We conducted a cross-sectional retrospective study of consecutive patients undergoing spinal surgery to evaluate the association between non-traumatic VFs and IVD degeneration adjacent to VFs. VFs were significantly associated with MRI grades of IVD degeneration and the presence of intradiscal VPs of discs adjacent to VFs. Logistic regression analysis showed that VF was one of the independent related factors for adjacent disc degeneration.
Eight clinical studies have evaluated the association between thoracolumbar VFs with spine trauma and adjacent disc degeneration (Table 4).
Table 4
Association between thoracolumbar vertebral fractures with spine trauma and the adjacent disc degeneration
Author | Year | Subjects | Age (averaged) | Design | Follow-up | Type of injury | Treatment | MRI Assessment |
Kerttula6 | 2000 | 14 | 15.5 [8.8–20.8] | Retrospective study | 3.8 Y | Wedge-type (14) | Conservative | Decrease in T2 signal intensity |
Moller17 | 2007 | 20 | 12 [7–16] | Observational cohort study | 40 Y | Stable (18), Denis type B (2) | Conservative | Oner classification Scheme18 |
Verlaan20 | 2013 | 20 | 42 [18–74] | Prospective trial | 12 to 18 M | AO: A3 (20), A4 (1) | PS fixation | Pfirrmann classification13 |
Toyone7 | 2013 | 12 | 38 [14–59] | Prospective consecutive series | 10 Y | AO: A3 (12) | PS fixation | Borenstein's report (score: 0–3)31 |
Wang8 | 2013 | 26 | 39.6 [21–54] | Retrospective study | 9–12 M | AO: A3 (26) | PS fixation | Pfirrmann classification13 |
Sander9 | 2014 | 27 | 37.5 [16–59] | Retrospective study | 1 Y | AO: A1 (5), A2 (14), A3 (8) | PS fixation | Original classification (Grade 0–3) |
Noriega10 | 2016 | 20 | 50.7 [45–56] | Retrospective study | 32 M | AO: A1 (10), A3 (10) | IKP | Diffusion-weighted MR imagig |
Descamps11 | 2019 | 93 | 54 [18–83] | Retrospective study | 26.7 M | AO: A1 (54), A2 (5), A3 (34) | IKP | *Radiograph UCLA Grading Scale32 |
Y: years, M: months, PS fixation: Pedicle screw fixation, AO: AO classification19, IKP: instrumented kyphoplasty. |
Numbers in the brackets indicate the range of age. Number in the parentheses indicates the number of subjects. |
Y: years, M: months, PS fixation: Pedicle screw fixation, AO: AO classification19, IKP: instrumented kyphoplasty. Numbers in the brackets indicate the range of age. Number in the parentheses indicates the number of subjects.
Among these, two studies focused on degenerative IVDs adjacent to a VF in children or young patients who were treated conservatively [6, 17]. Kerttula et al. investigated the occurrence of disc degeneration by MRI in young patients (average-age: 15.5 years) with a history of wedge type VFs [6]. They concluded that wedge type VFs, especially with endplate injury, in young people are significantly associated with the occurrence of disc degeneration[6]. Later, Moller et al. [17] evaluated whether VFs in children (average-age: 12 years) are a risk factor for adjacent IVD degeneration. They used MRI and the Oner classification scheme [18], which mainly classifies morphological changes of IVDs and endplate injuries, and reported no significant association between stable VFs and adjacent disc degeneration [17]. Because of differences in MRI assessments and type of injures (Table 4), the relationship between VFs and adjacent disc degeneration in children has not been unfiled. The other six clinical studies had evaluated disc degeneration following thoracolumbar VFs (AO classification [19]: type A1-4) treated with spine surgeries (Table 4). Posterior pedicle screw fixation was performed in four studies [7–9, 20] and instrumented kyphoplasty in two studies [10, 11]. Most of these studies reported the occurrence of adjacent disc degeneration following thoracolumbar VFs treated by spine surgeries, except for the study of Verlaan [20]. The results of these studies suggest that a surgical procedure that directly or indirectly corrects kyphosis and/or end-plate restoration will alleviate the progression of adjacent disc degeneration [7, 8, 10, 11, 20].
In contrast to these previous studies, the results of the current study showed a significant association between non-traumatic VFs and adjacent disc degeneration in a relatively older population.
Next, to evaluate the effect of spinal levels on disc degeneration, the relationship between VFs and disc degeneration at different intervertebral disc levels was assessed (Fig. 5). Although there was no significant difference in the percentages of advanced stage of disc degeneration between VF-positive and VF-negative groups in L3/L4 and L4/L5, those percentages in T12/L1, L1/L2 and L2/L3, which had originally less degeneration [21], in the VF-positive group were significantly higher than those in the VF-negative group. This suggests that the effect of VFs on adjacent disc degeneration would be more pronounced at upper lumbar levels than those at middle/lower lumbar levels.
In addition, we evaluated the association between VFs and the presence of adjacent intradiscal VPs. Intradiscal VPs refer to the radiographic appearance of a lucency caused by the presence of gas, usually found in the lumbar region [22, 23]; this is one of the characteristics of IVD degeneration [14, 24]. Murata and colleagues showed that the presence of intradiscal VPs is associated with the MRI-grade of disc degeneration and radiographic disc height narrowing [14]. The results of the current study showed that the incidence of VPs, especially the island type, in the VF-positive group was significantly higher than that in the VF-negative group; this suggests that VFs have an impact, not only on the extent of MRI-graded disc degeneration, but also on the intradiscal ruptures evaluated by CT imaging as intradiscal VPs.
The results of the analysis of intradiscal VPs by disc level was nearly identical to those of MRI-graded disc degeneration. Lafforgue and colleagues reported that VPs were grouped into collapse-related VPs and degenerative VPs [25]. They reported that collapse-related VPs, which were secondary to vertebral collapse, were located mainly in the thoracolumbar junction. Degenerative VPs, which were the result of disc degeneration, were located in lower lumbar discs. Therefore, in the current study, we speculate that intradiscal VPs in upper lumbar levels would be mainly attributed to VFs (vertebral collapse).
According to the results of logistic regression analyses, age, disc level, and adjacent vertebral fracture were independent related factors for disc degeneration and intradiscal VPs (Table 2). It is well known that being elderly and lower disc level were significant related factors for disc degeneration [21, 26, 27]. The current study showed evidence that VFs are also an independent related factor for adjacent disc degeneration for the population with non-traumatic VFs.
The following three patho-mechanisms are involved in the occurrence of adjacent disc degeneration. First, endplate and IVD injuries directly caused by VFs promote the progression of disc degeneration. Fujiwara and colleagues reported that endplate injuries were observed in 61%, and IVD lesions in 60% of patients with an acute, single osteoporotic VF [28]. Second, the progression of vertebral collapse is thought to cause impaired blood flow in vertebral bodies, to reduce blood flow and nutrient supply to the disc, and to cause disc degeneration [1, 5]. Imanishi and colleagues recently showed, using a rabbit lumbar artery ligation model, that ischemia of lumbar vertebrae initiates degenerative changes in IVDs [4]. Therefore, an ischemic vertebra is considered to be one of the important factors responsible for IVD degeneration. Third, mechanical stress is also involved in the progression of adjacent disc degeneration. Severe disc degeneration could cause the anterior vertebral body to be stress-shielded during the usual erect posture and predispose to vertebral fracture when the spine is flexed [29, 30]. These mechanisms would also contribute to adjacent disc degeneration following VFs.
A limitation of this study is that most of the subjects were patients who had been given pre-operative radiographs, CT, and MRI for elective spinal surgeries. Therefore, MRI grading of IVDs and percentage of intradiscal VPs would be much higher than those within a general population [21]. Another limitation is that VFs in our study excluded those caused by high energy trauma; therefore, most VFs in the subjects of this study would be osteoporotic VFs.