A radiopaque polymeric matrix for acrylic bone cements

## Abstract One important issue for the acrylic bone cements concerns the radiopacity, which may be achieved by different ways. In this work, a new bromine‐containing acrylic monomer, the 2‐(2‐bromopropionyloxy) propyl methacrylate (BPPM), was synthesized and proposed to be used for providing radio

## Abstract The use of antibiotic loaded bone cements (ALBCs) has become a common clinical practice in the prevention and treatment of prosthesis‐related infections. However, due to antibiotic resistance, there is a general interest in broadening the antibacterial spectrum of currently used drugs.

## Abstract Radiopacity in the vast majority of the commercially available acrylic bone cements that are used clinically is provided by particles of either BaSO~4~ or ZrO~2~. Literature reports have shown these agents to have a detrimental effect on some mechanical properties of the cements as well

## Abstract Self‐curing poweder‐liquid admixed acrylic systems are used for internal fixation of total hip and total knee prostheses. Gel permeation chromatography revealed that the polymer chain length distributions of set cements were basically unaffected by their curing pressures. However, a dec

## Abstract A proposed specification covering handling characteristics and physical and chemical properties of bone cement composed primarily of methyl methacrylate has been prepared on the basis of data from the authors' studies and from various other sources. Under handling characteristics, requi

## Abstract Vertebroplasty and balloon kyphoplasty are widely used for the augmentation of osteoporosis‐induced vertebral compression fractures. Almost invariably, an injectable poly(methyl methacrylate) (PMMA) bone cement that contains a large amount of BaSO~4~ particles is used in these procedure