Polymethylmethacrylate, a Viable Alternative for Cranial Prostheses
Keywords:
Polymethyl methacrylate, characterized, cranioplasties
Abstract
Termocurable Polymethyl methacrylate (PMMA) used in cranial reconstructions is observed with favourable experiences, data on the release of residual monomer and its interaction on tissue level have been reported in Scientifics Reports, demonstrating null processes of inflammation either by, interaction of lysosomes of bone cells or some other cell line. However, an incorrect polymerization process and its elaboration, will make the release of residual monomer higher, and thus be affected patient’s health.
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References
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Brommeland T, Rydning PN, Pripp AH, Helseth E. Cranioplasty complications and risk factors associated with bone flap resorption. Scand J Trauma Resusc Emerg Med. 2015;23(1):75.
Kumar AR, Bradley JP, Harshbarger R, Stevens F, Bell R, Moores L, et al. Warfare-related craniectomy defect reconstruction: early success using custom alloplast implants. Plast Reconstr Surg. 2011 Mar;127(3):1279–87.
Shah AM, Jung H, Skirboll S. Materials used in cranioplasty: a history and analysis. Neurosurg Focus. 2014 Apr;36(4):E19.
Rotaru H, Stan H, Florian IS, Schumacher R, Park YT, Kim SG, et al. Cranioplasty with custom-made implants: Analyzing the cases of 10 patients. J Oral Maxillofac Surg. 2012 Feb;70(2):e169–76.
Feroze AH, Walmsley GG, Choudhri O, Lorenz HP, Grant GA, Edwards MSB. Evolution of cranioplasty techniques in neurosurgery: historical review, pediatric considerations, and current trends. J Neurosurg. 2015 Oct;123(4):1098–107.
Khader BA, Towler MR. Materials and techniques used in cranioplasty fixation: A review. Mater Sci Eng C. 2016 Sep;66:315–22.
Frazer RQ, Byron RT, Osborne PB, West KP. PMMA: An Essential Material in Medicine and Dentistry. J Long Term Eff Med Implants. 2005;15(6):629–39.
Gilmour D. The right chemistry. MER - Mar Eng Rev. Doubleday Canada; 2006;(SEPT.):28.
Rueggeberg FA. From vulcanite to vinyl, a history of resins in restorative dentistry. J Prosthet Dent. 2002 Apr;87(4):364–79.
Solórzano-Lemus F, Venegas-Lancón RD, Moreno-Maldonado V L-MS. Determinación de monómero residual de metacrilato de metilo en 3 diferentes marcas comerciales para base de dentaduras por cromatografía de gases. Rev Odontológica Mex. 2010;14(2):91–8.
Pawar E. A Review Article on Acrylic PMMA. IOSR J Mech Civ Eng. 2016;13(2):1–4.
Gad MM, Fouda SM, Al-Harbi FA, Näpänkangas R, Raustia A. PMMA denture base material enhancement: A review of fiber, filler, and nanofiller addition. Vol. 12, International Journal of Nanomedicine. 2017. p. 3801–12.
Phillips. Ciencia de los materiales dentales. Anusavice Elsevier. 2004. p. 34.
Hamedi-Rad F, Ghaffari T, Rezaii F, Ramazani A. Effect of nanosilver on thermal and mechanical properties of acrylic base complete dentures. J Dent (Tehran). 2014 Sep;11(5):495–505.
Köroğlu A, Şahin O, Kürkçüoğlu I, Dede DÖ, Özdemir T, Hazer B. Silver nanoparticle incorporation effect on mechanical and thermal properties of denture base acrylic resins. J Appl Oral Sci. 2016 Dec;24(6):590–6.
Gupta A, Tewari R. Evaluation and comparison of transverse and impact strength of different high strength denture base resins. Indian J Dent Res. Medknow Publications and Media Pvt. Ltd.; 2016;27(1):61.
Akin H, Tugut F, Polat ZA. In Vitro Comparison of the Cytotoxicity and Water Sorption of Two Different Denture Base Systems. J Prosthodont. 2015 Feb;24(2):152–5.
Pfeiffer P, Rosenbauer E-U. Residual methyl methacrylate monomer, water sorption, and water solubility of hypoallergenic denture base materials. J Prosthet Dent. 2004 Jul;92(1):72–8.
Gad MM, Fouda SM, ArRejaie AS, Al-Thobity AM. Comparative Effect of Different Polymerization Techniques on the Flexural and Surface Properties of Acrylic Denture Bases. J Prosthodont. 2017 May;
Sodagar A, Kassaee MZ, Akhavan A, Javadi N, Arab S, Kharazifard MJ. Effect of silver nano particles on flexural strength of acrylic resins. J Prosthodont Res. 2012 Apr;56(2):120–4.
Ghaffari T, Barzegar A, Hamedi Rad F, Moslehifard E. Effect of Nanoclay on Thermal Conductivity and Flexural Strength of Polymethyl Methacrylate Acrylic Resin. J Dent. 2016 Jun;17(2):121–
Danesh G, Hellak T, Reinhardt K-J, Végh A, Schäfer E, Lippold C. Elution characteristics of residual monomers in different light- and auto-curing resins. Exp Toxicol Pathol. 2012 Nov;64(7–8):867–72.
Rai M, Yadav A, Gade A. Silver nanoparticles as a new generation of antimicrobials. Vol. 27, Biotechnology Advances. 2009. p. 76–83.
Gad MM, Rahoma A, Al-Thobity AM, ArRejaie AS. Influence of incorporation of ZrO2 nanoparticles on the repair strength of polymethyl methacrylate denture bases. Int J Nanomedicine. 2016;11:5633–43.
Published
2018-12-05
How to Cite
Parra-Castañeda, R., Rivera-Gonzaga, J. A., Ancona-Meza, A., Monjarás Ávila, A., López Morales, S., & Zamarripa Calderón, J. (2018). Polymethylmethacrylate, a Viable Alternative for Cranial Prostheses. Educación Y Salud Boletín Científico Instituto De Ciencias De La Salud Universidad Autónoma Del Estado De Hidalgo, 7(13), 49-53. https://doi.org/10.29057/icsa.v7i13.3463
Section
Reportes de intervención y/o prácticas
