Significance of Dynamic Mobility in Restoring Vertebral Body Height in Vertebroplasty

Discussion

A large part of the success of vertebroplasty depends on correct patient selection, and MR imaging plays a vital role in this process.⁹ Many authors^9–11 recommended using MR imaging as a preprocedural examination. Brown et al¹² stated that 100% of patients with bone marrow edema had clinical benefit. We followed this rule, and vertebroplasty was performed in vertebrae with bone marrow edema on MR imaging. If the patient had contraindications for MR imaging, we used dynamic radiographs (sitting and supine with bolster) to find out which vertebra was symptomatic (dynamic mobility) after we ruled out the possibility of infection. If a patient had severe back pain without an edematous lesion on MR imaging, we would also use dynamic radiographs to check the mobility. Usually, if the pain was severe, there was always some dynamic mobility at the fractured vertebrae.

Hiwatashi et al¹ measured the height of 85 vertebral bodies in 37 patients before and after vertebroplasty. The average increase in vertebral body height was 2.5 mm; 13 of 85 treated vertebrae remained unchanged. They concluded that vertebral body height often increases during vertebroplasty. Teng et al² reviewed digital radiographs of 73 vertebral bodies in 53 patients before and after vertebroplasty and found that the restoration percentage for the height of the vertebral body was 29% for the anterior border. They, therefore, also concluded that vertebroplasty increases the height of a fractured vertebra. Many other authors have also reported increased vertebral body height from vertebroplasty (with or without any reduction maneuver) or kyphoplasty.^{3–5,13–15}

However, McKiernan et al⁶ demonstrated dynamic fracture mobility in 44% of their patients (35% of treated vertebrae) who underwent vertebroplasty. They concluded that in any article in which vertebral height restoration is claimed, there must be control for the occurrence of dynamic mobility of the fractured vertebrae. In a study by Chen et al,⁷ 87.5% of 144 MR imaging−proved edematous VCFs were demonstrated to be mobile. The average vertebral body height increase from sitting to supine with bolster lateral radiographs was 8.48 ± 5.36 mm (range, −1.17–24.04 mm), which was statistically significant (P < .001). On the basis of these findings, we propose that dynamic mobility of a fractured vertebra may contribute to height restoration in vertebroplasty.

As McKiernan et al⁶ mentioned, because any article that claims vertebral height restoration must control for the occurrence of dynamic mobility of the fractured vertebrae, we compared the vertebral body height between supine with bolster lateral radiographs and postvertebroplasty radiographs to decide whether the height increase came from the dynamic mobility of fractured vertebra or from the vertebroplasty itself. In this study, the difference in the kyphotic angle between supine cross-table with bolster radiographs and postvertebroplasty radiographs was −0.49 ± 3.59° (range, −9°–16°), which was not statistically significant (P = 0.124). That means that there was no significant difference between the kyphotic angle on supine with bolster and postvertebroplasty radiographs; the correction of the kyphotic angle was due to the dynamic mobility of the fractured vertebrae, not due to vertebroplasty itself. Vertebroplasty itself did not contribute to the correction of the kyphotic angle.

The difference in anterior vertebral body height between supine cross-table with bolster and postvertebroplasty radiographs was 0.84 ± 3.01 mm, which was significant (P = .002). That means that the anterior vertebral body height restoration on supine with bolster radiographs was more than that on postvertebroplasty radiographs and was statistically significant. However, the difference was so small that it may not have any clinical significance. Why is the vertebral height on supine with bolster radiographs higher than the height on postvertebroplasty radiographs? It is because of the bolster that causes the fractured vertebrae to be in a hyperextended position (Fig 1B); the degree of hyperextension is less during vertebroplasty (Fig 1C). However, the difference is not much, only 0.84 ± 3.01 mm.

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Fig 1.

A 62-year-old woman had severe back pain due to a T12 compression fracture. The anterior vertebral body height in the sitting (A) lateral radiograph is 7.23 mm and changed to 21.22 mm in the supine with bolster (B) lateral radiograph and 15.41 mm in the postvertebroplasty radiograph (C).

Theoretically, if the vertebra is fixed, there should be no height increase after vertebroplasty. Why did some fixed vertebrae (height increase, ≦3 mm) have a height increase after vertebroplasty in our study? The reasons may be due to poor positioning of the bolster so that the fractures did not open well, pain-induced muscle spasm during the examination, and some measurement error due to the poor quality of radiographs. This situation only happened in fractures with mild mobility.

The weaknesses of this study are the following: 1) As a retrospective study from a single center, there was potential for several biases (referral bias, patient characteristics, and so forth). 2) The number of patients enrolled was small. 3) Patients were screened by using MR imaging and not other modalities and had to show signs of edema—this group may not be representative of all patients or all fractures undergoing vertebroplasty. 4) Although we tried our best to measure the radiographs correctly, there may be still some measurement error.