Poly Design and Wear

Definition

 

Loss of material from solid surface due to mechanical action

 

Types of wear

 

TKR

- more complex movements compared with THR

- rolling, sliding and rotation

- delamination, pitting and fatigue failure of the poly surface

 

Types

- adhesive wear (most common in TKR)

- abrasive wear

- third body wear

- fatigue wear - delaminating

- wndersurface wear

 

Patient factors

 

Age

Weight

Activity

Inflammatory arthritis

 

UHMWPE

 

Site of wear

 

Frontside

- articular side wear

- conformity

- PS v CR

- mobile v fixed bearing

 

Backside

- undersurface wear

- between baseplate and poly

 

Manufacturing

 

1.   Compression moulding of poly

- moulding the powder into shape required

- less wear in vitro

- 0.05mm wear/yr 

 

2.  Machined poly

- from a poly sheet or bar

- may generate subsurface cracking

- predispose to sublamination

- 0.11mm /yr wear

 

Sterilisation

 

Gamma irradiation in air

- creates oxygen free radicals

- then stored in oxygen rich environment

- created a sub surface band of highly oxidised PE

- decreased mechanical strength

- increased wear

- worsened by long storage times (8-10 years)

 

Modern sterilisation

- ethylene oxidation / gamma irradiation

- oxygen free environment

 

Conformity

 

Conforming prostheses i.e. LCS & IB II approx 1/2 max stress levels of other designs

 

1.  Highly conforming surface stresses are maximal at the surface

 

2.  Increased contact area 

- increases stress distribution

 

Thickness of Poly

 

Thinner poly inserts exhibit greater wear than thicker inserts of the same design

- yield strength of poly exceeded if < 4mm poly

- if add 4mm poly reduce stresses by 27%

- definitely if < 6 mm

- no improvement > 8 mm

 

Backside wear

 

Locking mechanisms

- snap fit

- tongue in groove

 

These mechanisms may lose stability over time

- increase particulate wear

 

Lead to interest in all poly base plate

 

Femoral component

 

Decrease wear at post-cam interface

 

Increase surface smoothness and hardness

- oxinium

 

Surgical Factors

 

Mechanical alignment

- coronal

- sagittal

- rotation

 

All can contribute to abnormal loading and wear