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References
Abdou ES, Elkholy SS, Elsabee MZ, Mohamed E (2008). Improved antimicrobial activity of polypropylene and cotton nonwoven fabrics by surface treatment and modification with chitosan. Journal of Applied Polymer Science 108(4):2290-2296. |
|
Abreu AS, Oliveira M, de Sá A, Rodrigues RM, Cerqueira MA, Vicente AA, Machado AV (2015). Antimicrobial nanostructured starch based films for packaging. Carbohydrate Polymers 129:127-134. |
|
American Association of Cereal Chemists (2000). Method AACC 74-09: Measurement of Bread Firmness by Universal Testing Machine. In: Approved Methods of Analysis, 10th edn. American Association of Cereal Chemists, Saint Paul, MN. |
|
Antoniou J, Liu F, Majeed H, Zhong F (2015). Characterization of tara gum edible films incorporated with bulk chitosan and chitosan nanoparticles: A comparative study. Food Hydrocolloids 44:309-319. |
|
Aydogdu A, Kirtil E, Sumnu G, Oztop MH, Aydogdu Y (2018). Utilization of lentil flour as a biopolymer source for the development of edible films. Journal of Applied Polymer Science 135:46356. |
|
Baik O, Marcotte M, Castaigne F (2000). Cake baking in tunnel type multi-zone industrial ovens Part II. Evaluation of quality parameters. Food Research International 33:599-607. |
|
Baixauli R, Salvador A, Fiszman SM (2008). Textural and colour changes during storage and sensory shelf life of muffins containing resistant starch. European Food Research and Technology 226:523-530. |
|
Bajpai VK, Kamle M, Shukla S, Mahato DK, Chandra P, Hwang SK, Kumar P, Huh YS, Han YK (2018). Prospects of using nanotechnology for food preservation, safety, and security. Journal of Food and Drug Analysis 26:1201-1214. |
|
Ban Z, Feng J, Wei W, Yang X, Li J, Guan J, Li J (2015). Synergistic Effect of Sodium Chlorite and Edible Coating on Quality Maintenance of Minimally Processed Citrus grandis under Passive and Active MAP. Journal of Food Science 80:C1705-C1712. |
|
Barba C, Eguinoa A, Maté JI (2015). Preparation and characterization of β-cyclodextrin inclusion complexes as a tool of a controlled antimicrobial release in whey protein edible films. LWT - Food Science and Technology 64:1362-1369. |
|
Bonilla J, Sobral PJA (2016). Antioxidant and physicochemical properties of blended films based on gelatin-sodium caseinate activated with natural extracts. Journal of Applied Polymer Science 134. |
|
Channaiah LH, Michael M, Acuff JC, Phebus RK, Thippareddi H, Olewnik M, Milliken G (2017). Validation of the baking process as a kill-step for controlling Salmonella in muffins. International Journal of Food Microbiology 250:1-6. |
|
Chinma CE, Ariahu CC, Abu JO (2014). Shelf Life Extension of Toasted Groundnuts through the Application of Cassava Starch and Soy Protein-Based Edible Coating. Nigerian Food Journal 32:133–138. |
|
Chiumarelli M, Pereira LM, Ferrari CC, Sarantópoulos CIGL, Hubinger MD (2010). Cassava starch coating and citric acid to preserve quality parameters of fresh-cut "Tommy atkins" mango. Journal of Food Science 75:E297–E304. |
|
Codex Alimentarius (2015). Norma General para los Aditivos Alimentarios: Codex STAN 192-1995. FAO |
|
Costa SS, Druzian JI, Machado BAS, De Souza CO, Guimaraes AG (2014). Bi-functional biobased packing of the cassava starch, glycerol, licuri nanocellulose and red propolis. PLoS ONE 9(11):1-10. |
|
Da Silva JBA, Nascimento T, Costa LAS, Pereira FV, Machado BA, Gomes GVP, Assis DJ, Druzian JI (2015). Effect of Source and Interaction with Nanocellulose Cassava Starch, Glycerol and the Properties of Films Bionanocomposites. Materials Today: Proceedings 2(1):200-207. |
|
Esteller MS, Lannes SCDS (2005). Parâmetros complementares para fixação de identidade e qualidade de produtos panificados. Ciênc Tecn Aliment 25(4):802-806. |
|
Fakhouri FM, Martelli SM, Caon T, Velasco JI, Mei LHI (2015). Edible films and coatings based on starch/gelatin: Film properties and effect of coatings on quality of refrigerated Red Crimson grapes. Postharvest Biology and Technology 109:57–64. |
|
Farris S, Unalan UI, Introzzi L, Fuentes-Alventosa JM, Cozzolino CA (2014). Pullulan-based films and coatings for food packaging: Present applications, emerging opportunities, and future challenges. Journal of Applied Polymer Science 131(13):1-12. |
|
Femi-Adepoju FG, Olufemi Adepoju A (2014). Antifungal Activities of Seed Oil of Neem (Azadirachta indica A. Juss.). Global Journal of Biology, Agriculture & Health Sciences 3(1):106–109 |
|
Galus S, KadziÅ„ska J (2015). Food applications of emulsion-based edible films and coatings. Trends in Food Science and Technology 45(2):273–283. |
|
Ganiari S, Choulitoudi E, Oreopoulou V (2017). Edible and active films and coatings as carriers of natural antioxidants for lipid food. Trends in Food Science & Technology 68:70-82. |
|
Gélinas P, Roy G, Guillet M (1999). Relative effects of ingredients on cake staling based on an accelerated shelf-life test. Journal of Food Science 64(5):937–940. |
|
Gutiérrez TJ, Morales NJ, Pérez E, Tapia MS, Famá L (2015). Physico-chemical properties of edible films derived from native and phosphated cush-cush yam and cassava starches. Food Packaging and Shelf Life 3:1-8. |
|
Gutiérrez TJ, Suniaga J, Monsalve A, García NL (2016). Influence of beet flour on the relationship surface-properties of edible and intelligent films made from native and modified plantain flour. Food Hydrocolloids 54(PartB):234-244. |
|
Gutkoski LC, Teixeira DMF, Durigon A, Ganzer AG, Bertolin TE, Colla LM (2009). Influência dos teores de aveia e de gordura nas características tecnológicas e funcionais de bolos. Ciência e Tecnologia de Alimentos 29(2):254-261. |
|
IAL-Instituto Adolfo Lutz (2008). Métodos Físico-Químicos para Análise de Alimentos -4a Edição 1a Edição Digital, 4th edn. Instituto Adolfo Lutz, São Paulo, SP. |
|
Jan KN, Panesar PS, Singh S (2018). Optimization of antioxidant activity, textural and sensory characteristics of gluten-free cookies made from whole indian quinoa flour. LWT 93:573-582. |
|
Karmaus AL, Osborn R, Krishan M (2018). Scientific advances and challenges in safety evaluation of food packaging materials: Workshop proceedings. Regulatory Toxicology and Pharmacology 98:80-87. |
|
Kaur A, Kaur R, Bhise S (2018). Baking and sensory quality of germinated and ungerminated flaxseed muffins prepared from wheat flour and wheat atta. Journal of the Saudi Society of Agricultural Sciences. |
|
Kaur R, Kaur M (2018). Microstructural, physicochemical, antioxidant, textural and quality characteristics of wheat muffins as influenced by partial replacement with ground flaxseed. LWT 91:278-285. |
|
King AD, Hocking AD, Pitt JI (1979). Dichloran-rose bengal medium for enumeration and isolation of molds from foods. Applied and Environmental Microbiology 37(5):959-964 |
|
Liu J, Liu X, Man Y, Liu Y (2018). Reduction of acrylamide content in bread crust by starch coating. Journal of the Science of Food and Agriculture 98(1):336-345. |
|
Lopes AS (2005). Surinam cherru and west Indian cherry: study of processing, stability and formulation of a mixed nectar. Ph.D. Thesis, Campinas State University – UNICAMP. |
|
Majid I, Ahmad Nayik G, Mohammad Dar S, Nanda V (2018). Novel food packaging technologies: Innovations and future prospective. Journal of the Saudi Society of Agricultural Sciences 17(4):454-462. |
|
Martínez-Cervera S, Salvador A, Sanz T (2014). Comparison of different polyols as total sucrose replacers in muffins: Thermal, rheological, texture and acceptability properties. Food Hydrocolloids 35:1-8. |
|
Ollé Resa CP, Gerschenson LN, Jagus RJ (2016). Starch edible film supporting natamycin and nisin for improving microbiological stability of refrigerated argentinian Port Salut cheese. Food Control 59:737-742. |
|
Oriani VB, Molina G, Chiumarelli M, Pastore GM, Hubinger MD (2014). Properties of cassava starch-based edible coating containing essential oils. Journal of Food Science 79:E189-E194. |
|
Osawa CC, Fontes CB, Miranda EHW, Chang YK, Steel CJ (2009). Physical and chemical evaluation of chocolate cake covered with gelatin, stearic acid, modified starch or "carnaúba" was edible icing. Ciência e Tecnologia de Alimentos 29(1):92-99. |
|
Osorio FA, Molina P, Matiacevich S, Enrione J, Skurtys O (2011). Characteristics of hydroxy propyl methyl cellulose (HPMC) based edible film developed for blueberry coatings. Procedia Food Science 1:287-293. |
|
Pagno CH, Klug TV, Costa TMH, Rios AO, Flôres SH (2016). Physical and antimicrobial properties of quinoa flour-based films incorporated with essential oil. Journal of Applied Polymer Science 133(16): |
|
Parra DF, Tadini CC, Ponce P, Lugão AB (2004). Mechanical properties and water vapor transmission in some blends of cassava starch edible films. Carbohydrate Polymers 58(4):475-481. |
|
Ramírez-Guerra HE, Castillo-Ya-ez FJ, Monta-o-Cota EA, Ruíz-Cruz, S, Márquez-Ríos E, Canizales-Rodríguez DF, Torres-Arreola W, Montoya-Camacho N, Oca-o-Higuera VM (2018). Protective Effect of an Edible Tomato Plant Extract/Chitosan Coating on the Quality and Shelf Life of Sierra Fish Fillets. Journal of Chemistry 2018. |
|
Rangel-Marrón M, Mani-López E, Palou E, López-Malo A (2019). Effects of alginate-glycerol-citric acid concentrations on selected physical, mechanical, and barrier properties of papaya puree-based edible films and coatings, as evaluated by response surface methodology. LWT 101:83-91. |
|
Razavi SMA, Mohammad Amini A, Zahedi Y (2015). Characterisation of a new biodegradable edible film based on sage seed gum: Influence of plasticiser type and concentration. Food Hydrocolloids 43:290-298. |
|
Resende NS, Gonçalves GAS, Reis KC, Tonoli GHD, Boas EVBV (2018). Chitosan/Cellulose Nanofibril Nanocomposite and Its Effect on Quality of Coated Strawberries. Journal of Food Quality 2018. |
|
Romanazzi G, Feliziani E, Santini M, Landi L (2013). Effectiveness of postharvest treatment with chitosan and other resistance inducers in the control of storage decay of strawberry. Postharvest Biology and Technology 75:24-27. |
|
Sapper M, Talens P, Chiralt A (2019). Improving Functional Properties of Cassava Starch-Based Films by Incorporating Xanthan, Gellan, or Pullulan Gums. 2019:1-9. |
|
Sluimer P(2005). Principles of Breadmaking: Functionality of Raw Materials And Process Steps. St Paul: AACC Inc. 212 p. |
|
Sorour H, Tanaka F, Uchino T (2014). Impact of Non-Thermal Processing on the Microbial and Bioactive Content of Foods. Global Journal of Biology, Agriculture & Health Sciences 3(1):153-167 |
|
Sun Q, Xi T, Li Y, Xiong L (2014). Characterization of corn starch films reinforced with CaCO3 nanoparticles. PLoS ONE 9:e106727. |
|
Suseno N, Savitri E, Sapei L, Padmawijaya KS (2014). Improving Shelf-life of Cavendish Banana Using Chitosan Edible Coating. Procedia Chemistry 9:113–120. |
|
Tian S, Chen Y, Chen Z, Yang Y, Wang Y (2018). Preparation and Characteristics of Starch Esters and Its Effects on Dough Physicochemical Properties. 2018: |
|
Trevi-o-Garza MZ, García S, Flores-González M del S, Arévalo-Ni-o K (2015). Edible Active Coatings Based on Pectin, Pullulan, and Chitosan Increase Quality and Shelf Life of Strawberries (Fragaria ananassa). Journal of Food Science 80(8):M1823-30. |
|
Valenzuela C, Tapia C, López L, Bunger A, Escalona V, Abugoch L (2015). Effect of edible quinoa protein-chitosan based films on refrigerated strawberry (Fragaria × ananassa) quality. Electronic Journal of Biotechnology 18(6):406-411. |
|
Valerini D, Tammaro, L, Di Benedetto F, Vigliotta G, Capodieci L, Terzi, R, Rizzo A (2018). Aluminum-doped zinc oxide coatings on polylactic acid films for antimicrobial food packaging. Thin Solid Films 645:187-192. |
|
Veiga-Santos P, Oliveira LM, Cereda MP, Scamparini ARP (2007). Sucrose and inverted sugar as plasticizer. Effect on cassava starch–gelatin film mechanical properties, hydrophilicity and water activity. Food Chemistry 103(2):255-262. |
|
Vilela C, Kurek M, Hayouka Z, Röcker B, Yildirim S, Antunes MDC, Nilsen-Nygaard J, Pettersen MK, Freire CSR (2018). A concise guide to active agents for active food packaging. Trends in Food Science & Technology 80:212-222. |
|
Vital ACP, Guerrero A, Kempinski EMBC, Monteschio JO, Sary C, Ramos TR, Campo MDM, Prado IND (2018). Consumer profile and acceptability of cooked beef steaks with edible and active coating containing oregano and rosemary essential oils. Meat Science 143:153-158. |
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