Original scientific paper
The Role of Residual Monomer in PMMA Powder and Methods of Polymerization in the Finding of Residual Monomer in Poly(methylmethacrylate) Denture Base
Vjekoslav Jerolimov
; Department of Removable Prosthodontics, Zagreb University School of Dentistry, Zagreb, Croatia
Jurica Krhen
; Milan Milanović Dental Polyclinic, Zagreb, Croatia
Josip Bešić
; Zagreb Institute of Health Care, Zagreb, Croatia
Abstract
The amount of residual monomer in methylmethacrylate resins used for denture bases is directly dependent on the polymerization procedure chosen. Residual monomer in PMMA powder has not yet been fully clarified. The aim of this study was to determine the amount of residual monomer in some PMMA powders used for denture bases. The study included determination o f the amount of residual monomer in specimens polymerized by various methods of polymerization, attepting to test the interrelationship between the finding of residual monomer in PMMA powder and the respective
group of heath-cured resin specimens. Materials from the group of poly (methylmethacrylate) resins type I, class 1 (1 — Biocry I R, Galenika, Belgrade—Zemun, and 2 — Major Base R, Major Dental Industry, Torino) were used in the study. Experimental specimens were divided into two groups: (1) original PMMA powders; and (2) polymerized specimens obtained by two short curing cycles (a — fractional, classical, heterogeneous polymerization; b — using the Prestherm, Bego device) and three long-curing cycles of polymerization (a — 14 h at 70°C; b — 7 h at 70°C and 3 h at 100°C; and c — 14 h at 70°C and 3 h at 100°C). By 2 g of each powder I specimen were extraced with methanol for residual monomer to be demonstrated by a modified method of gas chromatography on a device manufactured by Perkin Elmer Co. (Norwalk, Conn., USA).
Original PMMA powders contained a high but varying percentage of residual monomer. Polymerized specimens had significantly lower values of residual monomer as compared to PMMA powders. Short-curing cycles were observed to leave quite high amounts of residual monomer behind, these amounts being lower when an original PMMA powder had a lower value of free monomer, which may be of some practical importance. A polymerization cycle taking7 h at 70°C and 3 h at 100°C resulting in negligible amounts of residual monomer is thus recommended.
Keywords
residual monomer; PMMA powder; short-cycle polymerization; long-cycle polymerization; gas chromatography
Hrčak ID:
100776
URI
Publication date:
15.1.1991.
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