Abstract
Introduction
The effect of spine-pelvis position and motion on hip arthroplasty function has been increasingly appreciated in the past several years. Some authors have stressed the importance of using precision technologies for component placement while others have advocated the use of dual mobility articulations or large bearings and lateralized liners in patients with fused lumbar spines. The current study assesses the prevalence of stiff and fused spines in an elective total hip arthroplasty population.
Methods
One hundred and forty-nine patients undergoing elective total hip arthroplasty were assessed preoperatively with CT (computed tomography) and functional radiographs for the purpose of CT based planning and intraoperative navigation of total hip arthroplasty (HipXpert System, Surgical Planning Associates, Inc., Boston, MA). The functional radiographs included standing and sitting lateral images (EOS Imaging, SA, Paris, France). Patients were assessed for supine, standing and sitting pelvic tilt (PT) and change in sacral slope (SS). Spine stiffness was defined by a change in sacral slope (SS) of less than or equal to 10 degrees on the standing to sitting lateral radiographs according to Luthringer et al JOA 2019.
Results
Of these 149 patients, 2 (1.5%) had been previously treated by instrumented lumbar fusion. Thirty-nine additional patients (26.1%) had stiff spines as defined by a change in sacral slope of less than 10 degrees from standing to sitting. The mean supine PT measured by CT scan was 3.46 degrees of anterior PT which is similar to previously described in the literature. The mean supine PT in stiff spine patients measured 1.5 degrees of anterior tilt which was not statistically significant. The mean standing pelvic tilt measured 0.0 degrees in the all patients and −4.3 degrees in stiff spine patients. The mean sitting pelvic tilt was −18.9 degrees in the entire cohort and −11.3 degrees in the stiff spine patients. The difference in pelvic tilt between these two groups was statistically significant with p-values of 0.002 and 0.006, respectively.
Discussion and Conclusion
Although the incidence of formal instrumented spine fusion was low in this cohort (1.5%), the incidence of spine stiffness was very high at 27.6%. Given that hip instability has been decreasing owing to a variety of techniques including larger bearings, intraoperative radiography, and intraoperative precision technologies, advocacy for the use of dual mobility implants simply for a history of spine fusion does not appear to be logical given that most stiff spines have not had a surgical fusion.