Comparison of Staged vs Same-Day Circumferential Spinal Fusions for Adult Spinal Deformity

Discussion

While our understanding of ASD pathologies and correction techniques has improved exponentially, the complexity of the surgeries combined with the increasing age and age-related comorbidities of the ASD population often complicates the patients’ hospital stays, affects their quality of life, and inflates health care costs.19,20 Proper surgical planning can be critical to mitigating the high morbidity of multiapproach ASD surgeries, including the decision to stage surgeries or combine approaches on the same day.20 The literature, however, still lacks high-quality evidence of the superiority of one strategy over the other.

Three decades ago, Shufflebarger et al retrospectively reported a comparison of ST (n = 35) vs SD (n = 40) corrective surgery for spinal deformity patients. Their data showed significantly shorter operative time and LOS, less blood loss, more favorable deformity correction, and lower postoperative complications rates in the SD group vs the ST group.18 Notably, their patient cohort included several categories of spinal deformity, including congenital and degenerative spinal pathologies, and their protocol for staging the anterior and posterior spinal fusion included 7 to 10 days between procedures. Viviani et al reported a retrospective comparison of 1- (n = 11) vs 2-stage (n = 11) anterior and posterior spinal fusions. The inclusion of patients to either group was based on preoperative risk assessment as well as the feasibility to combine both anterior and posterior approaches that would last for a total maximum operative time of 9 hours. The 1-stage groups showed a significantly more favorable postoperative morbidity profile. Additionally, the 1-stage group showed shorter LOS and less EBL.11

In 2012, Passias et al reported a population-based national discharge data analysis to analyze perioperative outcomes of 11,265 circumferential spine surgeries between 1998 and 2006. They compared SD vs ST circumferential spine surgeries, which showed a higher rate of perioperative complications among the ST group.12 Similar to our findings, the incidence of postoperative venous thrombosis and acute respiratory distress syndrome was significantly higher among the ST group with increasing odds of mortality and morbidity compared with the SD group. In 2017, Passias et al performed another retrospective analysis of prospective multicenter data comparing open ST (n = 71) vs SD (n = 71) spine surgery in ASD patients, utilizing a propensity score matching to adjust for the preoperative differences between both groups. Again, patients in the ST groups had significantly more complications resulting in reoperations. While the incidences of intraoperative complications, infections, wound complications, and 2-year mortality were similar, the incidence of revision surgery at 2-year follow-up remained higher in the ST group.16 Both studies confirm the equal, if not superior, profile of SD compared with ST surgeries.12,16 However, these studies were not limited to circumferential corrective surgeries, which is a unique aspect of our cohort.

There is great variability in the decision-making process that determines whether or not to stage ASD cases among spine surgeons. While surgeons typically utilize the available information about patients’ health to optimize the surgical plan, the differences in surgical training backgrounds and preferences often become important determining factors. Many external factors can also influence the surgical planning of complex spinal deformity correction, including organizational factors such as OR and staff availability, as well as patient preference. Notably, not all health care systems have the same degree of resource availability, which can be a critical factor in planning procedures. This variation also highlights the relative paucity of data comparing ST to SD spinal fusions. Together, this makes it difficult to create generalized guidelines for ASD treatment, which is why we aimed to evaluate outcomes from a large cohort of ASD procedures from a multisurgeon academic center. Studying this patient population in this context limits the variability encountered in different practice settings/institutions. Of note, this patient group consists exclusively of patients who received ALIF and PSF. We deliberately excluded cases that underwent other interbody fusion procedures using any approach that was not an open anterior approach in order to avoid additional variability in the surgical characteristics of both groups and to remove the surgical approach from the potentially confounding factors in our analysis.21

In this present study, we carefully screened the past medical and surgical history of the patient population. Within the full cohort, the ST group underwent significantly more invasive circumferential spine fusions and had more intraoperative and postoperative complications, reoperations, and disposition to inpatient rehabilitation or SNF. As a sensitivity analysis to account for the patient characteristics, comorbidities, and surgical differences between both groups, we utilized IPW to mine for actual significant differences after controlling for possible confounders. Furthermore, in order to appropriately compare SD vs ST procedures and mitigate the differences accounted for by complexity of surgery, the patients were subdivided into those undergoing more than 4 levels of posterior fusion for both unadjusted univariate and IPW analysis. Following these analyses, the differences in perioperative outcomes were no longer significant after IPW except for PE and LOS, which remained significantly higher for the ST group after IPW in both the full cohort and the LS cohort.

Extended hospitalization is independently associated with increased hospital costs after ASD surgeries. This finding has been reported by Stephens et al, who also reported other drivers of increased overall costs such as COPD, diabetes mellitus, number of fused levels, operative time, 90-day readmission, and utilization of inpatient rehabilitation.22 To look further into the implications of the increased LOS, we performed a cost analysis to identify significant differences in hospital costs. This analysis showed significantly higher total hospital admission costs in the ST group, highlighting the expected association between longer hospitalizations and increased costs. Importantly, this finding was seen in the whole cohort and within those patients undergoing more than 4 levels of fusion on IPW. While the extended hospitalizations in the ST group can partially be attributed to the planned staging of the circumferential spinal fusion, it may be attributed to the increased in PE rates in these patients, particularly in those undergoing more than 4 levels of fusion.

Previous reports comparing the 2 strategies often showed worsened morbidity profiles with staging of circumferential corrective surgeries for ASD. One recent retrospective study found postoperative pulmonary complications in 11.7% of adult scoliosis patients with risk factors including a preoperative Cobb angle of >75°.23 A circumferential approach to the spine has been reported to have a higher rate of PE (OR = 1.94) in recent reports.24,25 Our findings further suggest that staging posed an increased risk of PE, led to higher LOS, and ultimately may have increased hospital costs even when accounting for the number of levels fused.

There are several limitations to our study. Given the retrospective, nonrandomized data collection method and analysis, the level of evidence provided from our results is subject to potential confounding and could also lead to selection bias. The decision to undergo ST or SD procedures was made at the discretion of the surgeon. Unfortunately, there was absence of a system to document the reason ASD cases were ST or performed on the SD in each individual case. However, IPW was chosen to mitigate the differences between the groups and create a pseudoexperiment. Additionally, a subgroup analysis was performed of patients undergoing more extensive surgery with a cutoff of more than 4 posterior levels fused. The study also lacks several patient-reported outcomes measures to add further insight into the differences between both surgical strategies. Finally, despite it being one of the largest studies available, the sample size of this study remains relatively low, particularly in those patients undergoing more than 4 levels of fusion. Since many outcomes of interest had relatively low incidence rates, the analysis had limited power, particularly after IPW, and multiple variables showed trending differences but did not reach statistical significance. Therefore, future multi-institutional, prospective randomized controlled trials utilizing greater sample sizes are needed to confirm these findings, make the results more generalizable, elucidate and control for the surgeon’s rationale for selecting ST or SD, and to study the risks of PE in the ST group more closely with documentation of ambulatory schedules, chemical prophylaxis, and sequential compression device usage.