SINS demonstrated near-perfect inter- and intraobserver reliability in determining three clinically relevant categories of stability. The sensitivity and specificity of SINS for potentially unstable or unstable lesions were 95.7% and 79.5%, respectively.
The Spine Instability Neoplastic Score is a comprehensive classification system with content validity that can guide clinicians in identifying when patients with neoplastic disease of the spine may benefit from surgical consultation. It can also aid surgeons in assessing the key components of spinal instability due to neoplasia and may become a prognostic tool for surgical decision-making when put in context with other key elements such as neurologic symptoms, extent of disease, prognosis, patient health factors, oncologic subtype, and radiosensitivity of the tumor.
Study design
Cross-sectional cohort analysis of patients with Modic Changes (MC).
Objective
Our goal was to characterize the molecular and cellular features of MC bone marrow and adjacent discs. We hypothesized that MC associate with biologic cross-talk between discs and bone marrow, the presence of which may have both diagnostic and therapeutic implications.
Background Data
MC are vertebral bone marrow lesions that can be a diagnostic indicator for discogenic low back pain. Yet, the pathobiology of MC is largely unknown.
Methods
Patients with Modic type 1 or 2 changes (MC1, MC2) undergoing at least 2-level lumbar interbody fusion with one surgical level having MC and one without MC (control level). Two discs (MC, control) and two bone marrow aspirates (MC, control) were collected per patient. Marrow cellularity was analyzed using flow cytometry. Myelopoietic differentiation potential of bone marrow cells was quantified to gauge marrow function, as was the relative gene expression profiles of the marrow and disc cells. Disc/bone marrow cross-talk was assessed by comparing MC disc/bone marrow features relative to unaffected levels.
Results
Thirteen MC1 and eleven MC2 patients were included. We observed pro-osteoclastic changes in MC2 discs, an inflammatory dysmyelopoiesis with fibrogenic changes in MC1 and MC2 marrow, and upregulation of neurotrophic receptors in MC1 and MC2 bone marrow and discs.
Conclusion
Our data reveal a fibrogenic and pro-inflammatory cross-talk between MC bone marrow and adjacent discs. This provides insight into the pain generator at MC levels and informs novel therapeutic targets for treatment of MC-associated LBP.
A strong recommendation is made for patients with high-grade cord compression due to solid tumor metastases to undergo surgical decompression with stabilization followed by radiation therapy. A weak recommendation is made for patients with solitary renal metastases without spinal cord compression to undergo spinal stereotactic radiosurgery.
Breast cancer patients commonly develop metastases in the spine, which compromises its mechanical stability and can lead to skeletal related events. The current clinical standard of treatment includes the administration of systemic bisphosphonates (BP) to reduce metastatically induced bone destruction. However, response to BPs can vary both within and between patients, which motivates the need for additional treatment options for spinal metastasis. Photodynamic therapy (PDT) has been shown to be effective at treating metastatic lesions secondary to breast cancer in an athymic rat model, and is proposed as a treatment for spinal metastasis. The objective of this study was to determine the effect of PDT, alone or in combination with previously administered systemic BPs, on the structural and mechanical integrity of both healthy and metastatically involved vertebrae. Human breast carcinoma cells (MT-1) were inoculated into athymic rats (day 0). At 14 days, a single PDT treatment was administered, with and without previous BP treatment at day 7. In addition to causing tumor necrosis in metastatically involved vertebrae, PDT significantly reduced bone loss, resulting in strengthening of the vertebrae compared to untreated controls. Combined treatment with BP + PDT further enhanced bone architecture and strength in both metastatically involved and healthy bone. Overall, the ability of PDT to both ablate malignant tissue and improve the structural integrity of vertebral bone motivates its consideration as a local minimally invasive treatment for spinal metastasis secondary to breast cancer.
Unplanned hospital readmissions after spine fusion for adult spinal deformity are common, and are most often due to surgical site infection. Patient medical comorbidities are an important part of assessing risk and can be used by providers and patients to better assess individual risk prior to treatment.
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