The correlation between follow-up MRI findings and laboratory results in pyogenic spondylodiscitis

This retrospective study was approved by the institutional review board at our institution. Between September 2006 and December 2014, patients who were diagnosed with pyogenic spondylodiscitis who had undergone baseline and follow-up MRI were selected. At our hospital, the policy of when to follow up MRI is not strictly established. Some infection specialists performed follow up MRI before patient discharge after antibiotic treatment as a comparative study regardless of symptoms while others ordered only when clinically aggravation is suspected. Patients were excluded if they had a history of tuberculosis spondylitis, had undergone surgery, or had an infection after spine surgery. A total of 48 patients (24 men and 24 women, mean age 60.9 years) were included.

MRI was performed with 1.5-T (Magnetom vision [Siemens, Erlangen, Germany]) or 3.0-T (Trio Tim [Siemens, Erlangen, Germany], and Achieva TX [Philips Medical Systems, Eindhoven, The Netherlands]) scanners. The imaging sequences included the T1-weighted and T2-weighted images for the axial and sagittal planes and contrast-enhanced T1-weighted fat suppressed axial and sagittal planes. Nine baseline MRIs were obtained from other institutions. Contrast enhancement was not performed in six baseline studies including four exams from other institution. Two musculoskeletal radiologists reviewed the pair of baseline and follow-up MRIs in consensus. The radiologists were blinded to other clinical information. The bone findings were assessed according to the volume of bone marrow enhancement or edema. The cases were separated into three subgroups (< 33%, 33–66%, ≥66%) based on the baseline MRI. The follow-up MRIs were graded as improved, equivocal, or worse (from baseline). In case of multi-level involvement, most severely involved level was assessed. The disc height of the involved segment was compared between the baseline and follow-up MRIs, and graded as equivocal or worse. The soft tissue findings were determined as follows. Improved meant that there was decreased signal abnormality or abscess size in the paraspinal/psoas muscle, and/or epidural space compared with the baseline imaging findings. Equivocal results indicated that some areas improved while others worsened, or there was no substantial change. Worse findings reflected increased signal abnormality or abscess size in the paraspinal/psoas muscle, and/or epidural space or new levels involved, compared with the baseline imaging findings [10]. Comparisons were primarily made based on the contrast-enhanced images. In cases of unavailable contrast-enhanced images, non-enhanced T2-weighted and T1-weighted images were reviewed.

The available medical records of the baseline and follow-up ESR and CRP levels were obtained. The values of the closest date with MRI examination were selected. Regarding our protocol of laboratory tests, ESR and CRP were routinely monitored after approximately 4 weeks of antimicrobial therapy. Three groups were established based on follow-up laboratory values: normalized (resolved); decreased but not normalized (resolving); and increased (worsened). Figure 1 illustrates the study design.

In our subject group, the mean period between the baseline and follow-up MRIs was 42.25 (± 22.25) days. The pathogens involved in the spondylodiscitis were identified as follows: culture-negative (n = 22), Staphylococcus aureus (n = 12), S. epidermidis (n = 7), methicillin-resistant S. epidermidis (n = 1), Klebsiella pneumoniae (n = 3), Escherichia coli (n = 2), and Corynebacterium striatum (n = 1). Eighteen cases were confirmed by blood culture and eight cases were confirmed by targeted biopsy or aspiration. The involved spinal levels included the cervical spine (n = 1), thoracic (n = 5), thoracolumbar (n = 4), lumbar (n = 34), and lumbosacral (n = 4). CRP resolved in 19 cases (1.9 ± 1.4 mg/L), and worsened in 10 cases (83.8 ± 76.7 mg/L). ESR improved in eight cases (8.0 ± 4.9 mm/hr), and worsened in 18 cases (57.5 ± 21.3 mm/hr). Eight cases showed improvement in both CRP and ESR, while five cases showed worsening of both CRP and ESR. The mean intervals between the laboratory examinations and MRI were 2.69 days for CRP and 2.73 days for ESR in the baseline studies, and 3.1 and 1.83 days on follow-up examinations, respectively.

Based on the CRP results, the number of subjects in the resolved, resolving, and worsened group were 19, 19, and 10, respectively. The bone findings worsened (6 of 19) or were equivocal (6 of 19) in the resolved group. In contrast, the soft tissue findings were improved (14 of 19) in many of the cases in the resolved group (Figs. 2 and 3). The disc findings did not improve in any of the subjects. Table 1 demonstrates changes on follow-up MRI findings in CRP-based subgroups. CRP was significantly correlated with changes in bone and soft tissue (p = 0.004 and 0.001, respectively), but not with changes in disc height (p = 0.072). This correlation was best with soft tissue changes (rho: 0.482), followed by bony changes (rho: 0.408).

Based on the ESR results, the numbers of subjects in the resolved, resolving, and worsened group were 8, 22, and 18, respectively. The bone findings improved (3 of 8) or were equivocal (4 of 8) in the resolved subjects, while they were equivocal (7 of 22) or worse (11 of 22) in the resolving group (Figs. 3 and 4). The soft tissue findings improved in 50% (4 of 8) of the resolved group and 63.6% (14 of 22) of the resolving group. The disc findings, like in the CRP-based analysis, were not improved in all subjects. Table 2 demonstrates changes in follow-up MRI findings in the ESR-based subgroups. Changes in the bone and soft tissue both showed significant correlation in the ESR-based subgroups (p = 0.001 and 0.007, respectively), but not with the disc changes (p = 0.507). The correlation was better with the bony changes (rho: 0.447) than with the soft tissue changes (rho: 0.387).