Influence of the activator in an acrylic bone cement on an array of cement properties

In all acrylic bone cement formulations in clinical use today, radiopacity is provided by micron-sized particles (typical mean diameter of between about 1 and 2 microm) of either BaSO(4) or ZrO(2). However, a number of research reports have highlighted the fact that these particles have deleterious

## Abstract It has been suggested in the literature that a lower polymerization rate of an acrylic bone cement is favorable for the __in vivo__ longevity of a cemented arthroplasty. The present work was a study of the influence of three changes in the composition of an acrylic bone cement (when tak

It has been shown that preheating the femoral stem prior to insertion minimizes interfacial porosity at the stem-cement interface. In this study, the effects of methylmethacrylate monomer temperature prior to mixing on the properties of stem-cement interface and cement polymerization were evaluated

It has been proposed that creep of acrylic bone bone cement. ''Delayed'' injection time of acrylic bone cement cement may contribute to loosening of cemented total joint increased creep by approximately 5 times in 24 h compared replacements. If true, it is important that factors affecting to specime

A review about the accelerating e †ect of tertiary aromatic amines used as activator in the benzoyl peroxide/amine system for the curing of acrylic resins is presented. The kinetics, mechanism and activation energy of the reaction are considered, together with some toxicity, residuals and leaching d

## Abstract Infection of periprosthetic sites of total joint replacements has been widely reported. Although, by most accounts, the incidence of such events is low, the problem can prove to be expensive to remedy. In the case of cemented arthroplasties, a common management modality is the use of an