Risk Factors for Cement Loosening after Vertebroplasty for Osteoporotic Vertebral Fracture with Intravertebral Cleft: A Retrospective Analysis
Article information
Abstract
Study Design
Retrospective case-control study.
Purpose
To evaluate the primary outcomes and radiographic results of percutaneous vertebroplasty (PVP) in patients with singlelevel osteoporotic vertebral fracture (OVF) with intravertebral cleft (IVC) to identify the risk factors for cement loosening after PVP.
Overview of Literature
PVP is a widely accepted method for managing painful OVF; however, cement loosening occasionally occurs with poor outcomes.
Methods
This retrospective study involved 195 patients treated with PVP for single-level OVF with IVC. Six months thereafter, the primary outcomes were evaluated using the Visual Analog Scale (VAS) for back pain and the modified Oswestry Disability Index. Computed tomography was conducted to detect cement loosening. Possible risk factors, such as age, sex, wedging angle, intravertebral instability, Parkinson’s disease, spinous process fracture, ankylosing spinal hyperostosis, split vertebrae, and adjacent intervertebral vacuum, were assessed.
Results
Forty-nine patients (25%) experienced cement loosening 6 months after PVP. The mean VAS scores were significantly higher in patients with cement loosening than in those without (50 vs. 26 mm, respectively; p <0.01). Cement loosening was closely associated with intravertebral instability (odds ratio [OR], 1.20; 95% confidence interval [CI], 1.04–1.40; p =0.015), Parkinson’s disease (OR, 54.31; 95% CI, 4.47–659.53; p =0.002), spinous process fracture (OR, 7.11; 95% CI, 1.65–30.60; p =0.009), and split vertebrae (OR, 11.59; 95% CI, 1.64–82.02; p =0.014).
Conclusions
Patients with cement loosening experienced worse back pain than those without cement loosening. The important risk factors that influenced cement loosening after PVP were high intravertebral instability, Parkinson’s disease, spinous process fracture, and split vertebrae.
Introduction
Osteoporotic vertebral fractures (OVFs) are becoming increasingly common in medical practice owing to the aging of the population. OVFs usually heal without severe pain or neurologic complications. However, rigorous follow-up studies have shown that some OVFs can lead to severe deterioration in health and quality of life owing to persistent debilitating back pain and reduced activity [1]. In particular, patients with OVF with an intravertebral cleft (IVC) experience chronic back pain [2-4]. Intravertebral instability caused by IVC is clinically significant in painful cases of OVF [5].
Percutaneous vertebroplasty (PVP) is a minimally invasive and generally effective method of vertebral augmentation for treating painful OVF with IVC [6-10]. Early clinical improvement has been observed following this procedure in more than 80% of the patients [11]. However, some patients experience cement loosening with recurrence of back pain after vertebral augmentation [12-14]. An accurate understanding of the factors leading to cement loosening after PVP would help surgeons and patients make well-informed decisions about whether to perform the procedure and would also enable more accurate predictions of outcomes. However, few studies have reported factors that may influence the results of PVP [15-17]. Here, we aimed to evaluate the primary outcomes and radiographic results of PVP for patients with singlelevel OVF with IVC between patients with and without cement loosening to identify the associated risk factors.
Materials and Methods
1. Patient selection
Between 2003 and 2010, we investigated patients with single-level OVF with IVC detected using preoperative radiography, computed tomography (CT), and magnetic resonance imaging (MRI) at JA Hiroshima General Hospital. The selection criteria for PVP were as follows: (1) minimum level of back pain (Visual Analog Scale [VAS]; range, 0–100 mm) ≥40 mm, refractory to standard medical treatment, comprising bed rest, analgesic administration, and/or external back bracing for ≥3 months and (2) radiographic evidence of single-level OVF with IVC consistent with the spinal level of local tenderness. Patients with spinal cancer, active infection, and/or uncorrectable bleeding disorders; those who did not provide informed consent; and those unlikely to comply with direct followup were excluded. This study was approved by the institutional review board of JA Hiroshima General Hospital (approval no., E-1098), and prior to study participation, all patients provided written informed consent to undergo PVP.
2. Percutaneous vertebroplasty procedure
All PVPs were performed by experienced spine surgeons using biplane fluoroscopic guidance under general anesthesia. Two 14G bone needles were inserted into the IVC using the bilateral transpedicular approach. Before injecting bone cement, the capacity of the IVC was measured using contrast medium after performing a “cavitygram.” Residual contrast medium was washed out with normal saline to adequately clear the IVC. By injecting the same volume of polymethylmethacrylate bone cement as that of the IVC, the injection was safely administered using a one-sided needle without exerting additional pressure [9,10].
3. Clinical and radiological assessments
Six months after PVP, back pain and low back-specific physical function were assessed as per the VAS score and the American Academy of Orthopedic Surgeons MODEMS version of the Oswestry Disability Index (ODI; range, 0%–100%) [18,19]. Cement loosening was identified as a low-density area between the vertebral body and the cement on CT at 6 months after PVP (there was no evidence of cement loosening immediately after PVP) (Fig. 1A, B).
Risk factors that could possibly affect cement loosening were retrospectively reviewed, and were as follows: (1) clinical parameters: age, sex, and Parkinson’s disease and (2) radiological parameters: wedging angle of the fractured vertebrae (measured as the angle between cephalic upper and lower endplates on a lateral radiogram with the patient in the sitting position) (Fig. 1C), intravertebral instability of the affected vertebra (measured as the difference between wedging angle on lateral radiograms with the patient in the sitting and supine positions) (Fig. 1C, D), spinous process fracture (Fig. 1E), ankylosing spinal hyperostosis, split vertebrae (Fig. 1F), and adjacent intervertebral vacuum.
The patients were followed-up directly and periodically after PVP. Orthopedic surgeons not involved in the treatment performed the follow-up and clinical examinations to assess the neurologic recovery and functional status. The VAS and ODI questionnaires were self-administered to avoid interviewer bias.
4. Statistical analyses
Using the Wilcoxon signed-rank test, Mann–Whitney U-test, and/or Bonferroni–Dunn post-hoc test, clinical and radiographic parameters between patients with or without cement loosening were compared to analyze the risk factors that cause cement loosening after PVP.
Associations between cement loosening and preoperative parameters were analyzed using multivariate logisticregression analyses. Statistical significance was defined at p<0.05 for a two-sided hypothesis. Mean values are presented as ±standard deviation values. All data analyses were performed using SPSS ver. 16.0 (SPSS Inc., Chicago, IL, USA).
Results
1. Baseline characteristics of the patients
Total 195 patients (50 men, 145 women) with single OVF with IVC were enrolled. Mean age at diagnosis was 77 years (range, 57–93 years). Mean time-period from the onset of acute fracture to the PVP procedure was 38 weeks (range, 12–144 weeks). OVF with IVC was detected from the T8 to L5 level and occurred at the thoracolumbar junction in 80% of the patients. The mean VAS and ODI scores were 87±14 mm and 59.1%±7.2% before PVP and 31±3 mm and 37.0%±5.1% at 6 months after PVP, respectively (Fig. 2).
2. Assessment of preoperative parameters
Of the 195 patients with OVF, 41 (20.5%) had spinous process fracture, 13 (6.7%) had Parkinson’s disease, 21 (10.8%) had a split vertebra, 18 (9.2%) had ankylosing spinal hyperostosis, and 29 (14.9%) had an adjacent intervertebral vacuum. Forty-nine patients (25%) exhibited cement loosening 6 months after PVP. Five patients underwent additional instrumented surgery because of pain and/or motor involvement. Six months after PVP, the mean VAS in the patients with and without cement loosening was 50±25 mm and 26±27 mm, respectively (Table 1). Thus, the mean VAS was significantly higher in the patients with cement loosening than in those without (p<0.01).
3. Analyses of the correlation between cement loosening and preoperative parameters
Intravertebral instability was significantly higher (p<0.05) in patients with cement loosening, whereas Parkinson’s disease (p<0.01), spinous process fracture (p<0.01), split vertebrae (p<0.01), and adjacent intervertebral vacuum (p<0.05) were significantly more common in the nonloosening group (Table 2). Multivariate logistic-regression analyses revealed significant association between cement loosening and Parkinson’s disease (odds ratio [OR], 54.31; 95% confidence interval [CI], 4.47–659.53; p<0.01), split vertebrae (OR, 11.59; 95% CI, 1.64–82.02; p<0.05), spinous process fracture (OR, 7.11; 95% CI, 1.65–30.60; p<0.01), and intravertebral instability (OR, 1.20; 95% CI, 1.04–1.40; p<0.05) (Table 3).
Discussion
We investigated the clinical and radiographic outcomes of PVP for single-level OVF with IVC. Patients with cement loosening after PVP experienced worse back pain than those without cement loosening did. Our results indicated that cement loosening was associated with preoperative intravertebral instability, Parkinson’s disease, spinous process fracture, and split vertebrae.
OVF is becoming an increasingly significant global socio-economic problem owing to the rapid growth of population. The presence of IVC reportedly leads to prolonged back pain [2-4]. PVP is reportedly useful for pain relief in the treatment of OVF with IVC [6-10]. However, few studies have assessed the factors that may influence the outcomes of PVP [15-17,20,21]. Extensive anterior vertebral height restoration, solid lump filling cement, multiple symptomatic vertebrae, American Society of Anesthesiologists status 1, presence of signal changes on MRI, vertebral body collapse to <70%, and small IVC have been suggested as factors that may lead to poor outcomes [13,15,20,21]. However, the precise factors that influence the outcomes after vertebroplasty for OVF remain controversial. Our results indicated that high intravertebral instability, Parkinson’s disease, spinous process fracture, and split vertebrae are the risk factors for predicting intravertebral cement loosening after PVP for OVF with IVC.
Some previous studies have reported that greater height restoration is a risk factor for re-fracture of the cemented vertebrae [20,21]. Lin et al. [21] reported that re-fracture of the cemented vertebrae after vertebroplasty occurred in 63% of all osteoporotic patients and that significant anterior vertebral height restoration increased the risk of subsequent fractures in the cemented vertebrae. Vertebroplasty may lead to load shift to the anterior, thus causing re-fracture of the cemented vertebrae. In the PVP procedure, the decision regarding the restoration of the affected vertebrae is made when the patient is in the prone position during surgery. Consequently, vertebral height restoration is strongly correlated with preoperative intravertebral instability of the fractured vertebrae. Intravertebral instability reportedly reflects clinical symptoms [3,4]. In our study, large intravertebral instability was one of the risk factors for intravertebral cement loosening after PVP. Therefore, it is important to precisely evaluate preoperative intravertebral instability before PVP.
Genever et al. [22] reported that the risk of bone fracture was considerably high in patients with Parkinson’s disease than in those with other medical conditions. When a spinal fracture occurs in patients with Parkinson’s disease, surgical treatment is challenging because such patients have poor bone quality and several comorbidities, which lead to a high complication rate [23-25]. The surgical procedure for OVF in patients with Parkinson’s disease needs rigid long fusion with instrumentation [26-28]. Babat et al. [23] reported the requirement of revision surgery in 12 of the 14 patients with spinal surgery complicated by Parkinson’s disease and concluded that the increased risk is attributable to persistent kyphosis or instability at the operated or adjacent vertebral levels. Few studies have examined PVP for treating vertebral fractures associated with Parkinson’s disease. Our data indicated that patients with OVF and Parkinson’s disease tend to experience intravertebral cement loosening after PVP, thereby warranting careful postoperative management.
Generally, vertebral fractures associated with the involvement of posterior elements, such as a spinous process fracture, are more unstable, and may also require surgical instrumentation [29]. To our knowledge, to date, only one study has assessed the presence of spinous process fractures in elderly patients with osteoporotic vertebral body fractures using MRI or CT and reported a prevalence of 3.5% in these patients [30]. In the current study, 20.5% of the patients had spinous process fractures. This difference in prevalence may be attributable to the fact that the former study included patients with acute vertebral fractures, and majority of these patients heal without ongoing symptoms. Contrarily, our study included patients with painful chronic vertebral pseudoarthrosis. It is possible that the nonunion of the vertebral body fracture may lead to an insufficiency-type fracture of the spinous process. Another possibility is that OVF with spinous process fractures may lead to pseudoarthrosis. Here, spinous process fracture was one of the main risk factors for cement loosening after PVP. OVF patients with spinous process fractures may show greater instability, and PVP alone could not maintain the posterior column stability.
Therefore, although the presence of spinous process fractures in OVF has not received much attention thus far, our findings indicate that it may represent a prognostically important factor that should be considered during treatment planning. There are certain limitations to the present study. First, not all patients with cement loosening may experience pain and dysfunction; in fact, some patients exhibited cement loosening without any pain. Second, there is a lack of evidence-based longitudinal studies and long-term follow-up data. Third, we did not evaluate factors other than age, sex, wedging angle, intravertebral instability, Parkinson’s disease, spinous process fracture, ankylosing spinal hyperostosis, split vertebrae, and adjacent intervertebral vacuum.
Conclusions
The findings of this study indicate that high preoperative intravertebral instability, Parkinson’s disease, spinous process fracture, and split vertebrae are associated with intravertebral cement loosening after PVP for OVF with IVC. Moreover, patients with cement loosening had worse back pain than those without cement loosening did.
Notes
No potential conflict of interest relevant to this article was reported.
Acknowledgements
We thank Maki Miyaki, DVM, PhD, for her helpful assistance with the statistical analysis.
Notes
Author Contributions
Toshio Nakamae wrote and prepared the manuscript, and all of the authors participated in the study design. All authors have read, reviewed, and approved the article.