Review
BibTex RIS Cite

Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri

Year 2020, Volume: 26 Issue: 7, 1245 - 1256, 07.12.2020

Abstract

Yenilebilir film ve kaplamaların gıda endüstrisinde kullanımı, gıda kalitesi, raf ömrü, gıda güvenliği ve işlevselliğin iyileştirilmesi için avantaj sağlamaktadır. Bu sistemler tek başına bir ambalaj malzemesi olarak kullanılabildiği gibi gıdaları koruma amaçlı bir kaplama malzemesi ve aktif bileşen taşıyıcısı olarak da kullanılmaktadır. Ayrıca, gıda içinde heterojen bileşenler kullanıldığında bu bölümleri ayırmak için de kullanılabilirler. Yenilebilir film ve kaplamalar, esmerleşmeyi önleyici ajanlar, antimikrobiyaller, lezzet vericiler, renklendiriciler ve diğer fonksiyonel maddeler gibi gıda katkı maddelerini içerebilmektedir. Yenilebilir film veya kaplamaların yapısına aroma maddeleri eklenerek gıdalarda gelişmiş duyusal özellikler elde edilebilmektedir. Bu da gıda kalitesini iyileştiren yeni aroma taşıma sistemlerinin geliştirilmesine zemin hazırlamaktadır. Günümüzde, asıl amacı kaplanmış ürüne arzulanan ağız hissini ve tadı vermek olan çok sayıda yenilebilir film ve kaplama uygulaması mevcuttur. Bu uygulama özellikle atıştırmalıklar, çerezler, kırmızı ve beyaz et ürünleri ve su ürünleri için yapılmaktadır. Ayrıca, aktif bileşenlerin dahil edilmesi, yenilebilir film ve kaplamaların işlevselliğini arttırabilmekte ve böylece tüketicilere sağlık açısından da faydalar sağlanabilmektedir. Örneğin, film ve kaplamalara probiyotik organizmaların eklenmesi, daha sağlıklı ürünler geliştirmek için yeni uygulamalara zemin hazırlayabilir. Yenilebilir film ve kaplamalar, gıda kalitesini ve işlevselliğini arttıran lezzet ve aktif bileşenler için umut verici taşıma sistemleridir. Bu derlemede, gıdalarda lezzet ve aktif bileşenlerin taşıyıcıları olarak yenilebilir film ve kaplamaların kullanımına odaklanılmıştır. Ayrıca, bazı lezzet bileşenleri ve aktif bileşenlerin, yenilebilir film ve kaplamalara dahil edilmesi ile gıdaların kalitesini ve işlevselliğini arttırması üzerine yapılan bu alandaki son gelişmeler ve çalışmalar özetlenmiştir.

References

  • [1] Debeaufort F, Quezada-Gallo JA, Voilley A. “Edible films and coatings tomorrow’s packaging: a review”. Critical Reviews in Food Science and Nutrition, 38(4), 299-313, 1998.
  • [2] Guilbert S, Gontard N. Edible and biodegradable food packaging. Editors: Ackermann P, Jägerstad M, Ohlsson T. Foods and Packaging Materials-Chemical Interactions, 159-168, England, UK, The Royal Society of Chemistry, 1995.
  • [3] Guilbert S, Gontard N, Gorris LGM. “Prolongation of the shelf life of perishable food products using biodegradable films and coatings”. Lebensmittel-Wissenschaft und-Technologie, 29(1-2), 10-17, 1996.
  • [4] Han J. Protein-Based Edible Films and Coatings Carrying Antimicrobial Agents. Editor: Gennadios A. Protein-Based Films and Coatings, 485-498, Boca Raton, Florida, USA, CRC Press, 2002.
  • [5] Nussinovitch A. Water Soluble Polymer Applications in Foods. Oxford, UK, Blackwell Science, 2003.
  • [6] Martín-Belloso O, Rojas-Graü MA, Soliva-Fortuny R. Delivery of Flavor and Active İngredients Using Edible Films and Coatings. Editors: Embuscando ME, Huber KC. Edible films and coatings for food applications, 295-313, New York, NY, Springer, 2009.
  • [7] Doores S. Organic Acid. Editors: Davidson PM, Branen AL. Antimicrobials in Foods, 95-136, New York, NY, Marcel Dekker Inc, 1993.
  • [8] Kabara JJ. Phenols and Chelators. Editors: Russell NJ, Gould GW. Food Preservatives, 200-214, London, Blackie, 1991.
  • [9] Anonymous. “Food Safety and Food Labeling; Presence and Labeling of Allergens in Food”. Rockville, Food and Drug Administration, HHS, 2001.
  • [10] Franssen LR, Krochta JM. Edible Coatings Containing Natural Antimicrobials for Processed Foods. Editor: Roller S. Natural Antimicrobials for Minimal Processing of Foods, 250-262, Boca Raton, FL, CRC Cambridge, 2003.
  • [11] Hardenburg RE. “Wax and related coatings for horticultural products; a bibliography”. Agriculture Research Service, 5, 1-15, 1967.
  • [12] Grant LA, Burns J. Application of Coatings. Editors: Krochta JM, Baldwin EA, Nispero-Carriedo MO. Edible Coatings and Films to Improve Food Quality, 189-200, Technomic Publishing Company, Lancaster, 1994.
  • [13] Gulati OP, Ottaway PB. “Legislation relating to nutraceuticals in the European Union with a particular focus on botanical-sourced products”. Toxicology, 221, 75-87, 2006.
  • [14] Adhikari K, Mustapha A, Grun IU, Fernando L. “Viability of microencapsulated bifidobacteria in set yogurt during refrigerated storage”. Journal of Dairy Science, 83, 1946-195, 2000.
  • [15] Mitsuoka T. “Bifidobacteria and their role in human health”. Journal of Industrial Microbiology and Biotechnology, 6, 263-267, 1990.
  • [16] Gibson GR, Roberfroid MB. “Dietary modulation of the human colonic microbiota: introducing the concept of probiotics”. The Journal of Nutrition, 125, 1401-1412, 1995.
  • [17] Kim W, Tanaka T, Kumura H, Shimazaki K. “Lactoferrin-binding proteins in Bifidobacterium bifidum”. Biochemistry and Cell Biology, 80, 91-94, 2002.
  • [18] Naidu AS, Bidlack WR, Clemens RA. “Probiotic spectra of lactic acid bacteria (LAB)”. Critical Reviews in Food Science and Nutrition, 38, 13-126, 1999.
  • [19] Samona A, Robinson RK. “Enumeration of Bifidobacteria in dairy products”. Journal of the Society of Dairy Technology, 44, 64-66, 1991.
  • [20] Kurman JA, Rasic JL. The health potential of products containing bifidobacteria. Editor: Robinson RK. Therapeutic Properties of Fermented Milks, 117-158, London, Elsevier Applied Food Sciences, 1991.
  • [21] Guilbert S, Gontard N. Agro-polymers for edible and biodegradable films: review of agricultural polymeric materials, physical and mechanical characteristics. Editor: Han JH. Innovation in Food Packaging, 263-276, Academic Press, CA, 2005.
  • [22] Laohakunjit N, Kerdchoecuen O. “Aroma enrichment and the change during storage of non-aromatic milled rice coated with extracted natural flavour”. Food Chemistry, 101, 339-344, 2007.
  • [23] Mei Y, Zhao Y. “Barrier and mechanical properties of milk protein-based edible films incorporated with nutraceuticals”. Journal of Agricultural and Food Chemistry, 51, 1914-1918, 2003.
  • [24] Park S, Zhao Y. “Incorporation of a high concentration of mineral or vitamin into chitosan-based films”. Journal of Agricultural and Food Chemistry, 52, 1933-1939, 2004.
  • [25] Mei Y, Zhao Y, Yang J, Furr HC. “Using edible coating to enhance nutritional and sensory qualities of baby carrots”. Journal of Food Science, 67, 1964-1968, 2002.
  • [26] Han C, Zhao Y, Leonard SW, Traber MG. “Edible coatings to improve storability and enhance nutritional value of fresh and frozen strawberries (Fragaria x ananassaa) and raspberries (Rubus ideaus)”. Postharvest Biology and Technology, 33, 67-78, 2004.
  • [27] Hernández-Muñoz P, Almenar E, Ocio MJ, Gavara R. “Effect of calcium dips and chitosan coatings on postharvest life of strawberries (Fragaria x ananassa)”. Postharvest Biology and Technology, 39, 247-53, 2006.
  • [28] Tapia MS, Rojas-Graü MA, Rodríguez FJ, Ramírez J, Carmona A, Martin-Belloso O. “Alginate and Gellan-based edible films for probiotic coatings on fresh-cut fruits”. Journal of Food Science, 72, 190-196, 2007.
  • [29] Gennadios A, Kurth LB. “Application of edible coatings on meats, poultry and seafoods: a rewiev”. Lebensmittel-Wissenschaft und-Technologie, 30, 337-350, 1997.
  • [30] Burt S. “Essential oils: their antibacterial properties and potential applications in foods: a review”. International Journal of Food Microbiology, 94, 223-253, 2004.
  • [31] Fenaroli G. Fenaroli’s Handbook of Flavor Ingredients. CRC, Boca Raton, FL, Taylor & Francis, 1995.
  • [32] Çağrı A, Üstunol Z, Ryser E. “Antimicrobial edible films and coating”. Journal of Food Protection, 67, 833-848, 2004.
  • [33] Rojas-Graü MA, Avena-Bustillos R, Friedman M, Henika P, Martín-Belloso O, McHugh T. “Mechanical, barrier and antimicrobial properties of apple puree edible films containing plant essential oils”. Journal of Agricultural and Food Chemistry, 54, 9262-9267, 2006.
  • [34] Rojas-Graü MA, Olsen C, Avena-Bustillos RJ, Friedman M, Henika PR, Martín-Belloso O, Pan Z, McHugh TH. “Effects of plant essential oils and oil compounds on mechanical, barrier and antimicrobial properties of alginate-apple puree edible films”. Journal of Food Engineering, 81, 634-641, 2007.
  • [35] Ouattara B, Simard RE, Oiette G, Begin A, Holley RA. “Inhibition of surface spoilage bacteria in processed meats by application of antimicrobial films prepared with chitosan”. International Journal of Food Microbiology, 62, 139-148, 2000.
  • [36] Çağrı A, Üstunol Z, Ryser ET. “Inhibition of three pathogens on bologna and summer sausage slices using antimicrobial edible films”. Journal of Food Science, 67, 2317-2324, 2002.
  • [37] Oussalah M, Caillet S, Salmieri S, Saucier L, Lacroix M. “Antimicrobial and antioxidant effects of milk protein-based film containing essential oils for the preservation of whole beef muscle”. Journal of Agricultural and Food Chemistry, 52, 5598-5605, 2004.
  • [38] Oussalah M, Caillet S, Salmieri S, Saucier L, Lacroix M. “Antimicrobial effects of alginatebased film containing essential oils for the preservation of whole beef muscle”. Journal of Food Protection, 69, 2364-2369, 2006.
  • [39] Soliva-Fortuny RC, Grigelmo-Miguel N, Odriozola-Serrano I, Gorinstein S, Martin-Belloso O. “Browning evaluation of ready- to- eat apples as affected by modified atmosphere packaging”. Journal of Agricultural and Food Chemistry, 49, 3685-3690, 2001.
  • [40] Son S, Moon K, Lee C. “Inhibitory effects of various antibrowning agents on apple slices”. Food Chemistry, 73, 23-30, 2001.
  • [41] Dong X, Wrolstad RE, Sugar D. “Extending shelf life of fresh-cut pears”. Journal of Food Science, 65, 181-186, 2000.
  • [42] Luo Y, Barbosa-Canovas GV. “Enzymatic browning and its inhibition in new apple cultivars slices using 4-hexylresorcinol in combination with ascorbic acid”. Food Science and Technology International, 3, 195-201, 1997.
  • [43] Monsalve-Gonzalez A, Barbosa-Canovas GV, Cavalieri RP, McEvily AJ, Iyengar R. “Control of browning during storage of apple slices preserved by combined methods. 4-hexylresorcinol as anti-browning agent”. Journal of Food Science, 58, 797-800, 1993.
  • [44] Gorny JR, Hess-Pierce B, Cifuentes RA, Kader AA. “Quality changes in fresh-cut pear slices as affected by controlled atmospheres and chemical preservatives”. Postharvest Biology and Technology, 24, 271-278, 2002.
  • [45] Molnar-Perl I, Friedman M. “Inhibition of browning by sulfur amino acids in apples and potatoes”. Journal of Agricultural and Food Chemistry, 38, 1652-1656, 1990.
  • [46] Nicoli MC, Anise M, Severinc C. “Combined effects in preventing enzymatic browning reactions in minimally processed fruit”. Journal of Food Quality, 17, 221-229, 1994.
  • [47] Pizzocaro F, Toregiani D, Gilardi G. “Inhibition of apple polyphenol oxidase (PPO) by ascorbic acid, citric acid and sodium chloride”. Journal of Food Processing and Preservation, 17, 21-30, 1993.
  • [48] Rojas-Graü MA, Sobrino-López A, Tapia MS, Martín-Belloso O. “Browning inhibition in fresh-cut ‘Fuji’ apple slices by natural antibrowning agents”. Journal of Food Science, 71, 59-65, 2006.
  • [49] Wong WS, Tillin SJ, Hudson JS, Pavlath AE. “Gas exchange in cut apples with bilayer coatings”. Journal of Agricultural and Food Chemistry, 42, 2278-2285, 1994.
  • [50] Baldwin EA, Nisperos MO, Chen X, Hagenmaier RD. “Improving storage life of cut apple and potato with edible coating”. Postharvest Biology and Technology, 9, 151-163, 1996.
  • [51] Lee JY, Park HJ, Lee CY, Choi WY. “Extending shelf-life of minimally processed apples with edible coatings and antibrowning agents”. Lebensmittel-Wissenschaft und -Technologie, 36, 323-329, 2003.
  • [52] Perez-Gago MB, Serra M, del Rio MA. “Color change of fresh-cut apples coated with whey protein concentrate-based edible coatings”. Postharvest Biology and Technology, 39, 84-92, 2006.
  • [53] Rojas-Graü MA, Tapia MS, Rodríguez FJ, Carmona AJ, Martín-Belloso O. “Alginate and gellan based edible coatings as support of antibrowning agents applied on fresh-cut Fuji apple”. Food Hydrocolloids, 21, 118-127, 2007.
  • [54] Tapia MS, Rodríguez FJ, Rojas-Graü MA, Martín-Belloso O. “Formulation of alginate and gellan based edible coatings with antioxidants for fresh-cut apple and papaya”. IFT Annual Meeting, New Orleans, LA, 36-43, 2005.
  • [55] Ayrancı E, Tunç S. “The effect of edible coatings on water and vitamin C loss of apricots (Armeniaca vulgaris Lam) and green peppers (Capsicum annuum L)”. Food Chemistry, 87, 339-342, 2004.
  • [56] Donhowe IG, Fennema O. Edible films and coatings: Characteristics, formation, definitions, and testing methods. Editors: Krochta JM, Baldwin EA, Nispero-Carriedo MO. Edible Coatings and Films to Improve Food Quality, 1-24, Technomic Publishing Company, Lancaster, 1994.
  • [57] Krochta JM, De Mulder-Johnston C. “Edible and biodegradable polymer films: challenges and opportunities”. Food Technology, 51, 61-74, 1997.
  • [58] Labell F. “Edible packaging”. Journal of Food Process Engineering, 52, 24, 1991.
  • [59] Stollman U, Hohansson F, Leufven A. Packaging and Food Quality. Editors: Man CMD, Jones AA. Shelf life Evaluation of Foods. 52-71, Boston, MA, Springer, 1994.
  • [60] McHugh TH, Huxsoll CC, Krochta JM. “Permeability properties of fruit puree edible films”. Journal of Food Science, 61, 88-91, 1996.
  • [61] McHugh TH, Senesi E. “Fruit and vegetable edible film wraps and methods to improve and extend the shelf life of foods”. U.S. Patent Application, 9, 330-358, 1999.
  • [62] McHugh TH, Senesi E. “Apple wraps: a novel method to improve the quality and extend the shelf life of fresh-cut apples”. Journal of Food Science, 65, 480-485, 2000.
  • [63] Bravin B, Peressini D, Sensidoni A. “Development and application of polysaccharide-lipid edible coating to extend shelf-life of dry bakery products”. Journal of Food Engineering, 76, 280-290, 2006.
  • [64] Jagannath JH, Nanjappa C, Das Gupta D, Bawa AS. “Studies on the stability of an edible film and its use for the preservation of carrot (Daucus carota)”. International Journal of Food Science & Technology, 41, 498-506, 2006.
  • [65] Min S, Harris LJ, Han JH, Krochta JM. “Listeria monocytogenes inhibition by whey protein films and coatings incorporating lysozyme”. Journal of Food Protection, 68, 2317-2325, 2005.
  • [66] Serrano M, Valverde JM, Guillen F, Castillo S, Martínez-Romero D, Valero D. “Use of Aloe vera gel coating preserves the functional properties of table grapes”. Journal of Agricultural and Food Chemistry, 54, 3882-3886, 2006.
  • [67] Kester JJ, Fennema O. “Edible films and coatings: A review”. Food Technology, 40, 47-59, 1986.
  • [68] McHugh TH and Krochta JM. “Water vapour permeability properties of edible whey protein-lipid emulsion films”. Journal of the American Oil Chemists’ Society, 71, 307-312, 1994.
  • [69] Yang L, Paulson AT. “Effects of lipids on mechanical and moisture barrier properties of edible gellan film”. Food Research International, 33, 571-578, 2000.
  • [70] García MA, Martinó MN, Zaritzky NE. “Lipid addition to improve barrier properties of edible starch-based films and coatings”. Journal of Food Science, 65, 941-947, 2000.
  • [71] Gennadios A, Weller CL. “Edible films and coatings from wheat and corn proteins”. Food Technology, 44, 63-69, 1990.
  • [72] Miller KS, Upadhyaya SK, Krochta JM. “Permeability of d-limonene in whey protein films”. Journal of Food Science, 63, 244-247, 1998.
  • [73] Anonymous. “Edible films solve problems”. Food technology, 51, 60, 1997.
  • [74] Wu PJ, Schwartzberg HG. “Popping behaviour and zein coating of popcorn”. Cereal Chemistry, 69, 567-573, 1992.
  • [75] Druchta J, De Mulder Johnston C. “Edible films solve problems”. Food Technology, 51, 61-74, 1997.
  • [76] Contreras-Medellin R, Labuza TP. “Prediction of moisture protection requirements for foods”. Cereal Food World, 26, 335-342, 1981.
  • [77] LeClair K. “Breaking the sensory barrier for functional foods”. Food Prod Design, 7, 59-63, 2000.
  • [78] Drewnowski A, Gomez-Carneros C. “Bitter taste, phytonutrients, and the consumer: a review”. The American Journal of Clinical Nutrition, 72, 1424-35, 2000.
  • [79] Han C, Lederer C, McDaniel M, Zhao Y. “Sensory evaluation of fresh strawberries (Fragaria ananassa) coated with chitosan-based edible coatings”. Journal of Food Science, 70, 172-178, 2005.
  • [80] İyidoğan NF, Bayındırlı A. “Effect of l -cysteine, kojic acid and 4-hexylresorcinol combination on inhibition of enzymatic browning in Amasya apple juice”. Journal of Food Engineering, 62, 299-304, 2004.
  • [81] Richard FC, Goupy PM, Nicolas JJ. “Cysteine as an inhibitor of enzymatic browning, 2. Kinetic studies”. Journal of Agricultural and Food Chemistry, 40, 2108-2114, 1992.
  • [82] Rojas-Graü MA, Raybaudi-Massilia RM, Soliva-Fortuny RC, Avena-Bustillos RJ, McHugh TH, Martín-Belloso O. “Apple puree-alginate edible coating as carrier of antimicrobial agents to prolong shelf-life of fresh-cut apples”. Postharvest Biology and Technology, 45, 254-264, 2007.
  • [83] Yıldırım M, Güleç F, Bayram M, Yıldırım Z. “Cheese properties of kashar cheese coated with casein as a carrier of natamycin”. Italian Journal of Food Science, 18, 127-138, 2006.
  • [84] Eswaranandam S, Hettiarachchy NS, Meullenet JF. “Effect of malic and lactic acid incorporated soy protein coatings on the sensory attributes of whole apple and fresh-cut cantaloupe”. Journal of Food Science, 71, 307-313, 2006.
  • [85] Chen MJ, Weng YM, Chen WL. “Edible coating as preservative carriers to inhibit yeast on Taiwanese-style fruit preserves”. Journal of Food Safety, 19, 89-96, 1999.
  • [86] Rodriguez MS, Albertengo LA, Vitale I, Agullo E. “Relationship between astringency and chitosan-saliva solutions turbidity at different pH”. Journal of Food Science, 68, 665-667, 2003.
  • [87] Devlieghere F, Vermeulen A, Debevere J. “Chitosan: antimicrobial activity, interactions with food components and applicability as a coating on fruit and vegetables”. Food Microbiology, 21, 703-714, 2004.
  • [88] Vargas M, Albors A, Chiralt A, Gonzalez-Martinez C. “Quality of cold-stored strawberries as affected by chitosan-oleic acid edible coatings”. Postharvest Biology and Technology, 41, 164-171, 2006.
  • [89] Chien PJ, Sheu F, Lin HR. “Quality assessment of low molecular weight chitosan coating on sliced red pitayas”. Journal of Food Science, 79, 736-740, 2007.
  • [90] Ponce A, Roura S, del Valle C, Moreira M. “Antimicrobial and antioxidant activities of edible coatings enriched with natural plant extracts: in vitro and in vivo studies”. Postharvest Biology and Technology, 49(2), 294-300, 2008.
  • [91] Del Toro-Sánchez C, Ayala-Zavala J, Machi L, Santacruz H, Villegas-Ochoa M, Álvarez-Parrilla E, González-Aguilar G. “Controlled release of antifungal volatiles of thyme essential oil from -cyclodextrin capsules”. The Journal of Inclusion Phenomena and Macrocyclic Chemistry, 67(3), 431-441, 2010.
  • [92] Robles-Sánchez RM, Rojas-Graü MA, Odriozola-Serrano I, González-Aguilar G, Martin-Belloso O. “Influence of alginate-based edible coating as carrier of antibrowning agents on bioactive compounds and antioxidant activity in fresh-cut Kent mangoes”. LWT-Food Science and Technology, 50(1), 240-246, 2013.
  • [93] Ahmadi A, Milani E, Madadlou A, Mortazavi SA, Mokarram RR, Salarbashi D. “Synbiotic yogurt-ice cream produced via incorporation of microencapsulated lactobacillus acidophilus (la-5) and fructooligosaccharide”. The Journal of Food Science and Technology, 51(8), 1568-1574, 2012.
  • [94] Sohail A, Turner MS, Prabawati EK, Coombes AG, Bhandari B. “Evaluation of Lactobacillus rhamnosus GG and Lactobacillus acidophilus NCFM encapsulated using a novel impinging aerosol method in fruit food products”. International Journal of Food Microbiology, 157(2), 162-166, 2012.
  • [95] Shinde T, Sun-Waterhouse D, Brooks J. “Co-extrusion encapsulation of probiotic lactobacillus acidophilus alone or together with apple skin polyphenols: an aqueous and value-added delivery system using alginate”. Food and Bioprocess Technology, 7(6), 1581-1596, 2014.
  • [96] Baranauskien R, Bylait E, Žukauskait J, Venskutonis RP. “Flavor retention of peppermint (Mentha piperita L.) essential oil spray-dried in modified starches during encapsulation and storage”. Journal of Agricultural and Food Chemistry, 55(8), 3027-3036, 2007.
  • [97] Fabra MJ, Chambin O, Voilley A, Gay JP, Debeaufort F. “Influence of temperature and NaCl on the release in aqueous liquid media of aroma compounds encapsulated in edible films”. Journal of Food Engineering, 108(1), 30-36, 2012.
  • [98] Olivas G, Maya I, Espino-Díaz J, Molina-Corral J, Olivas-Dorantes C, Sepulveda D. “Metabolization of linoleic acid and isoleucine for aroma production in fresh-cut ‘Golden Delicious’ apples using alginate coatings as the holding matrix”. Institute of Food Technologists IFT Annual Meeting, Las Vegas, NV, EU, 2012.
Year 2020, Volume: 26 Issue: 7, 1245 - 1256, 07.12.2020

Abstract

References

  • [1] Debeaufort F, Quezada-Gallo JA, Voilley A. “Edible films and coatings tomorrow’s packaging: a review”. Critical Reviews in Food Science and Nutrition, 38(4), 299-313, 1998.
  • [2] Guilbert S, Gontard N. Edible and biodegradable food packaging. Editors: Ackermann P, Jägerstad M, Ohlsson T. Foods and Packaging Materials-Chemical Interactions, 159-168, England, UK, The Royal Society of Chemistry, 1995.
  • [3] Guilbert S, Gontard N, Gorris LGM. “Prolongation of the shelf life of perishable food products using biodegradable films and coatings”. Lebensmittel-Wissenschaft und-Technologie, 29(1-2), 10-17, 1996.
  • [4] Han J. Protein-Based Edible Films and Coatings Carrying Antimicrobial Agents. Editor: Gennadios A. Protein-Based Films and Coatings, 485-498, Boca Raton, Florida, USA, CRC Press, 2002.
  • [5] Nussinovitch A. Water Soluble Polymer Applications in Foods. Oxford, UK, Blackwell Science, 2003.
  • [6] Martín-Belloso O, Rojas-Graü MA, Soliva-Fortuny R. Delivery of Flavor and Active İngredients Using Edible Films and Coatings. Editors: Embuscando ME, Huber KC. Edible films and coatings for food applications, 295-313, New York, NY, Springer, 2009.
  • [7] Doores S. Organic Acid. Editors: Davidson PM, Branen AL. Antimicrobials in Foods, 95-136, New York, NY, Marcel Dekker Inc, 1993.
  • [8] Kabara JJ. Phenols and Chelators. Editors: Russell NJ, Gould GW. Food Preservatives, 200-214, London, Blackie, 1991.
  • [9] Anonymous. “Food Safety and Food Labeling; Presence and Labeling of Allergens in Food”. Rockville, Food and Drug Administration, HHS, 2001.
  • [10] Franssen LR, Krochta JM. Edible Coatings Containing Natural Antimicrobials for Processed Foods. Editor: Roller S. Natural Antimicrobials for Minimal Processing of Foods, 250-262, Boca Raton, FL, CRC Cambridge, 2003.
  • [11] Hardenburg RE. “Wax and related coatings for horticultural products; a bibliography”. Agriculture Research Service, 5, 1-15, 1967.
  • [12] Grant LA, Burns J. Application of Coatings. Editors: Krochta JM, Baldwin EA, Nispero-Carriedo MO. Edible Coatings and Films to Improve Food Quality, 189-200, Technomic Publishing Company, Lancaster, 1994.
  • [13] Gulati OP, Ottaway PB. “Legislation relating to nutraceuticals in the European Union with a particular focus on botanical-sourced products”. Toxicology, 221, 75-87, 2006.
  • [14] Adhikari K, Mustapha A, Grun IU, Fernando L. “Viability of microencapsulated bifidobacteria in set yogurt during refrigerated storage”. Journal of Dairy Science, 83, 1946-195, 2000.
  • [15] Mitsuoka T. “Bifidobacteria and their role in human health”. Journal of Industrial Microbiology and Biotechnology, 6, 263-267, 1990.
  • [16] Gibson GR, Roberfroid MB. “Dietary modulation of the human colonic microbiota: introducing the concept of probiotics”. The Journal of Nutrition, 125, 1401-1412, 1995.
  • [17] Kim W, Tanaka T, Kumura H, Shimazaki K. “Lactoferrin-binding proteins in Bifidobacterium bifidum”. Biochemistry and Cell Biology, 80, 91-94, 2002.
  • [18] Naidu AS, Bidlack WR, Clemens RA. “Probiotic spectra of lactic acid bacteria (LAB)”. Critical Reviews in Food Science and Nutrition, 38, 13-126, 1999.
  • [19] Samona A, Robinson RK. “Enumeration of Bifidobacteria in dairy products”. Journal of the Society of Dairy Technology, 44, 64-66, 1991.
  • [20] Kurman JA, Rasic JL. The health potential of products containing bifidobacteria. Editor: Robinson RK. Therapeutic Properties of Fermented Milks, 117-158, London, Elsevier Applied Food Sciences, 1991.
  • [21] Guilbert S, Gontard N. Agro-polymers for edible and biodegradable films: review of agricultural polymeric materials, physical and mechanical characteristics. Editor: Han JH. Innovation in Food Packaging, 263-276, Academic Press, CA, 2005.
  • [22] Laohakunjit N, Kerdchoecuen O. “Aroma enrichment and the change during storage of non-aromatic milled rice coated with extracted natural flavour”. Food Chemistry, 101, 339-344, 2007.
  • [23] Mei Y, Zhao Y. “Barrier and mechanical properties of milk protein-based edible films incorporated with nutraceuticals”. Journal of Agricultural and Food Chemistry, 51, 1914-1918, 2003.
  • [24] Park S, Zhao Y. “Incorporation of a high concentration of mineral or vitamin into chitosan-based films”. Journal of Agricultural and Food Chemistry, 52, 1933-1939, 2004.
  • [25] Mei Y, Zhao Y, Yang J, Furr HC. “Using edible coating to enhance nutritional and sensory qualities of baby carrots”. Journal of Food Science, 67, 1964-1968, 2002.
  • [26] Han C, Zhao Y, Leonard SW, Traber MG. “Edible coatings to improve storability and enhance nutritional value of fresh and frozen strawberries (Fragaria x ananassaa) and raspberries (Rubus ideaus)”. Postharvest Biology and Technology, 33, 67-78, 2004.
  • [27] Hernández-Muñoz P, Almenar E, Ocio MJ, Gavara R. “Effect of calcium dips and chitosan coatings on postharvest life of strawberries (Fragaria x ananassa)”. Postharvest Biology and Technology, 39, 247-53, 2006.
  • [28] Tapia MS, Rojas-Graü MA, Rodríguez FJ, Ramírez J, Carmona A, Martin-Belloso O. “Alginate and Gellan-based edible films for probiotic coatings on fresh-cut fruits”. Journal of Food Science, 72, 190-196, 2007.
  • [29] Gennadios A, Kurth LB. “Application of edible coatings on meats, poultry and seafoods: a rewiev”. Lebensmittel-Wissenschaft und-Technologie, 30, 337-350, 1997.
  • [30] Burt S. “Essential oils: their antibacterial properties and potential applications in foods: a review”. International Journal of Food Microbiology, 94, 223-253, 2004.
  • [31] Fenaroli G. Fenaroli’s Handbook of Flavor Ingredients. CRC, Boca Raton, FL, Taylor & Francis, 1995.
  • [32] Çağrı A, Üstunol Z, Ryser E. “Antimicrobial edible films and coating”. Journal of Food Protection, 67, 833-848, 2004.
  • [33] Rojas-Graü MA, Avena-Bustillos R, Friedman M, Henika P, Martín-Belloso O, McHugh T. “Mechanical, barrier and antimicrobial properties of apple puree edible films containing plant essential oils”. Journal of Agricultural and Food Chemistry, 54, 9262-9267, 2006.
  • [34] Rojas-Graü MA, Olsen C, Avena-Bustillos RJ, Friedman M, Henika PR, Martín-Belloso O, Pan Z, McHugh TH. “Effects of plant essential oils and oil compounds on mechanical, barrier and antimicrobial properties of alginate-apple puree edible films”. Journal of Food Engineering, 81, 634-641, 2007.
  • [35] Ouattara B, Simard RE, Oiette G, Begin A, Holley RA. “Inhibition of surface spoilage bacteria in processed meats by application of antimicrobial films prepared with chitosan”. International Journal of Food Microbiology, 62, 139-148, 2000.
  • [36] Çağrı A, Üstunol Z, Ryser ET. “Inhibition of three pathogens on bologna and summer sausage slices using antimicrobial edible films”. Journal of Food Science, 67, 2317-2324, 2002.
  • [37] Oussalah M, Caillet S, Salmieri S, Saucier L, Lacroix M. “Antimicrobial and antioxidant effects of milk protein-based film containing essential oils for the preservation of whole beef muscle”. Journal of Agricultural and Food Chemistry, 52, 5598-5605, 2004.
  • [38] Oussalah M, Caillet S, Salmieri S, Saucier L, Lacroix M. “Antimicrobial effects of alginatebased film containing essential oils for the preservation of whole beef muscle”. Journal of Food Protection, 69, 2364-2369, 2006.
  • [39] Soliva-Fortuny RC, Grigelmo-Miguel N, Odriozola-Serrano I, Gorinstein S, Martin-Belloso O. “Browning evaluation of ready- to- eat apples as affected by modified atmosphere packaging”. Journal of Agricultural and Food Chemistry, 49, 3685-3690, 2001.
  • [40] Son S, Moon K, Lee C. “Inhibitory effects of various antibrowning agents on apple slices”. Food Chemistry, 73, 23-30, 2001.
  • [41] Dong X, Wrolstad RE, Sugar D. “Extending shelf life of fresh-cut pears”. Journal of Food Science, 65, 181-186, 2000.
  • [42] Luo Y, Barbosa-Canovas GV. “Enzymatic browning and its inhibition in new apple cultivars slices using 4-hexylresorcinol in combination with ascorbic acid”. Food Science and Technology International, 3, 195-201, 1997.
  • [43] Monsalve-Gonzalez A, Barbosa-Canovas GV, Cavalieri RP, McEvily AJ, Iyengar R. “Control of browning during storage of apple slices preserved by combined methods. 4-hexylresorcinol as anti-browning agent”. Journal of Food Science, 58, 797-800, 1993.
  • [44] Gorny JR, Hess-Pierce B, Cifuentes RA, Kader AA. “Quality changes in fresh-cut pear slices as affected by controlled atmospheres and chemical preservatives”. Postharvest Biology and Technology, 24, 271-278, 2002.
  • [45] Molnar-Perl I, Friedman M. “Inhibition of browning by sulfur amino acids in apples and potatoes”. Journal of Agricultural and Food Chemistry, 38, 1652-1656, 1990.
  • [46] Nicoli MC, Anise M, Severinc C. “Combined effects in preventing enzymatic browning reactions in minimally processed fruit”. Journal of Food Quality, 17, 221-229, 1994.
  • [47] Pizzocaro F, Toregiani D, Gilardi G. “Inhibition of apple polyphenol oxidase (PPO) by ascorbic acid, citric acid and sodium chloride”. Journal of Food Processing and Preservation, 17, 21-30, 1993.
  • [48] Rojas-Graü MA, Sobrino-López A, Tapia MS, Martín-Belloso O. “Browning inhibition in fresh-cut ‘Fuji’ apple slices by natural antibrowning agents”. Journal of Food Science, 71, 59-65, 2006.
  • [49] Wong WS, Tillin SJ, Hudson JS, Pavlath AE. “Gas exchange in cut apples with bilayer coatings”. Journal of Agricultural and Food Chemistry, 42, 2278-2285, 1994.
  • [50] Baldwin EA, Nisperos MO, Chen X, Hagenmaier RD. “Improving storage life of cut apple and potato with edible coating”. Postharvest Biology and Technology, 9, 151-163, 1996.
  • [51] Lee JY, Park HJ, Lee CY, Choi WY. “Extending shelf-life of minimally processed apples with edible coatings and antibrowning agents”. Lebensmittel-Wissenschaft und -Technologie, 36, 323-329, 2003.
  • [52] Perez-Gago MB, Serra M, del Rio MA. “Color change of fresh-cut apples coated with whey protein concentrate-based edible coatings”. Postharvest Biology and Technology, 39, 84-92, 2006.
  • [53] Rojas-Graü MA, Tapia MS, Rodríguez FJ, Carmona AJ, Martín-Belloso O. “Alginate and gellan based edible coatings as support of antibrowning agents applied on fresh-cut Fuji apple”. Food Hydrocolloids, 21, 118-127, 2007.
  • [54] Tapia MS, Rodríguez FJ, Rojas-Graü MA, Martín-Belloso O. “Formulation of alginate and gellan based edible coatings with antioxidants for fresh-cut apple and papaya”. IFT Annual Meeting, New Orleans, LA, 36-43, 2005.
  • [55] Ayrancı E, Tunç S. “The effect of edible coatings on water and vitamin C loss of apricots (Armeniaca vulgaris Lam) and green peppers (Capsicum annuum L)”. Food Chemistry, 87, 339-342, 2004.
  • [56] Donhowe IG, Fennema O. Edible films and coatings: Characteristics, formation, definitions, and testing methods. Editors: Krochta JM, Baldwin EA, Nispero-Carriedo MO. Edible Coatings and Films to Improve Food Quality, 1-24, Technomic Publishing Company, Lancaster, 1994.
  • [57] Krochta JM, De Mulder-Johnston C. “Edible and biodegradable polymer films: challenges and opportunities”. Food Technology, 51, 61-74, 1997.
  • [58] Labell F. “Edible packaging”. Journal of Food Process Engineering, 52, 24, 1991.
  • [59] Stollman U, Hohansson F, Leufven A. Packaging and Food Quality. Editors: Man CMD, Jones AA. Shelf life Evaluation of Foods. 52-71, Boston, MA, Springer, 1994.
  • [60] McHugh TH, Huxsoll CC, Krochta JM. “Permeability properties of fruit puree edible films”. Journal of Food Science, 61, 88-91, 1996.
  • [61] McHugh TH, Senesi E. “Fruit and vegetable edible film wraps and methods to improve and extend the shelf life of foods”. U.S. Patent Application, 9, 330-358, 1999.
  • [62] McHugh TH, Senesi E. “Apple wraps: a novel method to improve the quality and extend the shelf life of fresh-cut apples”. Journal of Food Science, 65, 480-485, 2000.
  • [63] Bravin B, Peressini D, Sensidoni A. “Development and application of polysaccharide-lipid edible coating to extend shelf-life of dry bakery products”. Journal of Food Engineering, 76, 280-290, 2006.
  • [64] Jagannath JH, Nanjappa C, Das Gupta D, Bawa AS. “Studies on the stability of an edible film and its use for the preservation of carrot (Daucus carota)”. International Journal of Food Science & Technology, 41, 498-506, 2006.
  • [65] Min S, Harris LJ, Han JH, Krochta JM. “Listeria monocytogenes inhibition by whey protein films and coatings incorporating lysozyme”. Journal of Food Protection, 68, 2317-2325, 2005.
  • [66] Serrano M, Valverde JM, Guillen F, Castillo S, Martínez-Romero D, Valero D. “Use of Aloe vera gel coating preserves the functional properties of table grapes”. Journal of Agricultural and Food Chemistry, 54, 3882-3886, 2006.
  • [67] Kester JJ, Fennema O. “Edible films and coatings: A review”. Food Technology, 40, 47-59, 1986.
  • [68] McHugh TH and Krochta JM. “Water vapour permeability properties of edible whey protein-lipid emulsion films”. Journal of the American Oil Chemists’ Society, 71, 307-312, 1994.
  • [69] Yang L, Paulson AT. “Effects of lipids on mechanical and moisture barrier properties of edible gellan film”. Food Research International, 33, 571-578, 2000.
  • [70] García MA, Martinó MN, Zaritzky NE. “Lipid addition to improve barrier properties of edible starch-based films and coatings”. Journal of Food Science, 65, 941-947, 2000.
  • [71] Gennadios A, Weller CL. “Edible films and coatings from wheat and corn proteins”. Food Technology, 44, 63-69, 1990.
  • [72] Miller KS, Upadhyaya SK, Krochta JM. “Permeability of d-limonene in whey protein films”. Journal of Food Science, 63, 244-247, 1998.
  • [73] Anonymous. “Edible films solve problems”. Food technology, 51, 60, 1997.
  • [74] Wu PJ, Schwartzberg HG. “Popping behaviour and zein coating of popcorn”. Cereal Chemistry, 69, 567-573, 1992.
  • [75] Druchta J, De Mulder Johnston C. “Edible films solve problems”. Food Technology, 51, 61-74, 1997.
  • [76] Contreras-Medellin R, Labuza TP. “Prediction of moisture protection requirements for foods”. Cereal Food World, 26, 335-342, 1981.
  • [77] LeClair K. “Breaking the sensory barrier for functional foods”. Food Prod Design, 7, 59-63, 2000.
  • [78] Drewnowski A, Gomez-Carneros C. “Bitter taste, phytonutrients, and the consumer: a review”. The American Journal of Clinical Nutrition, 72, 1424-35, 2000.
  • [79] Han C, Lederer C, McDaniel M, Zhao Y. “Sensory evaluation of fresh strawberries (Fragaria ananassa) coated with chitosan-based edible coatings”. Journal of Food Science, 70, 172-178, 2005.
  • [80] İyidoğan NF, Bayındırlı A. “Effect of l -cysteine, kojic acid and 4-hexylresorcinol combination on inhibition of enzymatic browning in Amasya apple juice”. Journal of Food Engineering, 62, 299-304, 2004.
  • [81] Richard FC, Goupy PM, Nicolas JJ. “Cysteine as an inhibitor of enzymatic browning, 2. Kinetic studies”. Journal of Agricultural and Food Chemistry, 40, 2108-2114, 1992.
  • [82] Rojas-Graü MA, Raybaudi-Massilia RM, Soliva-Fortuny RC, Avena-Bustillos RJ, McHugh TH, Martín-Belloso O. “Apple puree-alginate edible coating as carrier of antimicrobial agents to prolong shelf-life of fresh-cut apples”. Postharvest Biology and Technology, 45, 254-264, 2007.
  • [83] Yıldırım M, Güleç F, Bayram M, Yıldırım Z. “Cheese properties of kashar cheese coated with casein as a carrier of natamycin”. Italian Journal of Food Science, 18, 127-138, 2006.
  • [84] Eswaranandam S, Hettiarachchy NS, Meullenet JF. “Effect of malic and lactic acid incorporated soy protein coatings on the sensory attributes of whole apple and fresh-cut cantaloupe”. Journal of Food Science, 71, 307-313, 2006.
  • [85] Chen MJ, Weng YM, Chen WL. “Edible coating as preservative carriers to inhibit yeast on Taiwanese-style fruit preserves”. Journal of Food Safety, 19, 89-96, 1999.
  • [86] Rodriguez MS, Albertengo LA, Vitale I, Agullo E. “Relationship between astringency and chitosan-saliva solutions turbidity at different pH”. Journal of Food Science, 68, 665-667, 2003.
  • [87] Devlieghere F, Vermeulen A, Debevere J. “Chitosan: antimicrobial activity, interactions with food components and applicability as a coating on fruit and vegetables”. Food Microbiology, 21, 703-714, 2004.
  • [88] Vargas M, Albors A, Chiralt A, Gonzalez-Martinez C. “Quality of cold-stored strawberries as affected by chitosan-oleic acid edible coatings”. Postharvest Biology and Technology, 41, 164-171, 2006.
  • [89] Chien PJ, Sheu F, Lin HR. “Quality assessment of low molecular weight chitosan coating on sliced red pitayas”. Journal of Food Science, 79, 736-740, 2007.
  • [90] Ponce A, Roura S, del Valle C, Moreira M. “Antimicrobial and antioxidant activities of edible coatings enriched with natural plant extracts: in vitro and in vivo studies”. Postharvest Biology and Technology, 49(2), 294-300, 2008.
  • [91] Del Toro-Sánchez C, Ayala-Zavala J, Machi L, Santacruz H, Villegas-Ochoa M, Álvarez-Parrilla E, González-Aguilar G. “Controlled release of antifungal volatiles of thyme essential oil from -cyclodextrin capsules”. The Journal of Inclusion Phenomena and Macrocyclic Chemistry, 67(3), 431-441, 2010.
  • [92] Robles-Sánchez RM, Rojas-Graü MA, Odriozola-Serrano I, González-Aguilar G, Martin-Belloso O. “Influence of alginate-based edible coating as carrier of antibrowning agents on bioactive compounds and antioxidant activity in fresh-cut Kent mangoes”. LWT-Food Science and Technology, 50(1), 240-246, 2013.
  • [93] Ahmadi A, Milani E, Madadlou A, Mortazavi SA, Mokarram RR, Salarbashi D. “Synbiotic yogurt-ice cream produced via incorporation of microencapsulated lactobacillus acidophilus (la-5) and fructooligosaccharide”. The Journal of Food Science and Technology, 51(8), 1568-1574, 2012.
  • [94] Sohail A, Turner MS, Prabawati EK, Coombes AG, Bhandari B. “Evaluation of Lactobacillus rhamnosus GG and Lactobacillus acidophilus NCFM encapsulated using a novel impinging aerosol method in fruit food products”. International Journal of Food Microbiology, 157(2), 162-166, 2012.
  • [95] Shinde T, Sun-Waterhouse D, Brooks J. “Co-extrusion encapsulation of probiotic lactobacillus acidophilus alone or together with apple skin polyphenols: an aqueous and value-added delivery system using alginate”. Food and Bioprocess Technology, 7(6), 1581-1596, 2014.
  • [96] Baranauskien R, Bylait E, Žukauskait J, Venskutonis RP. “Flavor retention of peppermint (Mentha piperita L.) essential oil spray-dried in modified starches during encapsulation and storage”. Journal of Agricultural and Food Chemistry, 55(8), 3027-3036, 2007.
  • [97] Fabra MJ, Chambin O, Voilley A, Gay JP, Debeaufort F. “Influence of temperature and NaCl on the release in aqueous liquid media of aroma compounds encapsulated in edible films”. Journal of Food Engineering, 108(1), 30-36, 2012.
  • [98] Olivas G, Maya I, Espino-Díaz J, Molina-Corral J, Olivas-Dorantes C, Sepulveda D. “Metabolization of linoleic acid and isoleucine for aroma production in fresh-cut ‘Golden Delicious’ apples using alginate coatings as the holding matrix”. Institute of Food Technologists IFT Annual Meeting, Las Vegas, NV, EU, 2012.
There are 98 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Review Article
Authors

Özgül Özdestan Ocak This is me

Bahar Demircan This is me

Publication Date December 7, 2020
Published in Issue Year 2020 Volume: 26 Issue: 7

Cite

APA Özdestan Ocak, Ö., & Demircan, B. (2020). Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 26(7), 1245-1256.
AMA Özdestan Ocak Ö, Demircan B. Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. December 2020;26(7):1245-1256.
Chicago Özdestan Ocak, Özgül, and Bahar Demircan. “Lezzet bileşenleri Ve Biyoaktif Maddelerin Yenilebilir Film Ve Kaplamalar Ile gıda Sistemlerinde taşınması Ve işlevselliğe Etkileri”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26, no. 7 (December 2020): 1245-56.
EndNote Özdestan Ocak Ö, Demircan B (December 1, 2020) Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26 7 1245–1256.
IEEE Ö. Özdestan Ocak and B. Demircan, “Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 26, no. 7, pp. 1245–1256, 2020.
ISNAD Özdestan Ocak, Özgül - Demircan, Bahar. “Lezzet bileşenleri Ve Biyoaktif Maddelerin Yenilebilir Film Ve Kaplamalar Ile gıda Sistemlerinde taşınması Ve işlevselliğe Etkileri”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 26/7 (December 2020), 1245-1256.
JAMA Özdestan Ocak Ö, Demircan B. Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2020;26:1245–1256.
MLA Özdestan Ocak, Özgül and Bahar Demircan. “Lezzet bileşenleri Ve Biyoaktif Maddelerin Yenilebilir Film Ve Kaplamalar Ile gıda Sistemlerinde taşınması Ve işlevselliğe Etkileri”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, vol. 26, no. 7, 2020, pp. 1245-56.
Vancouver Özdestan Ocak Ö, Demircan B. Lezzet bileşenleri ve biyoaktif maddelerin yenilebilir film ve kaplamalar ile gıda sistemlerinde taşınması ve işlevselliğe etkileri. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2020;26(7):1245-56.





Creative Commons Lisansı
Bu dergi Creative Commons Al 4.0 Uluslararası Lisansı ile lisanslanmıştır.