Precise acetabular positioning, discrepancy in leg length, and hip offset using a new seven-axis robot-assisted total hip arthroplasty system requires no learning curve: a retrospective study

Ferguson RJ(2018)Hip replacement Lancet 392 1662-1671

Palmer AJ(2022)Total hip arthroplasty with robotic arm assistance for precise cup positioning: a case-control study Orthop Surg 14 1498-1505

Taylor A(1998)Effect of acetabular component orientation on recurrent dislocation, pelvic osteolysis, polyethylene wear, and component migration J Arthroplasty 13 530-534

Guo DH(2021)Instability after total hip arthroplasty and the role of advanced and robotic technology Orthop Clin North Am 52 191-200

Li XM(2022)Robotic-assisted versus manual total hip arthroplasty in obese patients: a retrospective case-control study J Orthop Surg Res 17 1-7

Ma SQ(2021)Robotics versus navigation versus conventional total hip arthroplasty: does the use of technology yield superior outcomes? J Arthroplasty 36 2801-2807

Kennedy JG(2022)Robotic assistance for posterior approach total hip arthroplasty is associated with lower risk of revision for dislocation when compared to manual techniques J Arthroplasty 37 1124-1129

Rogers WB(2016)Robotics in arthroplasty: a comprehensive review J Arthroplasty 31 2353-2363

Soffe KE(2018)Technology-assisted hip and knee arthroplasties: an analysis of utilization trends J Arthroplasty 33 1019-1023

Flick TR(2021)Is there increased value in robotic arm-assisted total hip arthroplasty? a nationwide outcomes, trends, and projections analysis of 4,699,894 cases Bone Joint J 103 1488-1496

Ferguson RJ(2018)Hip replacement Lancet 392 1662-1671

Palmer AJ(2022)Total hip arthroplasty with robotic arm assistance for precise cup positioning: a case-control study Orthop Surg 14 1498-1505

Taylor A(1998)Effect of acetabular component orientation on recurrent dislocation, pelvic osteolysis, polyethylene wear, and component migration J Arthroplasty 13 530-534

Guo DH(2021)Instability after total hip arthroplasty and the role of advanced and robotic technology Orthop Clin North Am 52 191-200

Li XM(2022)Robotic-assisted versus manual total hip arthroplasty in obese patients: a retrospective case-control study J Orthop Surg Res 17 1-7

Ma SQ(2021)Robotics versus navigation versus conventional total hip arthroplasty: does the use of technology yield superior outcomes? J Arthroplasty 36 2801-2807

Kennedy JG(2022)Robotic assistance for posterior approach total hip arthroplasty is associated with lower risk of revision for dislocation when compared to manual techniques J Arthroplasty 37 1124-1129

Rogers WB(2016)Robotics in arthroplasty: a comprehensive review J Arthroplasty 31 2353-2363

Soffe KE(2018)Technology-assisted hip and knee arthroplasties: an analysis of utilization trends J Arthroplasty 33 1019-1023

Flick TR(2021)Is there increased value in robotic arm-assisted total hip arthroplasty? a nationwide outcomes, trends, and projections analysis of 4,699,894 cases Bone Joint J 103 1488-1496