This investigation presents the design and preliminary validation of a single station simulator with biaxial motion and loading designed to mimic the kinematics of the glenohumeral joint during arm abduction in the scapular plane. Although the design of the glenoid holder allows the glenoid component to translate in all three axes, it is primarily loaded axially, which brings it into contact with the oscillating humeral head, but is also loaded superiorly to simulate common subluxation of the humeral head. Simulating arm abduction in the scapular plane simplifies component alignment and removes the need for anterior—posterior loading, thereby creating a stable joint without the need to simulate capsular constraints. In this more physiologically accurate simulator design, the load and motion profiles influence the contact kinematics, but the wear path is ultimately determined by the conformity and constraint designed into the bearing couple. The wear data are determined and correlated with clinically retrieved glenoid components, as well as previously reported in-vitro studies, thus verifying use of the simulator in testing alternative materials and designs. The key design features, as well as the improvements proposed through this study, can be incorporated into the design of test fixtures for any other orthopaedic implant such as the hip, knee, spine, elbow, and finger.
FrichL. H.OdgaardA.DalstraM‘Glenoid bone architecture.’J. Shoulder Elbow Surg.1998, July/Aug, 356–361.
2.
DeshmukhA. V.KorisM.ZurakowskiD.ThornhillT. S.‘Total shoulder arthroplasty: Long-term survivorship, functional outcome, and quality of life.’J. Shoulder Elbow Surg.2005, 14(5), 471–479.
3.
GartsmanG. M.RoddeyT. S.HammermanS. M.‘Shoulder arthroplasty with or without resurfacing of the glenoid in patients who have osteoarthritis.’J. Bone Joint Surg.2000, 82-A(1), 26–33.
4.
ZadehH. G.CalvertP. T.‘Recent advances in shoulder arthroplasty.’Current Orthop.1998, 12(1), 122–134.
5.
TorchiaM. E.CofieldR. H.SettergrenC. R., ‘Total shoulder arthroplasty with the Neer prosthesis: Long term results.’J. Shoulder Elbow Surg.1995, 4(1), 12–20.
6.
BoydA. D.ThomasW. H.ScottR. D.SledgeC. B.ThornhillT. S.‘Total shoulder arthroplasty versus hemiarthroplasty. Indications for glenoid resurfacing.’J. Arthroplasty1990, (5), 329–336.
7.
FranklinJ. L.BarrettW. P.JackinsS. E.MatsenF. E.‘Glenoid loosening in total shoulder arthroplasty. Association with rotator cuff deficiency.’J. Arthroplasty1988, 3(1), 39–46.
8.
WirthM. A.AgrawalC. M.MabreyJ. D.DeanD. D.BlanchardC. R.MillerM. A.RockwoodC. A‘Isolation and characterization of polyethylene wear debris associated with osteolysis following total shoulder arthroplasty.’J. Bone Joint Surg.1999, 81-A(1), 29–37.
9.
‘Standard Specification for Shoulder Prosthesis,’ 2000, American Society for Testing and Materials.
10.
BarbourP. S. M.StoneM. H.FisherJ.‘A hip joint simulator study using simplified loading and motion cycles generating physiological wear paths and rates.’Proc. I MechE, Part H: J. Engineering in Medicine1999, 213(6), 455–467 DOI: 10.1243/0954411991535068.
11.
SmithS. L.UnsworthA.‘Simplified motion and loading compared to physiological motion and loading in a hip joint simulator.’Proc. I MechE, Part H: Journal of Engineering in Medicine2000, 14(3), 233–238. DOI: 10.1243/0954411001535723.
12.
BragdonCR.O'ConnorD. O.LowensteinJ. D.JastyM.SyniutaW. D.‘The importance of multi-directional motion on the wear of polyethylene.’Proc. IMechE, Part H: Journal of Engineering in Medicine1996, 210(3), 157–165. DOI: 10.1243/PIME_PROC_1996_210_408_02.
13.
LuZ.McKellopH.‘Frictional heating of bearing materials tested in a hip joint wear simulator.’Proc. I MechE, Part H: Journal of Engineering in Medicine1997, 211, 101–108. DOI: 10.1243/0954411971534728.
14.
ISO 14242Implants for surgery - Wear of total hip-joint prostheses, 2000, International Standards Organization (ISO).
15.
MüllerD.MartiA.HerzigP.Evaluation of PEEK for shoulder endoprosthetics in a screening and a simulated physiological wear test. Paper presented at 47th Annual Meeting Orthopaedic Research Society2001, San Francisco, California, February 25-28.
16.
McNultyD. E.SwopeS. W.DeffenbaughD.In-vitro wear testing of total shoulder prostheses using conventional and crosslinked polyethylene. Paper presented at Society for Biomaterials 30th Annual Meeting, Memphis, 27 April 2005.
17.
SwieszkowskiW.BerseeH. E. N.van der PijlA. J.BeukersA.OosteromR.Shoulder wear simulator for investigation of wear of glenoid component. Paper presented at Society of Manufacturing Engineers ICCM-14 Conference, San Diego, California, 14–18 July 2003.
18.
ShineJ.The design and construction of a freestanding shoulder joint simulator Unpublished MSc Thesis, University College Dublin1993.
19.
Van der HelmF. C. T.The shoulder mechanism - a dynamic approach Published PhD Thesis, Delft University of Technology1991.
20.
SwieszkowskiW.FrankleM.BerseeH. E. N.KurzydlowskiK. J.In vivo wear of polyethylene glenoid components in total shoulder arthroplasty. Paper presented at European Materials Research Society Fall Meeting, Warsaw University of Technology, Poland, 25 March 2004.
21.
GuntherS. B.GrahamJ.NorrisT. R.RiesM. D.PruittL.‘Retrieved glenoid components: A classification system for surface damage analysis.’J. Arthroplasty2002, 17(1), 95–100.
22.
WeldonE. J.ScarlatM. M.LeeS. B.MatsenF. A.‘Intrinsic stability of unused and retrieved polyethylene glenoid components.’J. Shoulder Elbow Surg.2001, 10(5), 474–481.
23.
HertelR.BallmerF. T.‘Observations on retrieved glenoid components.’J. Arthroplasty2003, 18(3), 361–366.
24.
AnglinC.WyssU. P.PichoraD. R.‘Glenohumeral contact forces.’Proc. IMechEng, Part H: Journal of Engineering in Medicine2000, 214, 637–644. DOI: 10.1243/0954411001535660.
25.
MurphyL. A.Hypothesis-testing for glenoid component innovation in total shoulder arthroplasty Unpublished PhD Thesis, Trinity College Dublin2002.
26.
ASTM F1839 Specification for rigid polyurethane foam for use as a standard material for testing orthopaedic devices and instruments2005, American Society for Testing and Materials.
27.
ReschH.Howmedica anatomic shoulder - operative technique highlights video HAS07 E 09/98 BEN10248 [video]1999, Limerick, Stryker Corporation.
28.
HopkinsA. R.Total shoulder arthroplasty simulation using finite element analysis Unpublished PhD Thesis, ImperialCollege London, United Kingdom2004.
29.
SaikkoV.AhlroosT.‘Wear simulation of UHMWPE for total hip replacement with a multidirectional motion pin-on-disk device: Effects of counterface material, contact area and lubricant.’J. Biomed. Mater. Res.2000, 49(2), 147–154.
30.
WangF. C.JinZ. M.McEwenH. M. J.FisherJ.‘Microscopic asperity contact and deformation of ultrahigh molecular weight polyethylene bearing surfaces.’Proc. IMechE, Part H: Journal of Engineering in Medicine2003, 217(6), 477–490. DOI: 10.1243/09544110360729117.
31.
EdidinA. A.KurtzS. M.The evolution of paradigms for wear in total joint arthroplasty. The role of design, material and mechanics. 18 October 2000. Available from www.uhmwpe.org.
