Effects of Bone Cross-Link Bridging on Fracture Mechanism and Surgical Outcomes in Elderly Patients with Spine Fractures

Mitsuru Furukawa; Kanehiro Fujiyoshi; Toshiki Okubo; Yoshihide Yanai; Kohei Matsubayashi; Takashi Kato; Yoshiomi Kobayashi; Tsunehiko Konomi; Yoshiyuki Yato

doi:10.31616/asj.2022.0319

Effects of Bone Cross-Link Bridging on Fracture Mechanism and Surgical Outcomes in Elderly Patients with Spine Fractures

Asian Spine J. 2023 Aug;17(4):676-684. doi: 10.31616/asj.2022.0319. Epub 2023 Jul 6.

Authors

Mitsuru Furukawa¹, Kanehiro Fujiyoshi¹, Toshiki Okubo¹, Yoshihide Yanai¹, Kohei Matsubayashi¹, Takashi Kato¹, Yoshiomi Kobayashi¹, Tsunehiko Konomi¹, Yoshiyuki Yato¹

Affiliation

¹ Department of Orthopaedics Surgery, Murayama Medical Center, Tokyo, Japan.

Abstract

Study design: This study adopted a cross-sectional study design.

Purpose: This study was designed to investigate the effects of bone cross-link bridging on fracture mechanism and surgical outcomes in vertebral fractures using the maximum number of vertebral bodies with bony bridges between adjacent vertebrae without interruption (maxVB).

Overview of literature: The complex interplay of bone density and bone bridging in the elderly can complicate vertebral fractures, necessitating a better understanding of fracture mechanics.

Methods: We examined 242 patients (age >60 years) who underwent surgery for thoracic to lumbar spine fractures from 2010 to 2020. Subsequently, the maxVB was classified into three groups: maxVB (0), maxVB (2-8), and maxVB (9-18), and parameters, including fracture morphology (new Association of Osteosynthesis classification), fracture level, and neurological deficits were compared. In a sub-analysis, 146 patients with thoracolumbar spine fractures were classified into the three aforementioned groups based on the maxVB and compared to determine the optimal operative technique and evaluate surgical outcomes.

Results: Regarding the fracture morphology, the maxVB (0) group had more A3 and A4 fractures, whereas the maxVB (2-8) group had less A4 and more B1 and B2 fractures. The maxVB (9-18) group exhibited an increased frequency of B3 and C fractures. Regarding the fracture level, the maxVB (0) group tended to have more fractures in the thoracolumbar transition region. Furthermore, the maxVB (2-8) group had a higher fracture frequency in the lumbar spine area, whereas the maxVB (9-18) group had a higher fracture frequency in the thoracic spine area than the maxVB (0) group. The maxVB (9-18) group had fewer preoperative neurological deficits but a higher reoperation rate and postoperative mortality than the other groups.

Conclusions: The maxVB was identified as a factor influencing fracture level, fracture type, and preoperative neurological deficits. Thus, understanding the maxVB could help elucidate fracture mechanics and assist in perioperative patient management.

Keywords: Bridges; Diffuse idiopathic skeletal hyperostosis; Elderly; Lumbar; Spinal fractures; Thoracic.