Farhoosh R, Khodaparast MHH, Sharif A. Bene hull oil as a highly stable and antioxidative vegetable oil. Eur J Lipid Sci Technol. 2009;111(12):1259–65.
Farhoosh R, Tavassoli-Kafrani MH, Sharif A. Antioxidant activity of the fractions separated from the unsaponifiable matter of bene hull oil. Food Chem. 2011;126(2):583–9.
Delazar A, Reid RG, Sarker SD. GC-MS Analysis of the Essential Oil from the Oleoresin of Pistacia atlantica var. mutica. Chem Nat Compd. 2004;40(1):24–7.
Khedir SB, Bardaa S, Chabchoub N, Moalla D, Sahnoun Z, Rebai T. The healing effect of Pistacia lentiscus fruit oil on laser burn. Pharm Biol. 2017;55(1):1407–14.
PubMed Article CAS Google Scholar
Charef M, Yousfi M, Saidi M, Stocker P. Determination of the Fatty Acid Composition of Acorn (Quercus), Pistacia lentiscus Seeds Growing in Algeria. J Am Oil Chem Soc. 2008;85(10):921–4.
McGaw L, Jäger A, Staden J, Houghton PJ. Antibacterial effects of fatty acids and related compounds from plants. S Afr J Bot. 2002;68:417–23.
Ribeiro Barros Cardoso C, Aparecida Souza M, Amália Vieira Ferro E, Favoreto JRS, Deolina Oliveira Pena J. Influence of topical administration of n-3 and n-6 essential and n-9 nonessential fatty acids on the healing of cutaneous wounds. Wound Repair Regen. 2004;12(2):235–43.
Huang TH, Wang PW, Yang SC, Chou WL, Fang JY. Cosmetic and Therapeutic Applications of Fish Oil’s Fatty Acids on the Skin Mar Drugs. 2018;16(8).
Czaja W, Krystynowicz A, Bielecki S, Brown RM Jr. Microbial cellulose–the natural power to heal wounds. Biomaterials. 2006;27(2):145–51.
CAS PubMed Article Google Scholar
Iguchi M, Yamanaka S, Budhiono A. Bacterial cellulose—a masterpiece of nature’s arts. J Mater Sci. 2000;35(2):261–70.
Jayabalan R, Malbaša RV, Lončar ES, Vitas JS, Sathishkumar M. A Review on Kombucha Tea—Microbiology, Composition, Fermentation, Beneficial Effects, Toxicity, and Tea Fungus. Compr Rev Food Sci Food Saf. 2014;13(4):538–50.
Abeer MM, Mohd Amin MC, Martin C. A review of bacterial cellulose-based drug delivery systems: their biochemistry, current approaches and future prospects. J Pharm Pharmacol. 2014;66(8):1047–61.
CAS PubMed Article Google Scholar
Pértile RAN, Moreira S, Gil da Costa RM, Correia A, Guãrdao L, Gartner F, Vilanova M, Gama M. Bacterial Cellulose: Long-Term Biocompatibility Studies. J Biomater Sci Polym Ed. 2012;23(10):1339–54.
PubMed Article CAS Google Scholar
Lin N, Dufresne A. Nanocellulose in biomedicine: Current status and future prospect. Eur Polym J. 2014;59:302–25.
Andrade FK, Alexandre N, Amorim I, Gartner F, Maurício AC, Luís AL, Gama M. Studies on the biocompatibility of bacterial cellulose. J Bioact Compat Polym. 2013;28(1):97–112.
Fontana JD, de Souza AM, Fontana CK, Torriani IL, Moreschi JC, Gallotti BJ, de Souza SJ, Narcisco GP, Bichara JA, Farah LF. Acetobacter cellulose pellicle as a temporary skin substitute. Appl Biochem Biotechnol. 1990;24–25:253–64.
Lin Y-K, Chen K-H, Ou K-L, Liu M. Effects of different extracellular matrices and growth factor immobilization on biodegradability and biocompatibility of macroporous bacterial cellulose. J Bioact Compat Polym. 2011;26(5):508–18.
Bäckdahl H, Helenius G, Bodin A, Nannmark U, Johansson BR, Risberg B, Gatenholm P. Mechanical properties of bacterial cellulose and interactions with smooth muscle cells. Biomaterials. 2006;27(9):2141–9.
PubMed Article CAS Google Scholar
Novaes AB Jr, Novaes AB. Immediate implants placed into infected sites: a clinical report. Int J Oral Maxillofac Implants. 1995;10(5):609–13.
Picheth GF, Pirich CL, Sierakowski MR, Woehl MA, Sakakibara CN, de Souza CF, Martin AA, da Silva R, de Freitas RA. Bacterial cellulose in biomedical applications: A review. Int J Biol Macromol. 2017;104(Pt A):97–106.
CAS PubMed Article Google Scholar
Gore MA, Akolekar D. Evaluation of banana leaf dressing for partial thickness burn wounds. Burns. 2003;29(5):487–92.
Ghosh A, Bharat R. Domestic burns prevention and first aid awareness in and around Jamshedpur, India: strategies and impact. Burns. 2000;26(7):605–8.
CAS PubMed Article Google Scholar
Chen C, Liu BY. Changes in major components of tea fungus metabolites during prolonged fermentation. J Appl Microbiol. 2000;89(5):834–9.
CAS PubMed Article Google Scholar
Treviño-Garza MZ, Guerrero-Medina AS, González-Sánchez RA, García-Gómez C, Guzmán-Velasco A, Báez-González JG, Márquez-Reyes JM. Production of Microbial Cellulose Films from Green Tea (Camellia Sinensis) Kombucha with Various Carbon Sources. Coatings. 2020;10(11):1132.
Meftahi A, Nasrolahi D, Babaeipour V, Alibakhshi S, Shahbazi S. Investigation of Nano Bacterial Cellulose Coated by Sesamum Oil for Wound Dressing Application. Procedia Mater Sci. 2015;11:212–6.
Shouqin Z, Junjie Z, Changzhen W. Novel high pressure extraction technology. Int J Pharm. 2004;278(2):471–4.
PubMed Article CAS Google Scholar
Andritsou V, de Melo EM, Tsouko E, Ladakis D, Maragkoudaki S, Koutinas AA, Matharu AS. Synthesis and Characterization of Bacterial Cellulose from Citrus-Based Sustainable Resources. ACS Omega. 2018;3(8):10365–73.
CAS PubMed PubMed Central Article Google Scholar
Rossi F, Santoro M, Casalini T, Veglianese P, Masi M, Perale G. Characterization and Degradation Behavior of Agar-Carbomer Based Hydrogels for Drug Delivery Applications: Solute Effect. Int J Mol Sci. 2011;12(6):3394–408.
CAS PubMed PubMed Central Article Google Scholar
AzimzadehAsiabi P, Ramazani A, Khoobi M, Amin M, Shakoori M, MirmohammadSadegh N, Farhadi R. Regenerated silk fibroin-based dressing modified with carnosine-bentonite nanosheets accelerates healing of second-degree burn wound. Chem Pap. 2020;74(10):3243–57.
Cantürk NZ, Vural B, Cantürk Z, Esen N, Vural S, Solakoglu S, Kirkal G. The role of L-arginine and neutrophils on incisional wound healing. Eur J Emerg Med. 2001;8(4):311–5.
Choi Y-J, Ahn Y, Kang M-S, Jun H-K, Kim IS, Moon S-H. Preparation and characterization of acrylic acid-treated bacterial cellulose cation-exchange membrane. J Chem Technol Biotechnol. 2004;79(1):79–84.
Nayak S, Nalabothu P, Sandiford S, Bhogadi V, Adogwa A. Evaluation of wound healing activity of Allamanda cathartica. L. and Laurus nobilis. L. extracts on rats. BMC Complement Altern Med. 2006;6(1):12.
PubMed PubMed Central Article Google Scholar
Albayrak A, Demiryilmaz I, Albayrak Y, Aylu B, Ozogul B, Cerrah S, Celik M. The role of diminishing appetite and serum nesfatin-1 level in patients with burn wound infection. Iran Red Crescent Med J. 2013;15(5):389–92.
PubMed PubMed Central Article Google Scholar
Campos L, Mansilla M, Chica A. Topical chemotherapy for the treatment of burns. Rev enferm. 2005;28:67–70.
Mao-Qiang M, Elias PM, Feingold KR. Fatty acids are required for epidermal permeability barrier function. J Clin Invest. 1993;92(2):791–8.
CAS PubMed PubMed Central Article Google Scholar
Givianrad MH, Saber-Tehrani M, JafariMohammadi SA. Chemical composition of oils from wild almond (Prunus scoparia) and wild pistachio (Pistacia atlantica). GRASAS ACEITES. 2013;64(1):77–84.
Djerrou Z, Maameri Z, Hamdi-Pacha Y, Serakta M, Riachi F, Djaalab H, Boukeloua A. Effect of virgin fatty oil of Pistacia lentiscus on experimental burn wound’s healing in rabbits. Afr J Tradit Complement Altern Med. 2010;7(3):258–63.
PubMed PubMed Central Article Google Scholar
Mehrabani M, Seyyedkazemi SM, Nematollahi MH, Jafari E, Mehrabani M, Mehdipour M, Sheikhshoaee Z, Mandegary A. Accelerated Burn Wound Closure in Mice with a New Formula Based on Traditional Medicine. Iran Red Crescent Med J. 2016;18(11):e26613.
PubMed PubMed Central Article Google Scholar
Mozaffarian V. A dictionary of Iranian plant names. Tehran: Farhang Moaser; 1996. p. 396.
Khatamsaz M. Flora of Iran. [Koenigstein, W. Germany]: Ministry of Agriculture, Iran; 1991.
O’Meara SM, Cullum NA, Majid M, Sheldon TA. Systematic review of antimicrobial agents used for chronic wounds. Br J Surg. 2001;88(1):4–21.
CAS PubMed Article Google Scholar
Atiyeh BS, Costagliola M, Hayek SN, Dibo SA. Effect of silver on burn wound infection control and healing: review of the literature. Burns. 2007;33(2):139–48.
Burd A, Kwok CH, Hung SC, Chan HS, Gu H, Lam WK, Huang L. A comparative study of the cytotoxicity of silver-based dressings in monolayer cell, tissue explant, and animal models. Wound Repair Regen. 2007;15(1):94–104.
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