Abstract
Introduction
Porous coated cups have a low modulus of elasticity that enhances press-fit and a surface that promotes osseointegration as well as permitting modularity. Monoblock ceramic acetabular cups represent a subtype of uncemented cup permitting the use of large femoral heads. The aim of this study was to compare the short-term clinical and radiographic performances of both cups.
Methods
This was a prospective RCT of 86 unilateral THA patients (M: 40, F: 48; mean age: 59.5 ± 10.6) randomized to either a porous-coated, modular metal-on-polyethylene (MoP) acetabular component (pore size 250µm, 45% mean volume porosity)(n=46) or a hydroxyapatite (HA) and titanium-coated monoblock shell with ceramic-on-ceramic(CoC) bearing (pore size 300µm, 48% mean volume porosity & 80nm HA coating thickness)(n=42). All sockets were under-reamed by 1 mm. Two-year radiographs and patient-reported outcomes (PROMs) were available.
Results
Thirty-two (69%) and 28 (6%) gaps were found in modular cup and monoblock groups, respectively (p=0.001). For the modular, 17 filled the gaps, whereas 15 turned into radiolucency; for the monoblock, 1 of the gaps turned into radiolucency at final follow-up (p<0.001). Complete shell-to-bone contact without radiolucent lines was seen in 30 (65%) porous-coated cups and in 41 (98%) HA shells (p<0.001). There were no associations between presence of lucent lines and PROMs (mHHS, WOMAC and UCLA) (p>0.05) in both groups. Modular cup group was an independent predictor of developing lucent lines (OR: 19.1, p= 0.007). No case underwent revision surgery due to acetabular loosening. There were 2 cases of squeaking in CoC monoblock shell with no functional limitations.
Conclusion
Both cups showed successful clinical results at short-term follow-up; however, the porous-coated modular evidenced a significantly higher rate of radiolucent line occurrence, without any association with PROMs. Since these lines indicate the possibility of future cup loosening, longer follow-up is necessary.
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