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Received September 13, 2015
Accepted December 28, 2015
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Antibacterial and in vivo reactivity of bioactive glass and poly(vinyl alcohol) composites prepared by melting and sol-gel techniques
Salha Boulila1 2
Hassane Oudadesse1 3
Hafed Elfeki2†
Rim Kallel4
Bertrand Lefeuvre1 3
Mostafa Mabrouk5
Slim Tounsi6
Dhekra Mhalla6
Amany Mostafa5
Khansa Chaabouni7
Fatma Makni-Ayedi7
Allal Barroug8
Tahia Boudawara4
Abdelfattah Elfeki9
1University of Rennes 1, UMR CNRS 6226, Campus de Beaulieu, 35042 Rennes, France 2Laboratory of Sciences Material and Environment, Faculty of Sciences of Sfax, B.P. 1171, Sfax 3000, Tunisia 3, France 4Anatomopathology Laboratory, CHU Habib Bourguiba 3029, University of Sfax, Sfax, Tunisia 5Refractories, Ceramics and Building Materials Department, National Research Centre, 33El Bohouth St. (Former EL Tahrir st.)- Dokki- Giza- P. O. 12622, Egypt 6Biopesticides Team (LPAP), Centre of Biotechnology of Sfax, Sfax University, P. O. Box 1177, Sfax 3018, Tunisia 7Laboratory of Biochemical, University Hospital Habib Bourguiba, Avenue El Fardous, 3029 Sfax, Tunisia 8University of Cadi Ayyad, Marrakech and CNRST Rabat, Maroc, France 9Laboratory of Animal Ecophysiology, Faculty of Sciences of Sfax, University of Sfax, P. O. Box 95, Sfax 3052, Tunisia
Korean Journal of Chemical Engineering, May 2016, 33(5),
10.1007/s11814-015-0298-1
10.1007/s11814-015-0298-1
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Abstract
Bioactive glass particle is used in the repair of bone defects. This material undergoes a series of surface in vivo reactions, which leads to osteointegration. We evaluated the effect of the bioactive glass synthesis, sol-gel (BG(S)) versus melting (BG(M)), associated with polyvinyl-alcohol (PVA) on in vivo bioactivity with biochemical parameters, liver-kidney histological structure and antibacterial in vitro activity. These composites were testified in many bacteria and implanted in ovariectomized rat. The serum and organs (liver and kidney) of all groups, control and treated rats, were collected to investigate the side effects of our composites, BG(S)-PVA and BG(M)-PVA, in comparison with control and ovariectomized rats. Also, the implants, before and after implantation, were prepared for analysis using physicochemical techniques such as Fourier transform infrared spectroscopy and X-ray diffraction. Our results have shown the stability of natremia, kaliemia, calcemia and phosphoremia. The histological structures of liver and kidney in implanted rats are intact compared to control and ovariectomized rats. BG(S)-PVA is characterized by a higher antibacterial effect on negative and positive gram bacteria than BG(M)-PVA. The physicochemical results have confirmed a progressive degradation of BG(S)-PVA and BG(M)-PVA, while replacing the implant by an apatite layer. But this bioactivity of BG(S)-PVA is faster than BG(M)-PVA. We can therefore confirm, on the one hand, the biocompatibility of our two implants and, on the other hand, the beneficial effect of sol-gel synthesis technique versus melting, both on the antibacterial effect and on the rapid formation of layer hydroxyapatite, and consequently on osteogenesis.
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Mortazavi V, Nahrkhalaji MM, Fathi MH, Mousavi SB, Esfahani BN, J. Biomed. Mater. Res. A, 94, 160 (2010)
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Dietrich E, Oudadesse H, Lucas-Girot A, Mami M, J. Biomed. Mater. Res. A, 88, 1087 (2009)
Mabrouk M, Mostapaha AA, Oudadesse H, Mahmoud AA, Gaafar AM, El-Gohary MI, Bioceram. Dev. Appl., S, 1 (2013)
Gao C, Gao Q, Li Y, Rahaman MN, Teramoto A, Abe K, J. Biomed. Mater. Res. A, 100, 1324 (2012)
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Wong SC, Baji A, Gent AN, Compos. Pt. A-Appl. Sci. Manuf., 39, 579 (2008)
Jones JR, J. European Ceram. Soc., 29, 1275 (2009)
Nalla RK, Kinney JH, Ritchie RO, Biomaterials, 24, 3955 (2003)
Sepulveda P, Jones JR, Hench LL, J. Biomed. Mater. Res., 58, 734 (2001)
Peltola T, Jokinen M, Rahiala H, Levanen E, Rosenholm JB, Kangasniemi I, Yli-Urpo A, J. Biomed. Mater. Res., 44, 12 (1999)
Pereira MM, Hench LL, J. Sol-Gel Sci. Technol., 7, 59 (1996)
Li R, Clark AE, Hench LL, J. Appl. Biomater., 2, 231 (1991)
Boyar H, Turan B, Severcan F, J. Spectrosc., 17, 627 (2003)
Jebahi S, Oudadesse H, Xv B, Keskes H, Rebai T, El Feki A, El Feki H, Afr. J. Pharm. Pharmacol., 6, 1276 (2012)
Jones JR, Acta Biomater., 9, 4457 (2013)
Shin SH, Kim HI, J. Ind. Eng. Chem., 7(3), 147 (2001)
Farlay D, Panczer G, Rey C, Delmas PD, Boivin G, J. Bone. Miner. Metab., 28, 433 (2010)
Krishnan V, Lakshmi T, J. Adv. Pharm. Technol. Res., 4, 78 (2013)
Yacoub YI, Amine B, Laatiris A, Wafki F, Znat F, Hajjaj-Hassouni N, Rheumatol. Int., 32, 3143 (2012)
Bretcanu O, Misra S, Roy I, Renghini C, Fiori F, Boccaccini AR, Salih V, J. Tissue. Eng. Regen. Med., 3, 139 (2009)
Kim HG, Fibers Polym., 12, 602 (2011)
Liao H, Qi R, Shen M, Cao X, Guo R, Zhang Y, Shi X, Colloids Surf. B: Biointerfaces, 84, 528 (2011)
Echezarreta-Lopez MM, Landin M, Int. J. Pharm., 453, 641 (2013)
Allan I, Newman H, Wilson M, Biomaterials, 22, 1683 (2001)
Zhang D, Lepparanta O, Munukka E, Ylanen H, Viljanen MK, Eerola E, Hupa M, Hupa L, J. Biomed. Mater. Res. A, 93, 475 (2010)
Nikaido H, J. Bioenerg. Biomembr., 25, 581 (1993)
Nikaido H, Microbiol. Mol. Biol. Rev. MMBR, 67, 593 (2003)
