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Abstract
Despite the recognized success and worldwide acceptance of total joint arthroplasty,
wear is a major obstacle limiting the longevity of implanted UHMWPE components. Efforts
to solve the wear problem in UHMWPE have spurred numerous detailed studies into the
structure, morphology, and mechanical properties of the polymer at every stage of
its production from original resin into stock material and final fabricated form.
Scientific developments in this field are occurring at an accelerating rate, and periodic
review of UHMWPE technology is therefore increasingly necessary. The present article
provides a four-part comprehensive review of technological advancements in the processing,
manufacture, sterilization, and crosslinking of UHMWPE for total joint replacements.
The first part of this article describes the recently updated nomenclature of UHMWPE,
including the process of resin production and conversion to stock material. The second
part outlines the methods of manufacturing UHMWPE into joint replacement components
and provides overviews of alternate forms of UHMWPE, namely carbon-fiber reinforced
UHMWPE (Poly II) and UHMWPE recrystallized under high temperature and pressure (Hylamer).
The third part summarizes the sterilization and degradation of UHMWPE. Newly developed
methods for accelerating the oxidation of UHMWPE after sterilization (for preconditioning
of test specimens), as well as methods for quantifying the oxidation of UHMWPE, are
also discussed. Finally, the fourth part reviews the development and properties of
crosslinked UHMWPE, a promising alternate biomaterial for total joint replacements.