Abstract
Corrosion at metal/metal modular interfaces in total hip arthroplasty was first described in the early 1990s, and the susceptibility of modular tapers to mechanically assisted crevice corrosion (MACC), a combination of fretting and crevice corrosion, was subsequently introduced. Since that time, there have been numerous reports of corrosion at this taper interface, documented primarily in retrieval studies or in rare cases of catastrophic failure.
We have reported that fretting corrosion at the modular taper may produce soluble and particulate debris that can migrate locally or systemically, and more recently reported that this process can cause an adverse local tissue reaction (ALTR). Based on the type of tissue reaction and the presence of elevated serum metal ion levels, this process appears quite similar to ALTRs secondary to metal on metal bearing surfaces. While modularity in total hip replacement has demonstrable clinical benefits, modular junctions increase the risk of tribocorrosion and the types of ALTRs seen in patients with accelerated metal release from metal-on-metal bearing total hip replacements. The use of modular connections should be minimised in routine primary total hip replacement to avoid tribocorrosion-induced ALTRs.
