestinal conditions. Biotechnology and Bioprocess Engineering, 16 (6): 1106-1114.
Kermanizade, S., and Hesari, J. 2013. Study of contribution of Plasmin system in Ultra-filtered white cheese proteolysis.
Khosrow Shahi, A., Madadlou, A., Zadeh Mousavi, M.E., and Emam-Djomeh, Z. 2006. Monitoring the chemical and textural changes during ripening of Iranian White cheese made with different concentrations of starter. Journal of dairy science, 89 (9): 3318-3325.
Mohamed, F., Salama, H., El-Sayed, S., El-Sayed, H.S., and Zahran, H. 2018. Utilization of natural antimicrobial and antioxidant of Moringa oleifera leaves extract in manufacture of cream cheese. Journal of Biological Sciences, 18 (2): 92–106.
Nasiri, A., Fallah, S., Sadeghpour, A., and Barani-Beiranvand, H. 2024. Essential Oil Profile in Different Parts of Echinophora cinerea (Boiss.). Agrotechniques in Industrial Crops, 4 (2): 98-105.
Pirsaraii, E. N., Rahimabadi, E. Z., Babakhani, A., and Daphchahi, E. A. 2021. Quality characteristics and fatty acid profile of Siahmezgi cheese fortified by encapsulated fish oil.
Rafei, S., Azizkhani, M., and Areaei, P. 2017. Impact of antioxidative properties of cumin and tarragon essential oils on the quality of full-fat white cheese.
Rashidinejad, A., Birch, E.J., Hindmarsh, J., and Everett, D.W. 2016. Antioxidant activity and recovery of green tea catechins in full-fat cheese following gastrointestinal simulated digestion. Journal of Food Composition and Analysis, 48: 13–24.
Razavi, R., Toosi, E., Sheikholeslami, M., Konjedi, M., Hajian-Tilaki, A., and Najafi, A. 2024. Effect of Origanum onites L. essential oil and cold atmospheric plasma on physicochemical, microbial, and sensory properties of Iranian white cheese. Journal of Food Quality, 2024 (1): 2308789.
Sadeghi, E., Akhondzadeh Basti, A., Noori, N., Khanjari, A., and Partovi, R. 2020, Effect of Cuminum cyminum l. Essential oil and Lactobacillus acidophilus (a probiotic) on Staphylococcus aureus during the manufacture, ripening and storage of white brined cheese. Journal of Food Processing and Preservation, 37 (5): 449-455.
Sánchez-Zamora, N., Cepeda-Rizo, M.D., Tamez-Garza, K.L., Rodríguez-Romero, B.A., Sinagawa-García, S.R., Luna Maldonado, A.I., and Méndez-Zamora, G. 2022. Oregano essential oil in panela-type cheese: its effects on physicochemical, texture and sensory parameters. Revista mexicana de ciencias pecuarias, 13 (1): 258-271.
Sengun, I.Y.,  Yildiz Turp, G.,  Kilic, G., and Sucu, C. 2017, Effectiveness of Corduk (Echinophora tenuifolia subsp. sibthorpiana) on safety and quality of kofte, a Turkish style meatball. Journal of Food Saf,  1-9.
Sharafati-Chaleshtori, R., Rafieian-Kopaei, M., Mortezaei, S., Sharafati-Chaleshtori, A., and Amini, E. 2012. Antioxidant and antibacterial activity of the extracts of Echinophora platyloba DC. African Journal of Pharmacy and Pharmacology, 6 (37): 2692-95.
Sharikloo, A. and Mahdavi Adeli, H. 2019. Siahmazgi: Product Introduction and Characteristics. Agricultural Education Publishing, 20-1.
Tarakci, Z., Temiz, H., Ugur, A. 2011. The effect of adding herbs to labneh on physicochemical and organoleptic quality during storage. International Journal of Dairy Technology, 64 (1): 108-116.
Yaghoobi, S. A., Alizadeh, K. A.M., and Rezazad, B.M. 2013. Application of Image PROCESSING FOR Determination of L*, A* and B* Indices In Color Measurement of Foods.
Zarali, M., Hojati, M., Tahmoozi Dideh Ban, S., and Jooyandeh, H. 2016. Evaluation of chemical composition and antibacterial activities of Echinophora cinerea Boiss and Stachys lavandulifolia Vahl essential oils in vitro. FSCT, 13 (52) :1-12.
پژوهش های صنایع غذایی
دوره 35، شماره 3
1404
صفحه 53-71

فایل ها

هم رسانی

ارجاع به این مقاله

آمار