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Materials Technology
Advanced Performance Materials
Volume 37, 2022 - Issue 8
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Research Article

Design of magnesium oxide nanoparticle incorporated carboxy methyl cellulose/poly vinyl alcohol composite film with novel composition for skin tissue engineering

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Pages 706-716 | Received 30 Jul 2020, Accepted 30 Dec 2020, Published online: 17 Jan 2021

References

  • MacNeil S. Biomaterials for tissue engineering of skin. Mater Today. 2008;11(5):26–35.
  • George Broughton I, Janis JE, Attinger CE. The basic science of wound healing. Plast Reconstr Surg. 2006;117(7S):12S–34S.
  • Diegelmann RF. From the selected works of Robert F. Diegelmann Ph. D. Front Biosci. 2004;9:283–289.
  • Gosain A, DiPietro LA. Aging and wound healing. World J Surg. 2004;28(3):321–326.
  • Boateng JS, Matthews KH, Stevens HN, et al. Wound healing dressings and drug delivery systems: a review. J Pharm Sci. 2008;97(8):2892–2923.
  • Jiang Q, Wang J, Tang R, et al. Hypromellose succinate-crosslinked chitosan hydrogel films for potential wound dressing. Int J Biol Macromol. 2016;91:85–91.
  • Wen Y, Oh JK. Recent strategies to develop polysaccharide‐based nanomaterials for biomedical applications. Macromol Rapid Commun. 2014;35(21):1819–1832.
  • Jain D, Carvalho E, Banthia AK, et al. Development of polyvinyl alcohol–gelatin membranes for antibiotic delivery in the eye. Drug Dev Ind Pharm. 2011;37(2):167–177.
  • Dominguez-Martinez BM, Martínez-Flores HE, Berrios JDJ, et al. Physical characterization of biodegradable films based on chitosan, polyvinyl alcohol and opuntia mucilage. J Polym Environ. 2017;25(3):683–691.
  • Guzman-Puyol S, Ceseracciu L, Heredia-Guerrero JA, et al. Effect of trifluoroacetic acid on the properties of polyvinyl alcohol and polyvinyl alcohol–cellulose composites. Chem Eng J. 2015;277:242–251.
  • Trevisol T, Fritz A, de Souza S, et al. Alginate and carboxymethyl cellulose in monolayer and bilayer films as wound dressings: effect of the polymer ratio. J Appl Polym Sci. 2019;136(3):46941.
  • Wong TW, Ramli NA. Carboxymethylcellulose film for bacterial wound infection control and healing. Carbohydr Polym. 2014;112:367–375.
  • Barbucci R, Leone G, Vecchiullo A. Novel carboxymethylcellulose-based microporous hydrogels suitable for drug delivery. J Biomater Sci Polym Ed. 2004;15(5):607–619.
  • Rana S, Kalaichelvan P. Antibacterial activities of metal nanoparticles. Antibacterial Activities Metal Nanopart. 2011;11(2):21–23.
  • Hemeg HA. Nanomaterials for alternative antibacterial therapy. Int J Nanomedicine. 2017;12:8211.
  • Tang Z-X, Lv B-F. MgO nanoparticles as antibacterial agent: preparation and activity. Braz J Chem Eng. 2014;31(3):591–601.
  • Hickey DJ, Ercan B, Sun L, et al. Adding MgO nanoparticles to hydroxyapatite–PLLA nanocomposites for improved bone tissue engineering applications. Acta Biomater. 2015;14:175–184.
  • Martinez-Boubeta C, Balcells L, Cristòfol R, et al. Self-assembled multifunctional Fe/MgO nanospheres for magnetic resonance imaging and hyperthermia. Nanomedicine. 2010;6(2):362–370. .
  • Krishnamoorthy K, Moon JY, Hyun HB, et al. Mechanistic investigation on the toxicity of MgO nanoparticles toward cancer cells. J Mater Chem. 2012;22(47):24610–24617.
  • Krishnamoorthy K, Manivannan G, Kim SJ, et al. Antibacterial activity of MgO nanoparticles based on lipid peroxidation by oxygen vacancy. J Nanopart Res. 2012;14(9):1063.
  • Coelho CC, Araújo R, Quadros PA, et al. Antibacterial bone substitute of hydroxyapatite and magnesium oxide to prevent dental and orthopaedic infections. Mater Sci Eng C. 2019;97:529–538.
  • Um IC, Park YH. The effect of casting solvent on the structural characteristics and miscibility of regenerated silk fibroin/poly (vinyl alcohol) blends. Fibers Polym. 2007;8(6):579–585.
  • Singh AK, Pramanik K, Biswas A. MgO enables enhanced bioactivity and antimicrobial activity of nano bioglass for bone tissue engineering application. Mater Technol. 2019;34(13):818–826.
  • Singh B, Panda N, Mund R, et al. Carboxymethyl cellulose enables silk fibroin nanofibrous scaffold with enhanced biomimetic potential for bone tissue engineering application. Carbohydr Polym. 2016;151:335–347.
  • Ahmed A, Niazi MBK, Jahan Z, et al. Enhancing the thermal, mechanical and swelling properties of PVA/starch nanocomposite membranes incorporating gC 3 N 4. J Polym Environ. 2020;28(1):100–115. .
  • Singh B, Pramanik K. Development of novel silk fibroin/polyvinyl alcohol/sol–gel bioactive glass composite matrix by modified layer by layer electrospinning method for bone tissue construct generation. Biofabrication. 2017;9(1):015028.
  • Sánchez-González L, Cháfer M, Hernández M, et al. Antimicrobial activity of polysaccharide films containing essential oils. Food Control. 2011;22(8):1302–1310.
  • Vashisth P, Nikhil K, Roy P, et al. A novel gellan–PVA nanofibrous scaffold for skin tissue regeneration: fabrication and characterization. Carbohydr Polym. 2016;136:851–859.
  • Nazmi N, Isa M, Sarbon N. Preparation and characterization of chicken skin gelatin/CMC composite film as compared to bovine gelatin film. Food Biosci. 2017;19:149–155.
  • Mahanta B, Mary SA, Bhaduri A, et al. Electrospun PVA/Keratin nanofibrous scaffold and its application in neural repair. Trends Biomat Artif Organs. 2014;28(4):188–196
  • Jahit I, Nazmi N, Isa M, et al. Preparation and physical properties of gelatin/CMC/chitosan composite films as affected by drying temperature. Int Food Res J. 2016;23(3):1068–1074.
  • Pawde S, Deshmukh K. Characterization of polyvinyl alcohol/gelatin blend hydrogel films for biomedical applications. J Appl Polym Sci. 2008;109(5):3431–3437.
  • Lim H, Hoag SW. Plasticizer effects on physical–mechanical properties of solvent cast Soluplus® films. Aaps Pharmscitech. 2013;14(3):903–910.
  • Chandrappa K, Venkatesha T, Praveen B, et al. Generation of nanostructured MgO particles by solution phase method. Res J Chem Sci. 2015;2231:606X.
  • Kamoun EA, Kenawy E-RS CX, Chen X. A review on polymeric hydrogel membranes for wound dressing applications: PVA-based hydrogel dressings. J Adv Res. 2017;8(3):217–233.
  • Hassan A, Niazi MBK, Hussain A, et al. Development of anti-bacterial PVA/starch based hydrogel membrane for wound dressing. J Polym Environ. 2018;26(1):235–243.
  • Kalia S, Boufi S, Celli A, et al. Nanofibrillated cellulose: surface modification and potential applications. Colloid Polym Sci. 2014;292(1):5–31.
  • Maier JA, Malpuech-Brugère C, Zimowska W, et al. Low magnesium promotes endothelial cell dysfunction: implications for atherosclerosis, inflammation and thrombosis. Biochim Biophys Acta Mol Basis Dis. 2004;1689(1):13–21.

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