Sage Journals: Discover world-class research

Abstract

The most common technique for assessing penetration due to wear in acetabular components is with the aid of the most recent serial radiograph. This approach, which is often termed the uni-radiographic method, has been shown to underestimate the more reliable value of the penetration depth deduced from direct measurement of explanted sockets. In this article the causes of the discrepancies between the two data sets are explored. Ninety-six sockets were available from revision surgery for which both the penetration depth and angle could be measured using the shadowgraphic technique in both the coronal and wear planes. Further, the penetration depth for each of the sockets was also assessed from pre-revision X-rays. A significant discrepancy was observed between the penetration depths measured in the wear plane of the replica ΔP_w and that measured from the radiograph, ΔP_x-ray. The discrepancy was greatest for loose sockets as opposed to those that were still fixed at revision surgery. Using the corresponding data from the shadowgraph measurements, it was possible to deduce that the errors have arisen from the radiographic measurement of wear in the coronal plane and the formula used in calculating ΔP_x-ray. If these errors (which cannot be calculated from the X-ray data alone) were taken into consideration, then the systematic bias between radiographic and shadowgraphic measurement was greatly reduced. The largest portion of the discrepancy was accounted for by wear occurring out of the plane of the radiograph, and this, in general, coincides with the coronal plane. Overall, these results indicate that the accurate measurement of wear from serial radiographs is not possible and that improved performance in terms of accuracy can only be achieved when a three-dimensional system is used. An alternative method for deducing the radio-graphic penetration depth is proposed which, theoretically, negates the error arising from the inaccuracy of the formula.

Keywords

wear hip prosthesis measurement

Get full access to this article

View all access options for this article.

References

Poss

Brick

G. W.

Wright

R.J.

Roberts

D. W.

Sledge

C. B.

The effects of modern cementing techniques on the longevity of total hip arthroplasty. Orthop. Clinics North Am., 1988, 19, 591–598.

Harris

W. H.

Osteolysis and particle disease in hipreplacement—a review. Acta Orthop. Scand., 1994, 65, 113–123.

Mjoberg

Theories of wear and loosening in hip prostheses—wear-induced loosening vs loosening-induced wear—a review. Acta Orthop. Scand., 1994, 65, 361–371.

Howie

D. W.

Haynes

D. R.

Rogers

S. D.

McGee

M. A.

Pearcy

M. J.

The response to particulate debris. Orthop. Clinics North Am., 1993, 24, 571–581.

Willert

H.-G.

Buchhorn

G. H.

Particle disease due to wear of ultrahigh molecular weight polyethylene. In Biological, Material and Mechanical Considerations of Joint Replacement (Ed. Morrey

B. F.

), 1st edition, 1993, pp. 87–102 (Raven Press, New York).

Wroblewski

B. M.

Direction and rate of socket wear in Charnley low-friction arthroplasty. J. Bone Jt Surg, 1985, 67B, 757–761.

Hall

R. M.

Unsworth

Wroblewski

B. M.

Hardaker

Long term changes in the frictional behaviour and wear in implanted Charnley prostheses. J. Bone Jt Surg., 1993, 67B (supplement III), 267.

Charaley

Cupic

The nine and ten year results of the low-friction arthroplasty of the hip. Clin. Orthop., 1973, 95, 9–25.

Clarke

I. C.

Black

Rennie

Amstutz

H. C.

Can wear in total hip arthroplasties be assessed radiographically. Clin. Orthop., 1976, 121, 126–142.

10.

Griffith

M. J.

Seidenstein

M. K.

Williams

Chantey

Socket wear in Charnley low friction arthroplasty of the hip. Clin. Orthop., 1978, 137, 37–47.

11.

Hall

R. M.

Unsworth

Craig

P. S.

Hardaker

Siney

P. S.

Wroblewski

B. M.

Measurement of wear in retrieved acetabular sockets. Proc. Instn Mech. Engrs, Part H, Journal of Engineering in Medicine, 1995, 209 (H4), 233–242.

12.

Ohlin

Selvik

Socket wear assessment: A comparison of three different radiographic methods. J Arthroplasty, 1993, 8, 427–431.

13.

Livermore

Ilstrup

Morrey

Effect of femoralhead size on wear of the polyethylene acetabular component. J. Bone Jt Surg., 1990, 72A, 518–528.

14.

Bankston

A. B.

Ritter

M. A.

Keating

E. M.

Faris

P. M.

Measurement of polyethylene thickness in total hip arthroplasty. J. Arthroplasty, 1994, 9, 533–538.

15.

Hall

R. M.

Unsworth

Siney

Wroblewski

B. M.

Wear in retrieved Charnley acetabular sockets. Proc. Instn Mech. Engrs, Part H, Journal of Engineering in Medicine, 1996, 210 (H3), 197–207.

16.

Wroblewski

B. M.

Siney

Dowson

Collins

S. N.

Prospective clinical and joint simulator studies of a new total hip-arthroplasty using alumina ceramic heads and cross-linked polyethylene cups. J. Bone Jt Surg., 1996, 78B, 280–285.

17.

Wroblewski

B. M.

Revision surgery in total hip arthroplasty: Surgical techniques and results. Clin. Orthop., 1982, 170, 56–61.

18.

Bland

J. M.

Altmaa

D. G.

Statistical methods for assessing agreement between two methods of clinical measurement. Lancet, 1986, 1, 307–310.

19.

StataCorp: Stata Statistical Software, release 4.0 (College Station, TX, Stata Corporation).

20.

Kabo

J. M.

Gebhard

J. S.

Loren

Amstatz

H. C.

In vivo wear of polyethylene acetabular components. J. Bone Jt Surg., 1993, 75B, 254–258.

21.

Redhead

A. L.

Kotcheff

A. C. W.

Porter

M. L.

Taylor

C. J.

Hukins

D. W. L.

An automated method for assessing routine radiographs of patients with THR. Presented at the 21st Annual Conference on

Fixation, Wear and Loosening of Artificial Joints, Leeds, UK, January 1996.

22.

Ilnchmann

Mjoberg

Wingstrand

Measurement accuracy in acetabular cup wear—three retrospective methods compared with roentgen stereophotogrammetry. J. Arthroplasty, 1995, 10, 636–642.

23.

Devane

P. A.

Bourne

R. B.

Rorabeck

C. H.

Hardie

R. M.

Hone

J. G.

Measurement of polyethylene wear in metal-backed acetabular cups: 1. Three-dimensional technique. Clin. Orthop., 1995, 319, 303–316.

Discrepancy between penetration depths derived from radiographic and direct measurement of acetabular components

Abstract

Abstract

Keywords

Get full access to this article

References