Initial stability of cementless acetabular cups using robotic‐assisted total hip arthroplasty compared with the conventional manual technique: An in vitro biomechanical study

Abstract

AbstractBackgroundThe aim of this study is to determine whether the initial stability of a cementless cup with the Mako system is superior to that of a conventional manual technique using bone models.MethodsThe bone models were prepared using a polyurethane foam block. Two hemispherical cementless cups (highly porous titanium cup [Trident II Tritanium, Stryker] and hydroxyapatite‐coated titanium cup [Trident HA, Stryker]) were implanted using the Mako system. The torque of the cups was measured by rotational and lever‐out torque testing and compared with that of a conventional manual technique.ResultsThe two types of cups that were implanted using the Mako system demonstrated significantly higher mean rotational torque than that of the manual technique (p < 0.01, p = 0.01, respectively).ConclusionsThis study provides the advantage of the initial stability of a cementless hemispherical cup implanted by the Mako system compared with that of the conventional manual technique.