Fatigue of the cement/bone interface: The surface texture of bone and loosening

## Abstract Despite the widespread use of cement as a means of fixation of implants to bone, surprisingly little is known about the micromechanical behavior in terms of the local interfacial motion. In this work, we utilized digital image correlation techniques to quantify the micromechanics of the

## Two recent were published describing experimentation defining the fracture toughness and fatigue behavior of Surgical Simplex\* P and Zimmer bone cement. A major conclusion drawn from these studies was that "when fabricated at 5 psi, Zimmer acrylic bone cement shows superior fracture toughness

## Abstract The beneficial effect of porosity reduction on the fatigue life of bone cement has been demonstrated in numerous experimental studies. Clinically, however, it seems that the beneficial effect of porosity reduction of cement around total hip replacement components can only be found in la

## Abstract Loss of fixation at the cement–bone interface is known to contribute to aseptic loosening, but little is known about the mechanical damage response of this interface. An in vitro study using cement–bone specimens subjected to shear fatigue loading was performed, and the progression of s

## Abstract Over the past three decades or so, a very large volume of literature has been generated on the impact of an assortment of variables on the fatigue lifetimes of a large number of acrylic bone‐cement formulations. In the present article, this literature is examined critically to reveal ar