Remodeling and ingrowth of bone in association with the use of uncemented femoral components were examined at two years in a canine total hip-arthroplasty model. Twenty-two dogs received a unilateral uncemented femoral stem that was made of Ti6A14V and was covered with one of three types of titanium porous coating: fiber-metal, beads, or plasma flame-spray. The amount and distribution of ingrowth of bone differed somewhat among the groups at two years, but the patterns of remodeling of bone in the medullary canal and cortex were similar. In general, about 15 to 18 per cent of the cortical bone was lost adjacent to the levels of the stem that were covered with the porous coating. Most of the loss of cortical bone was due to subperiosteal resorption proximally and endosteal resorption at the middle and distal levels of the stem. Increased cortical porosity accounted for only a small fraction of the loss of cortical bone. The amount of medullary bone increased proximally and distally, so that the loss of total bone mass was significantly only at the mid-part of the stem. The amount of loss of cortical bone was similar to that observed in a previous six-month study, suggesting that a steady state was achieved in the present model.