TaralaMJanssenDTelkaA. Experimental versus computational analysis of micromotions at the implant-bone interface. Proc IMechE, Part H: J Engineering in Medicine2011; 225(1): 8–15.
2.
MontiLCristofoliniLVicecontiM. An in-vitro quantitative analysis of the primary stability of uncemented hip stems. Artificial Organs1999; 23(9): 851–859.
3.
BaleaniMCristofoliniLToniA. Initial stability of a new hybrid fixation hip stem experimental measurement of implant-bone micromotion under torsional load in comparison with cemented and cementless stems. J Biomed Mater Res2000; 50(4): 605–615.
4.
CristofoliniLSaponara TeutonicoAMontiL. Comparative in vitro study on the long term performance of cemented hip stems: validation of a protocol to discriminate between “good” and “bad” designs. J Biomech2003; 36: 1603–1615.
5.
CristofoliniLSaponara TeutonicoASavigniP. Pre-clinical assessment of the long-term endurance of cemented hip stems. Part 1: effect of daily activities - a comparison of two load histories. Proc IMechE, Part H: J Engineering in Medicine2007; 221 (6): 569–584.
6.
MontiLCristofoliniLToniA. In vitro testing of the primary stability of the VerSys enhanced taper stem: a comparative study in intact and intraoperatively cracked femora. Proc IMechE, Part H: J Engineering in Medicine2001; 215(1): 75–83.
7.
MontiLCristofoliniLVicecontiM. Interface biomechanics of the Anca Dual Fit hip stem: an in vitro experimental study. Proc IMechE, Part H: J Engineering in Medicine2001; 215: 555–564.
8.
VicecontiMCristofoliniLToniA. Design revision of a partially cemented hip stem. Proc IMechE, Part H: J Engineering in Medicine2001; 215: 471–478.
9.
VicecontiMPancantiAVariniE. On the biomechanical stability of cementless straight conical hip stems. Proc IMechE, Part H: J Engineering in Medicine2006; 220(3): 473–480.
10.
CristofoliniLEraniPSaponara TeutonicoA. Partially cemented Anca DualFit hips do not fail in simulated active patients. Clin Biomech2007; 22(2): 191–202.
11.
CristofoliniLEraniPGruppT. In vitro long-term fatigue endurance of the secondary “Cement Injection Stem” hip prosthesis. Artificial Organs2007; 31(6): 441–451.
12.
CristofoliniLEraniPSavigniP. Pre-clinical assessment of the long-term endurance of cemented hip stems. Part 2: in-vitro and ex-vivo fatigue damage of the cement mantle. Proc IMechE, Part H: J Engineering in Medicine2007; 221(6): 585–599.
13.
CristofoliniLEraniPSavigniP. Increased long-term failure risk associated with excessively thin cement mantle in cemented hip arthroplasty: a comparative in vitro study. Clinical Biomech2007; 22(4): 410–421.
14.
Bialoblocka-JuszczykECristofoliniLEraniP. Effect of long-term physiological activity on the long-term stem stability of cemented hip arthroplasty: in vitro comparison of three commercial bone cements. Proc IMechE, Part H: J Engineering in Medicine2010; 224(1): 53–65.
15.
BrittonJRLyonsCGPrendergastPJ. Measurement of the relative motion between an implant and bone under cyclic loading. Strain2004; 40(4): 193–202.
16.
TaylorJR. Introduction to error analysis. The study of uncertainties in physical measurements. Sausalito, CA, USA: University Science Books, 1997.
