Association of global sagittal deformity with functional disability two years after total hip arthroplasty

Introduction: The relationship between spinopelvic alignment and functional disability after total hip arthroplasty (THA) has not been fully elucidated despite the growing recognition of its importance on patient-reported outcome measures. We aimed to determine whether global sagittal deformity was associated with post-operative disability. Materials and methods: This prospective analysis was based on 208 THAs that were followed up for 2 years. The Hip Disability and Osteoarthritis Outcome Score-Joint Replacement (HOOS-JR) ranging from a scale of 0 (complete joint disability) to 100 (perfect joint health) was utilised to divide eligible patients into two groups with and without disability, using 70 as the threshold. Multivariate analysis was performed to evaluate the factors associated with disability. To identify the cut-off value of the parameters for predicting disability (HOOS-JR <70/100), we used the receiver-operating characteristic curve. Results: The disability (30 hips) and control (178 hips) groups showed a signicant difference in body height (p = 0.020), pre-operative T1 pelvic angle divided by pelvic incidence (T1PA/PI) (p = 0.018), pelvic incidence minus lumbar lordosis (p = 0.027), post-operative HOOS-JR (p = 0.010), and satisfaction (p = 0.033). On multivariate analysis, the following factors were associated with persistent disability: T1PA/PI >0.2 (odds ratio [OR], 2.11; 95% condence interval [CI], 1.19–4.14; p < 0.001) and height <148 cm (OR, 1.26; 95% CI, 1.09–1.48; p = 0.011). The cut-off value of pre-operative T1PA/PI was >0.19 with a sensitivity of 95% and specicity of 85%. Post-operative satisfaction (p < 0.001) and HOOS-JR (p = 0.023) differed between the two groups when the pre-operative cut-off value was chosen as 0.2. Conclusions: A T1PA/PI >0.2


Introduction
Despite the proven e cacy of total hip arthroplasty (THA), one in 7-14 patients still report persistent dissatisfaction on short-to medium-term follow-up [1][2][3]. Some studies have identi ed the factors affecting patient satisfaction or functional disability, such as pre-operative patient expectations, the degree of improvement, mental health status, comorbidities, and pain relief [1,2,4]. Although patient satisfaction plays an important role in assessing therapeutic effects, the impact of the pre-operative spinopelvic alignment on disability after THA has not been reported, even if only over a short term.
Pertinent issues have been raised about the increased incidence of concurrent hip osteoarthritis (OA) and spinal deformities in aging populations [4]. This is seen in approximately 20%-44% of patients undergoing THA [5,6]. A greater understanding of the association between sagittal spinopelvic alignment and outcomes is also thought to minimise instances of cumbersome dislocation or revision [7,8].
However, little is known about how sagittal spinal alignment affects THA outcomes, especially that of patient disability [4,[9][10][11]. The key to successful THA necessitates a further comprehensive analysis of the in uence of sagittal spinopelvic interactions. This argument is important to evaluate, considering the recognition of the importance of patient-reported outcome measures (PROMs) in today's healthcare system.
Furthermore, most large databases, such as the national joint registry or multi-centre studies, are limited to the analysis of PROMs, implant longevity, or complications [12][13][14][15][16][17]. However, no study has investigated the relationship between spinopelvic alignment and patient disability after THA. A better understanding of patient-related factors is essential to improve the prognosis of THA. Of these factors, resolving the controversy regarding the concurrence of sagittal spinal imbalance and hip OA for clinicians, patients, and policymakers would be particularly important, considering the general super-ageing of our society.
The present study aimed to determine whether global sagittal deformity is associated with post-operative disability.

Participants
The study was approved by the institutional review board of our hospital (approval number 1912) and performed in line with the principles of the Declaration of Helsinki (1964) and its subsequent amendments. All patients provided written informed consent for their participation in the study and the publication of their data. Between January 2015 and December 2018, 285 primary THAs were performed at our institution. Of these, 246 Asian patients (270 hips) completed a minimum follow-up of 2 years and were enrolled into this study. From this group, we excluded 34 patients (58 hips) with a staged bilateral THA history (46 hips), history of spinal surgery ( ve hips), new vertebral compression fracture (three hips) [18], THA with subsequent lumbar spine fusion (two hips), or simultaneous THA (two hips) during the follow-up period. For a few patients, the femoral head was not visible on radiographs and the pelvic incidence (PI) could not be evaluated (four hips) [19]. Ultimately, 208 patients (208 hips) were included in our prospective study (Fig. 1).
Surgical procedure and post-operative protocol All THAs were performed using a direct lateral approach by six experienced arthroplasty surgeons with the patient in the lateral decubitus position [20,21]. Of them, 260 required acetabular structural bone grafting for the dysplastic acetabulum [21]. The highly cross-linked polyethylene anged socket (K-MAX CLHO anged cup, Kyocera Medical, Osaka, Japan) and a cobalt-chromium head with a polished stem (SC stem, Kyocera Medical, Osaka, Japan) were xed using bone cement (CMW Endurance, DePuy, Blackpool, UK). All patients were post-operatively allowed full weight-bearing for the rst 3 months, encouraged as needed, with the use of crutches. This was according to a standardised fast-track protocol, which included standardised physical therapy with mobilisation after drain removal.
Before and at 2 years after THA, we used the modi ed Harris Hip Score (HHS) and the Trendelenburg sign as measures of hip function [22,23]. The incidence of complications was investigated. Data were analysed in a blinded fashion.

Patient-reported outcome measures
We evaluated the patient-reported outcomes pre-operatively and at 2 years post-operatively. The Hip disability and Osteoarthritis Outcome Score, Joint Replacement (HOOS-JR) is a short PROM developed to e ciently evaluate end-stage hip OA in patients undergoing THA. The HOOS-JR is a six-question survey derived from the original 40-question HOOS. Each item on the HOOS-JR is scored from 0 to 28 and then converted into an interval score from 0 (total joint related disability) to 100 (perfect joint health) [23,24]. A 100-mm visual analogue scale (VAS) was used to evaluate hip pain and patient satisfaction. The 100mm VAS-pain and satisfaction score was categorised for analysis from a range of "0" mm (no pain and very satis ed) to "100" mm (worst pain imaginable and completely dissatis ed) [15,23]. The EuroQol 5-Dimension 5-Level (EQ-5D) scale was used as a measure of patient-reported quality of life [23,25].

Radiological evaluations
Spinopelvic alignment was assessed before and at 2 years after THA with the patients in the standing position [26]. Radiographs obtained within 1 month pre-operatively were reviewed for vertebral fractures by an independent arthroplasty surgeon with 10 years of experience. Vertebral fractures were identi ed using a semiquantitative method, by a decrease in the height of the vertebral body >20% [18]. Radiological measures of the sagittal spinopelvic alignment were obtained using a protractor with 1°i ncrements as follows: C7 sagittal vertical axis (SVA), lumbar lordosis (LL), PI, and T1 pelvic angle (T1PA) [4,6,19,22,27] (Fig. 2). The T1PA, accounted for global malalignment and/or compensation through pelvic retroversion, was de ned as the angle between the line from the femoral head axis to the center of the T1 vertebral body and the line from the femoral head to the centre of the S1 superior end plate. T1PA divided by PI (T1PA/PI) >0.2 as an indicator of an angular measure of global sagittal spinal deformity was associated with lower health-related quality of life in patients undergoing treatment for adult spinal deformity [6]. Osseous complications at the reattached fragment were evaluated on anterior-posterior radiographs obtained at 2 years after THA [20,21].
To calculate the reliability of the spinopelvic alignment, three experienced arthroplasty surgeons independently evaluated the radiographic parameters, with each observer completing three randomly selected measurements at a mean interval of 4.1 (range, 3.6 to 4.4) weeks for 15 patients each. All observers had specialized in orthopedic surgery and had >6 years of experience. Additionally, they had at least completed a 1-year fellowship in hip surgery under a mentor. Intra-and inter-rater reliability was calculated with a tolerance error of <2° [28].

Statistical analysis
Statistical analyses were performed using JMP 14 software (SAS Institute Inc, Cary, NC, USA), and pvalues <0.05 were considered statistically signi cant. We de ned a HOOS-JR of 70 as a clinically signi cant cut-off value and divided eligible subjects into the following two groups for comparison: the disability group, who had a post-operative HOOS-JR <70, indicating hip disability; and the control group, who had a HOOS-JR ≥70, indicating no disability [29].
Differences in the measured variables between the two groups were evaluated using the Mann-Whitney U test for continuous variables. Categorical variables were compared using Fisher's exact or chi-squared tests as per the data distribution. To identify independent risk factors for the residual disability group, logistic regression analyses were performed. Factors, such as age, sex, body height, body mass index, spinopelvic parameters, and surgeon experience, were analysed using an exploratory univariate analysis followed by a multivariate analysis [1,4,7,13,[15][16][17]21]. Surgeons were trichotomised into the following groups: orthopaedic specialists <8 years', 8-15 years', and ≥15 years' experience after certi cation [15].
A multicollinearity test was performed with the in ation factor set at <10. Age was included as a confounding factor. To identify the cut-off value of the parameters for predicting disability, we used the receiver-operating characteristic (ROC) curve.
On regression analysis, patient age at the time of surgery was associated with neither pre-operative nor post-operative measures. The independent variables associated with greater disability were T1PA/PI >0.2 (versus a T1PA/PI ≤0.2; odds ratio, 2.11; p < 0.001) and body height <148 cm (versus a height ≥148 cm; odds ratio, 1.26; p = 0.011) ( Table 2).
The diagnostic performance of pre-operative T1PA/PI values was assessed using the ROC curve. The cutoff value of >0.19 had sensitivity of 95% and speci city of 85% (Fig. 3). Even though there was no statistical difference between the two groups pre-operatively, the post-operative measures, such as VASsatisfaction (p < 0.001) and HOOS-JR (p = 0.023), differed when the pre-operative T1PA/PI cut-off value was chosen as 0.2 ( Table 3).

Discussion
The most important nding of our study was that the pre-existence of global sagittal deformity was associated with patient disability after THA at the 2-year follow-up (p = 0.010) ( Table 1). Clinicians should be aware that a spinal sagittal deformity might lead to poor patient-reported outcomes after THA, particularly among patients with a T1PA/PI >0.2 and/or a short stature ( Table 2).
Previous studies that have evaluated sagittal spinopelvic parameters on THA outcomes have employed dislocation and revision as the study end-points [4,9,11]. Other studies have focused on evaluating measures of alignment obtained in sitting and standing postures as dynamic risk factors for dislocation [8,10]. Only a few studies have retrospectively evaluated the effect of pre-operative sagittal spinopelvic alignment on outcomes after THA [22,29]. Ochi et al. found that THA patients with pre-operatively imbalanced sagittal alignment had poorer outcomes according to the modi ed HHS, and pre-operative spinopelvic alignment predicted post-operative hip function ranging from 3 to 26 months [22]. Perrone et al. proposed that patients with a high PI had a signi cantly better HOOS after THA than those with a low PI (56.4° versus 48.7°, p = 0.006) [29]. These studies did not evaluate the relationship between global sagittal deformity and functional disability after THA.
In our study, we used T1PA/PI measures to evaluate the effects of global sagittal deformity on patient disability after THA. The T1PA combines information from both the SVA and pelvic tilt simultaneously to measure the geometry of global spinal deformity more directly [6]. Our results showed that a pre-operative T1PA/PI >0.2 was associated with lower satisfaction after THA (p < 0.001) (Tables 3). Moreover, body height <148 cm (p = 0.011) was an independent risk factor for persistent disability (Table 2). A short stature, de ned by a body height of <148 cm, can lead to an atypical load distribution on the spine and a delay in the process of ossi cation [13]. The proportion of patients with a short stature in our study group was higher than the 0.8% rate reported by Anis et al. [13] (Table 1). We did identify that patients with a T1PA/PI >0.2 were shorter than the others (p = 0.021) ( Table 3).
This study had several limitations. The main limitation was a relatively small study sample, which limited the statistical power of our results. Second, we investigated only cemented implants using a direct lateral approach [20,21]. It may be di cult to apply our results to other populations. We do note that, among Asian populations, the primary indication for THA is secondary OA caused by developmental acetabular dysplasia with a greater prevalence in women than in men [21,22]. In fact, only 12% of our patients were men; therefore, our results cannot be generalised to other implant types, approaches, or ethnicities [4,12,30] (Table 1). Third, the analyses cannot be performed for dynamic changes with the patient in the sitting or supine position [7]. Lastly, our follow-up period was relatively short [14,16]. Additional follow-up information would be required to determine long-term results [14].
Despite these limitations, our study does highlight that several pre-operative factors could affect functional disability 2 years after THA. It could be that their post-operative satisfaction merely re ects general personalities and/or medical expectations, rather than being a proxy for recovery among other things; however, the strength of our study lies in the nding that the pre-operative T1PA/PI was associated with disability after THA. Our ndings are clinically relevant and indicate that spinopelvic sagittal alignment should be precisely evaluated before THA to improve patient satisfaction [11]. The management of these individuals could include perioperative interventions, such as the prescription of an orthosis and/or physical therapy, or involve prediction of subsequent spinal surgery. In our ndings, the focus on PROMs also provides novel information on possible differences among patients with and without a T1PA/PI >0.2; this could be helpful in setting expectations for patients and surgeons before THA (Table 4). Interestingly, the thresholds obtained from the ROC curve in this study was similar to that reported in a previous study [6] (Fig. 3).
In conclusion, global sagittal deformity, especially in patients with a T1PA/PI >0.2 and/or short patient stature, was associated with a higher disability rate at the 2-year follow-up after THA. Clinicians should be aware of the in uence of several pre-operative factors on disability, 2 years after THA. Further studies are warranted to improve our understanding of PROMs, long-term function, and patient satisfaction after THA. *P <.05; represents significant between-group differences. HOOS-JR, the Hip Disability and Osteoarthritis Outcome Score Joint Replacement a Composite measure covering pain and function, scored on a scale ranging from 0 to 100, with a higher value representing improved function and decreased pain. b Between-group comparisons of outcomes pre-operatively (upper row) and at the two-year follow-up (lower row). c Tip and base fractures of the greater trochanter for Types I and II, respectively; and a migration of the osteotomized fragment for Type III [21].  Data are expressed as mean ± standard deviation values or the number of hip involvements (%) as appropriate for the data type.
*P <.05; represents significant between-group differences. HOOS-JR, the Hip Disability and Osteoarthritis Outcome Score Joint Replacement a Patient satisfaction after THA evaluated using a 100-mm VAS for satisfaction with anchors at "0" mm (complete satisfaction) and "100" mm (complete dissatisfaction). b Between-group comparisons of outcomes pre-operatively (upper row) and at the 2-year follow-up (lower row). Table 4 Intra-and inter-observer reliability of the sagittal spinopelvic parameters evaluated using intra-and inter-class correlation coefficients C7 sagittal vertical axis Lumbar lordosis Pelvic incidence T1 pelvic angle Intra-class Correlation Coefficient