تهیه فیلم خوراکی فعال ضدمیکروبی بر پایه ژلاتین حاوی اسانس مریم‌گلی(Salvia officinalis): خواص فیزیکی، مکانیکی، آنتی‌اکسیدانی و ضدمیکروبی

نوع مقاله : مقاله پژوهشی

نویسندگان

1 گروه بهداشت و صنایع غذایی- دانشکده پیرادامپزشکی

2 علوم و مهندسی صنایع غذایی، دانشکده کشاورزی،دانشگاه ایلام

3 گروه علوم و صنایع غذایی دانشگاه ایلام

4 گروه آموزشی باکتری شناسی دانشگاه ایلام

چکیده

زمینه مطالعاتی: در این پژوهش، به بررسی ویژگیهای فیلم خوراکی بر پایه ژلاتین آمیخته شده با غلظتهای اسانس مریم گلی(0، 25/1%، 5/2% و 75/3%) پرداخته شد . هدف: هدف از این مطالعه تولید فیلمهای مناسب جهت استفاده در بسته بندی مواد غذایی است. روش کار: آزمون های انجام یافته در این پژوهش، آزمایشات فیزیکی شیمیایی، آزمایشات مکانیکی (ازدیاد طول تا نقطه شکست، مقاومت به کشش و مدول یانگ)، اندازه‌گیری خاصیت آنتی اکسیدانی و فعالیت ضدمیکروبی فیلم های خوراکی بود. تمامی آزمایشات در سه تکرار (3n=) با نمونه‌گیری کاملاً تصادفی انجام شد. آنالیز واریانس یکطرفه (ANOVA) و مقایسه میانگین داده‌ها براساس آزمون چند دامنه دانکن با استفاده از نرم افزار Minitab18 در سطح اطمینان 95% انجام گرفت.
نتایج: در این تحقیق نتایج نمونه‌های فیلم ژلاتینی در آزمونهای مکانیکی معنی دار بود (05/0>p) و بالاترین میزان استحکام کششی، ازدیاد طول تا نقطه شکست و مدول یانگ در تیمار 5/2% بود. کمترین میزان حلالیت و نفوذپذیری به بخارآب به ترتیب در فیلم‌های حاوی 75/3% و 5/2% اسانس مشاهده شد. تفاوت کدورت بین تیمارهای 5/2% و 75/3% معنی دار نبود(05/0<p) و در غلظت 25/1% اسانس مریم‌گلی، کدورت و ضخامت بیشترین مقدار را به خود اختصاص داد. در تمامی نمونه‌های فیلم های خوراکی خاصیت آنتی اکسیدانی نسبت به نمونه شاهد معنی‌دار بود(05/0>p).
ارزیابی فعالیت ضد میکروبی فیلم با کمک روش دیسک انتشاری انجام گرفت. در این آزمون بیشترین قطر هاله بازدارندگی در غلظت اسانس 75/3% مربوط به استافیلوکوکوس آورئوس با متوسط قطر هاله mm 11/11 بود. در همین غلظت متوسط قطر هاله برای سودوموناس ائروژنز و اشریشیاکلی به ترتیب mm 27/8 و mm45/4 گزارش شد.
نتیجه گیری: نتایج حاصل از این تحقیق نشان داد افزودن اسانس مریم گلی در غلظت 75/3 درصد در فیلم ژلاتینی علاوه بر مهار رشد و تکثیر باکتریها، دارای استحکام کافی بوده و موجب بهبود خصوصیات آنتی‌اکسیدانی فیلم ژلاتینی شد و همچنین قابلیت استفاده در مواد غذایی فسادپذیر را دارد.

کلیدواژه‌ها

عنوان مقاله [English]

production of antimicrobial active edible film based on gelatin containing salvia officinalis essential oil: physical, mechanical, antioxidant and antimicrobial properties

نویسندگان [English]

  • ronak momeni 1
  • mohammadyar hosseini 2
  • hamed hassanzadeh 3
  • tayeb saifi 4
1 Bachelor student of food hygiene, Faculty of paraveterinary, Ilam University, Ilam, Iran
2 Food technology, faculty of agriculture, Ilam University
3 Ilam university
4 Department of bacteriology, Ilam university
چکیده [English]

Introduction : The use of plastic packaging to cover food faces many challenges due to reasons such as non-degradation and migration of toxic chemicals such as bisphenol A, alkylphenol, octylphenol, phthalates, lead, etc. Therefore, other coatings have been focused in the food industry, which can be called edible composite films, which are considered as one of the basic ways to control the physiological, microbial and physicochemical changes of food. Films containing gelatin have good mechanical resistance and this substance can be used in the production of edible film due to its gelling properties (the presence of proline and hydroxyproline amino acids). Gelatin can form an edible layer to protect against desiccation, light and oxygen. However, gelatin films have relatively poor mechanical properties and water resistance. Adding compounds including plant essential oils is one of the ways to improve the physicochemical properties of gelatin layers to strengthen their structure. However, gelatin film has poor antimicrobial and antioxidant properties and is therefore not suitable for packaging perishable food and meat products.
The use of plant essential oils in biodegradable films improves the antimicrobial, antioxidant and permeability effects of hydrophilic films. On the other hand, the combination of essential oils with films reduces the loss of volatile compounds of essential oils during storage, so the essential oil remains in a high concentration and for a longer time on the surface of the food product.
In order to reduce the consumption of antibiotics, chemical additives and preservatives, natural antimicrobial substances can be used in the composition of these packages. In recent years, in research related to the production and evaluation of edible films, plant essential oils such as clove, cinnamon, ginger, and basil essential oils have received much attention for microbial protection, delaying chemical and microbial spoilage, and reducing food waste. In general, essential oils are volatile natural compounds that are secondary metabolites of GRAS-listed plants. The essential oils obtained from different plants have extensive antioxidant properties, which are related to the presence of hydrogen-containing groups in their chemical structure. Common sage (Salvia officinalis) is a perennial and herbaceous plant, with straight roots and many branches, and has the highest amount of volatile compounds, including camphor, alpha and beta thujone. Among the spices, sage is often used in pharmaceuticals as a spice that has an essential oil with good antimicrobial and antioxidant properties. The purpose of this research is to investigate the antioxidant properties of sage essential oil in the production of gelatin film with sage essential oil.
In recent years, many studies have been conducted on natural preservatives. Researchers have demonstrated the use of plant essential oils to protect all types of food against spoilage and disease causing microorganisms. The name salvia is derived from the Latin word meaning to heal. This plant has received special attention since ancient times, it is the most valuable medicinal type of dark mint and has important therapeutic properties. Sage is used in traditional medicine as an effective medicine to treat the effects of insect bites, anti-poison and tonic to strengthen the soul, body and prolong life and as a tonic, anti-rheumatic and chronic pain reliever, antimicrobial, anti-bloating and pain reliever. In terms of its chemical composition, sage leaves contain volatile essential oil, saponin and a bitter substance called picrosalvin with the property of facilitating digestion, diuretic, astringent and stopping the growth of bacteria and organic acids. Sage essential oil is amber and is very rich in terms of camphor content, and the amount of essential oil and the amount of cineole in the essential oil is the highest during the flowering and opening of the flower. The amount of cineole in the essential oil is about 25% in the essential oil of fresh dried branches. In the Middle Ages, sages of traditional European medicine used sage to treat constipation, cholera, colds and gout diseases, chronic rheumatism, Alzheimer's, liver disorders, epilepsy, nervous vertigo and paralysis, and to strengthen muscles. So far, several species of the genus Salvia, for example S. sclarea, S. hypoleuca, S. officinalis, S. syriaca, have been studied and identified and researched. Almost all types of sage are used in traditional medicine. Since ancient times, the leaves of the sclera plant have been used as a tonic and anticonvulsant. The conducted research considers the presence of some compounds in the essential oil of these plants, such as thujone, cineol and camphene, to be responsible for the antimicrobial, antioxidant and possibly anti-cancer properties of sage. Material and Methods: The tests performed in this research include physical and chemical tests (solubility, water vapor permeability, thickness and turbidity), mechanical tests (elongation to breaking point, tensile strength and Young's model), measurement of antioxidant property and antimicrobial activity. All experiments were performed in three replicates (3 subjects) in a completely randomized design. One-way analysis of variance (ANOVA) and average comparison of data were performed based on Tukey's test using Minitab18 software at a confidence level of 95%. Results and discussion: In this research, all mechanical parameters were significant (p<0.05) and the highest amount of tensile strength, elongation at break point and Young's model in the treatment was 2.5%. In the treatments of the films, the lowest solubility and permeability were observed in concentrations of 3.75% and 2.5% of essential oil, respectively. In the experiment, the turbidity of the 2.5% and 3.75% treatments was not significant (p > 0.05) and at the concentration of 1.25% essential oil, it had the highest value and thickness of 0.05 mm. The addition of plant essential oils was also significant on the antioxidant properties of edible films (p<0.05). Antimicrobial activity of the film was measured by disk diffusion method. In this experiment, the largest inhibition zone diameter in the concentration of 3.75% essential oil was related to Staphylococcus aureus with the average inhibition zone diameter of 11.11 mm. The average inhibition zone diameter for Pseudomonas aeruginosa and Escherichia coli was reported as 8.27 mm and 4.45 mm, respectively.Conclusion: The results of this research showed that adding sage essential oil with a concentration of 3.75% to the gelatin film, in addition to preventing the growth and proliferation of bacteria, has enough power to increase the shelf life of perishable

کلیدواژه‌ها [English]

  • Salvia officinalis essential oil
  • Gelatin
  • Edible film
  • packaging
  • Antioxidant properties

مراجع

Ahmed SA, Saleem MF & Hassanzadeh H. (2023). Optimization of solvent evaporation method in liposomal nanocarriers loaded‐garlic essential oil (Allium sativum): Based on the encapsulation efficiency, antioxidant capacity, and instability. IET nanobiotechnology.
Ahmed J, Mulla M, Arfat YA, Bher A, Jacob H, Auras R. 2018. Compression molded LLDPE films loaded with bimetallic (Ag-Cu) nanoparticles and cinnamon essential oil for chicken meat packaging applications. LWT 93:329-38.
Ahmad M, Benjakul S, Prodpran T, Agustini TW. 2012. Physico-mechanical and antimicrobial properties of gelatin film from the skin of unicorn leatherjacket incorporated with essential oils. Food Hydrocolloids 28(1):189-199.
Akhter R, Masoodi F, Wani TA, Rather SA. 2019. Functional characterization of biopolymer based composite film: Incorporation of natural essential oils and antimicrobial agents. International journal of biological macromolecules 137:1245-55.
Alexandre EMC, Lourenço RV, Bittante AMQB, Moraes ICF, 2016. Gelatin-based films reinforced with montmorillonite and activated with nanoemulsion of ginger essential oil for food packaging applications. Food Packaging and Shelf Life 10:87-96.
Al-Hassan A, Norziah M, 2012. Starch–gelatin edible films: water vapor permeability and mechanical properties as affected by plasticizers. Food Hydrocolloids 26(1):108-17.
Alves PM, Carvalho RA, Moraes IC, Luciano CG, Bittante AMQ, Sobral PJ. 2011. Development of films based on blends of gelatin and poly (vinyl alcohol) cross linked with glutaraldehyde. Food hydrocolloids 25(7):1751-7.
BabeiGhaghelestani A, Alebrahim MT & Asadi M. (2020). Chemical Analysis and Identifying Dominant Essential Oils Compositions from Sage (Salvia officinalis L.). JFST 101(17 )155-165.
Bonilla J, Poloni T, Lourenço RV, Sobral PJ, 2018. Antioxidant potential of eugenol and ginger essential oils with gelatin/chitosan films. Food bioscience 23:107-14.
Cheng S, Wang W, Li Y, Gao G, Zhang K, Zhou J, 2019. Cross-linking and film-forming properties of transglutaminase-modified collagen fibers tailored by denaturation temperature. Food chemistry 271:527-35.
Chiou B-S, Avena-Bustillos RJ, Bechtel PJ, Jafri H, Narayan R, Imam SH, 2008. Cold water fish gelatin films: Effects of cross-linking on thermal, mechanical, barrier, and biodegradation properties. European Polymer Journal 44(11):3748-53.
Couladis M, Tzakou O, Mimica Dukić N, Jančić R & Stojanović D. (2002). Essential oil of Salvia officinalis L. from Serbia and Montenegro. Flavour and fragrance journal, 17(2), 119-126.
Echeverría I, López-Caballero ME, Gómez-Guillén MC, Mauri AN, Montero MP, 2018. Active nanocomposite films based on soy proteins-montmorillonite-clove essential oil for the preservation of refrigerated bluefin tuna (Thunnus thynnus) fillets. International journal of food microbiology 266:142-9.
Ejaz M, Arfat YA, Mulla M, Ahmed J, 2018. Zinc oxide nanorods/clove essential oil incorporated Type B gelatin composite films and its applicability for shrimp packaging. Food Packaging and Shelf Life 15:113-21.
Fadaei M, Fallah A, Taheri A, 2020.  Effect of Edible Starch Coating Enrichmed with Pennyroyal (Mentha pulegium) Essential Oil on Shelf life of Rainbow Trout Fillet Esmail Pirali khirabadi1, Journal of Veterinary Research  75:3, 300-309.
Fallah M, Rouhi M, Sadeghi E, Sarlak Z, Moghadam A & Mohammadi R, 2021. Effects of Olibanum essantial oil on physicochemical, structural, antioxidant and microbial characteristics of Gelatin edible films. Iranian journal of nutrition science and food technology 15(4): 93-102.
Ghadermarzi R, Keramat J and Goli SA, 2013. The effect of oregano essential oil on the properties of hydroxypropyl methyl cellulose edible film. Quarterly journal of new food technologies 2(7) 61-74.
Gennadios A.2002. Protein-based films and coatings: CRC Press.
Habibvand  M, Yousefi M, Ahmed S A &  Hassanzadeh H. (2023). Formulation of nanoemulsion carriers containing Pennyroyal (Mentha pulegium) and Gijavash (Froriepia subpinnata) essential oils for enriching Doogh (Iranian dairy drink). IET nanobiotechnology, 17(2), 80-90.
Han JH 2003. Antimicrobial food packaging. Novel food packaging techniques 8:50-70.
Hanani ZN, Roos YH, Kerry J, 2014. Use and application of gelatin as potential biodegradable packaging materials for food products. International journal of biological macromolecules 71:94-102.
Hassanzadeh H, Alizadeh M & RezazadBari M. (2016). Kinetic modeling and optimization of milk coagulation affected by several prevalent cheesemaking factors and essence addition. International Journal of Food Engineering, 12(5), 421-428.
Hosseini SF, Rezaei M. 2016. Development of flexible bactericidal films based on poly (lactic acid) and essential oil and its effectiveness to reduce microbial growth of refrigerated rainbow trout. LWT-Food Science and Technology 72:251-60.
Hosseini S F, Rezaei M, Zandi M and Farahmandghavi F, 2015. Bio-based composite edible films containing Origanumvulgare L. essential oil. Industrial Crops and products 67: 403-413.
Kalori R, Rezazadbari M, Alizadeh M & Hassanzadeh H. (2023). Evaluation of the viability of starter bacteria and physicochemical properties in functional yogurt enriched with wheat germ powder and a mixture of processed plant essential oils. Journal of food science and technology (Iran), 20(134), 135-147.
Kamatou G P, Makunga NP, Ramogola WPN & Viljoen AM, 2008. South African Salvia species: a review of biological activities and phytochemistry. Journal of ethnopharmacology, 119(3), 664-672.
Jamróz E, Juszczak L, Kucharek M.2018. Investigation of the physical properties, antioxidant and antimicrobial activity of ternary potato starch-furcellaran-gelatin films incorporated with lavender essential oil. International journal of biological macromolecules 114:1094-101.
Jridi M, Hajji S, Ayed HB, Lassoued I, Mbarek A, Kammoun M, 2014. Physical, structural, antioxidant and antimicrobial properties of gelatin–chitosan composite edible films. International journal of biological macromolecule 67:373-9.
Langroodi AM, Hossein Tajik, 2017. Antimicrobial effects of hydroalchol sumac extract with chitosan containing zataria multiflora boiss essential oil on beef meat in normal and modified atmosphere packaging. The Journal of Urmia University of Medical Sciences 28(3):192-205
Martucci JF, Gende LB, Neira L, Ruseckaite R.A.2015. Oregano and lavender essential oils as antioxidant and antimicrobial additives of biogenic gelatin films. Industrial Crops and Products 71:205-13.
Mothana RA, Hasson SS, Schultze W, Mowitz A, Lindequist, U, 2011. Phytochemical composition and in vitro antimicrobial and antioxidant activities of essential oils of three endemic Soqotraen Boswellia species. Food chemistry 126(3):1149-54.
Nouraddini M, Esmaiili M and Mohtarami F, 2018.  Development and characterization of edible films based on corn starch and eggplant powder with Mentha longifolia L. essential oil. Journal of Food Researches 29:4, 171-184.
Ostadali T, Ghanbarzadeh B, Darikvand F, Mortazavi SA and Abolghasemi Fakhri L, 2015. Thermoplastic starch-nanosilver-nanoclay nanocomposites: investigation of anti-bacterial effect against Escherichia coli, mechanical and permeability properties. Journal of Food Researches  26(1), 161-175.
Piñeros-Hernandez D, Medina-Jaramillo C, López-Córdoba A and Goyanes S, 2017. Edible cassava starch films carrying rosemary antioxidant extracts for potential use as active food packaging. Food Hydrocolloids, 63: 488-495.
Prakash B, Mishra PK, Kedia A, Dubey N, 2014. Antifungal, antiaflatoxin and antioxidant potential of chemically characterized Boswellia carterii Birdw essential oil and its in vivo practical applicability in preservation of Piper nigrum L. fruits. LWT-Food Science and Technology 56(2):240-7.
Sahraee S, Milani JM, Ghanbarzadeh B, Hamishehkar H, 2017. Effect of corn oil on physical, thermal, and antifungal properties of gelatin-based nanocomposite films containing nano chitin. LWT-Food Science and Technology 76:33-9.
Shahbazi Y, Rezaei F, 2017. Evaluation of the antibacterial effect of the gelatin film containing the essential oil of the mountain cockatoo plant and grape seed extract against Staphylococcus aureus in ground beef. The first national conference and the first international conference of food industry and organic products in Iran 1-7.
Shojaee-Aliabadi S, Hosseini H, Mohammadifar M A, Mohammadi A, Ghasemlou M, Ojagh S M, Hosseini S M and Khaksar R, 2013. Characterization of antioxidant-antimicrobial κ-carrageenan films containing Satureja hortensis essential oil. International journal of biological macromolecules, 52: 116-124.
Sorrentino A, Gorrasi G, Vittoria V, 2007. Potential perspectives of bio-nanocomposites for food packaging applications. Trends in Food Science & Technology 18(2):84-95.
Taghizadeh M, Mohammadifar MA, Sadeghi E, Rouhi M, Mohammadi R, Askari F, 2018. Photosensitizer-induced cross-linking: A novel approach for improvement of physicochemical and structural properties of gelatin edible films. Food research international 112:90-7.
Tomadoni B, Ponce A, Pereda M, Ansorena M, 2019. Vanillin as a natural cross-linking agent in chitosan-based films: Optimizing formulation by response surface methodology. Polymer Testing 10(5):93-95.
Tongnuanchan P, Benjakul S, Prodpran T, Pisuchpen S, Osako K, 2016. Mechanical, thermal and heat sealing properties of fish skin gelatin film containing palm oil and basil essential oil with different surfactants. Food Hydrocolloids 56:93-107.
Wu J, Sun X, Guo X Ge S, Zhang Q, 2017. Physicochemical properties, antimicrobial activity and oil release of fish gelatin films incorporated with cinnamon essential oil, Aquaculture and Fisheries, 2(4):185-92.
پژوهش های صنایع غذایی
دوره 33، شماره 4
اسفند 1402
صفحه 29-43

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