Affiliation:
1. Xi'an Medical University Affiliated Honghui Hospital: Honghui Hospital
2. Beijing University of Chinese Medicine Affiliated Dongzhimen Hospital
3. Xi'an Jiaotong University School of Medicine Affiliated Honghui Hospital: Honghui Hospital
Abstract
Abstract
Background
As an emerging robot-assisted (RA) technology, whether its application in transforaminal lumbar interbody fusion (TLIF) is more worthwhile has not been supported by relevant evidence thus far. Moreover, utilizing RA procedures for TLIF places a greater financial burden on patients when compared to traditional fluoroscopy-guided (FG) TILF. As a result, the appropriateness of implementing RA in TLIF surgery remains uncertain.
Objective
We aimed to investigate whether the RA TLIF is superior to FG TLIF in treating lumbar degenerative disease.
Methods
We systematically reviewed PubMed, Embase, Web of Science, CNKI, WanFang, VIP and the Cochrane Library as well as the references of published review articles for relevant studies of comparison of RA versus FG TLIF for lumbar degenerative diseases through July 2023. Cohort studies (CSs) and randomized controlled trials (RCTs) were included. The evaluation criteria consisted of accuracy of percutaneous pedicle screw placement, proximal facet joint violation (FJV), radiation exposure, duration of surgery, estimated blood loss (EBL) and revision case. Quality was assessed using the Cochrane Collaboration tool for RCTs and the Newcastle-Ottawa Scale (NOS) for CSs.
Results
Our search identified 539 articles, of which 21 met the inclusion criteria for quantitative analysis. Meta-analysis revealed that RA had 1.03-folds higher “clinically acceptable” accuracy than FG (RR: 1.0382, 95% CI: 1.0273–1.0493). And RA had 1.12-folds higher “perfect” accuracy than FG group (RR: 1.1167, 95% CI: 1.0726–1.1626). For proximal FIV, the results suggest that the patients who underwent RA pedicle screw placement had 74% fewer proximal-facet joint violation than the FG group (RR: 0.2606, 95%CI: 0.2063–0.3293). Seventeen CSs and two RCTs reported the duration of time. The results of CSs suggest that there is no significant difference between RA and FG group (SMD: 0.1111, 95%CI: -0.391-0.6131), but the results of RCTs suggest that the patients who underwent RA-TLIF need more surgery time than FG (SMD: 3.7213, 95%CI: 3.0756–4.3669). Sixteen CSs and two RCTs reported the EBL. The results suggest that the patients who underwent RA pedicle screw placement had fewer EBL than FG group (CSs: SMD: -1.9151, 95%CI: -3.1265–0.7036, RCTs: SMD: -5.9010, 95%CI: -8.7238–3.0782). For radiation exposure, the results of CSs suggest that there is no significant difference in radiation time between RA and FG group (SMD: -0.5256, 95%CI: -1.4357-0.3845), but the patients who underwent RA pedicle screw placement had fewer radiation dose than FG group (SMD: -2.2682, 95%CI: -3.1953–1.3411). And four CSs and one RCT reported the number of revision case. The results of CSs suggest that there is no significant difference in the number of revision case between RA and FG group (RR: 0.4087,95% CI 0.1592–1.0495). Our findings are limited by the heterogeneity of the included studies.
Conclusion
In TLIF, RA technology demonstrates more accurate placement of pedicle screws compared to FG, offering advantages in protecting adjacent facet joints and reducing intraoperative radiation dosage and blood loss. However, due to longer preoperative preparation time, the surgical duration and radiation time of RA is comparable to FG techniques. Currently, FG screw placement continues to be the predominant technique, and clinical surgeons have greater proficiency in its application. Consequently, the integration of RA into TLIF surgery may not be an optimal choice.
Publisher
Research Square Platform LLC